[Chimera-users] How to show hydrophobic interactions

[Kenji MATSUI]

Dear Chimera

Thank you for taking the time to answer my question the other day.

I also apologize for contacting you outside of business hours due to the
time difference.

I'm Kenji Matsui, a second-year master's student at a national university
in Japan.

I have shown hydrophobic interactions between ligands and amino acid
residues, how should I display them?

I refer to these methods.

But, I did not know where to find Examine residues.

Therefore, could you please tell me the location of Examine residues?

If possible, we would appreciate it if you could attach a diagram after the
operation so that we can confirm the operating procedure.

*A:Find hydrophobic interactions*

Select >> Residue(s) (either in entire structure or within a selected set
(see above $ or %)) >>

Amino acid category >> hydrophobic >> Action >> Atoms/Bonds >> Show >>

Examine residues >> Mouse over atoms or Left click on them to identify them
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松井 健治
 東京農工大学大学院 工学府産業技術専攻 修士 2年
〒184-8588 東京都小金井市中町2-24-16

Kenji Matsui
 Graduate School of Tokyo University of Agriculture and Technology M2
2-24-16, Nakamachi, Koganei-shi, Tokyo 184-8588, Japan
 Mail: s214903z at st.go.tuat.ac.jp
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import cPickle, base64
try:
	from SimpleSession.versions.v65 import beginRestore,\
	    registerAfterModelsCB, reportRestoreError, checkVersion
except ImportError:
	from chimera import UserError
	raise UserError('Cannot open session that was saved in a'
	    ' newer version of Chimera; update your version')
checkVersion([1, 16, 42360])
import chimera
from chimera import replyobj
replyobj.status('Restoring session...', \
    blankAfter=0)
replyobj.status('Beginning session restore...', \
    blankAfter=0, secondary=True)
beginRestore()

def restoreCoreModels():
	from SimpleSession.versions.v65 import init, restoreViewer, \
	     restoreMolecules, restoreColors, restoreSurfaces, \
	     restoreVRML, restorePseudoBondGroups, restoreModelAssociations
	molInfo = cPickle.loads(base64.b64decode('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'))
	resInfo = cPickle.loads(base64.b64decode('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'))
	atomInfo = cPickle.loads(base64.b64decode('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'))
	bondInfo = cPickle.loads(base64.b64decode('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'))
	crdInfo = cPickle.loads(base64.b64decode('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'))
	surfInfo = {'category': (0, None, {}), 'probeRadius': (0, None, {}), 'pointSize': (0, None, {}), 'name': [], 'density': (0, None, {}), 'colorMode': (0, None, {}), 'useLighting': (0, None, {}), 'transparencyBlendMode': (0, None, {}), 'molecule': [], 'smoothLines': (0, None, {}), 'lineWidth': (0, None, {}), 'allComponents': (0, None, {}), 'twoSidedLighting': (0, None, {}), 'customVisibility': [], 'drawMode': (0, None, {}), 'display': (0, None, {}), 'customColors': []}
	vrmlInfo = {'subid': (0, None, {}), 'display': (0, None, {}), 'id': (0, None, {}), 'vrmlString': [], 'name': (0, None, {})}
	colors = {u'': ((0.313725, 0.815686, 0.313725), 1, u''), u'Ru': ((0.141176, 0.560784, 0.560784), 1, u'default'), u'Re': ((0.14902, 0.490196, 0.670588), 1, u'default'), u'Rf': ((0.8, 0, 0.34902), 1, u'default'), u'Ra': ((0, 0.490196, 0), 1, u'default'), u'Rb': ((0.439216, 0.180392, 0.690196), 1, u'default'), u'Rn': ((0.258824, 0.509804, 0.588235), 1, u'default'), u'Rh': ((0.0392157, 0.490196, 0.54902), 1, u'default'), u'Be': ((0.760784, 1, 0), 1, u'default'), u'Ba': ((0, 0.788235, 0), 1, u'default'), u'Bh': ((0.878431, 0, 0.219608), 1, u'default'), u'Bi': ((0.619608, 0.309804, 0.709804), 1, u'default'), u'Bk': ((0.541176, 0.309804, 0.890196), 1, u'default'), u'Br': ((0.65098, 0.160784, 0.160784), 1, u'default'), u'orange': ((1, 0.498039, 0), 1, u'default'), u'H': ((1, 1, 1), 1, u'default'), u'P': ((1, 0.501961, 0), 1, u'default'), u'Os': ((0.14902, 0.4, 0.588235), 1, u'default'), u'Hg': ((0.721569, 0.721569, 0.815686), 1, u'default'), u'Ge': ((0.4, 0.560784, 0.560784), 1, u'default'), u'Gd': ((0.270588, 1, 0.780392), 1, u'default'), u'Ga': ((0.760784, 0.560784, 0.560784), 1, u'default'),
u'Pr': ((0.85098, 1, 0.780392), 1, u'default'), u'Pt': ((0.815686, 0.815686, 0.878431), 1, u'default'), u'Pu': ((0, 0.419608, 1), 1, u'default'), u'Mg': ((0.541176, 1, 0), 1, u'default'), u'Pb': ((0.341176, 0.34902, 0.380392), 1, u'default'), u'Pa': ((0, 0.631373, 1), 1, u'default'), u'Pd': ((0, 0.411765, 0.521569), 1, u'default'), u'Xe': ((0.258824, 0.619608, 0.690196), 1, u'default'), u'Po': ((0.670588, 0.360784, 0), 1, u'default'), u'Pm': ((0.639216, 1, 0.780392), 1, u'default'), u'Hs': ((0.901961, 0, 0.180392), 1, u'default'), u'Ho': ((0, 1, 0.611765), 1, u'default'), u'Hf': ((0.301961, 0.760784, 1), 1, u'default'), u'Mo': ((0.329412, 0.709804, 0.709804), 1, u'default'), u'He': ((0.85098, 1, 1), 1, u'default'), u'Md': ((0.701961, 0.0509804, 0.65098), 1, u'default'), u'C': ((0.564706, 0.564706, 0.564706), 1, u'default'), u'K': ((0.560784, 0.25098, 0.831373), 1, u'default'), u'Mn': ((0.611765, 0.478431, 0.780392), 1, u'default'), u'O': ((1, 0.0509804, 0.0509804), 1, u'default'), u'Mt': ((0.921569, 0, 0.14902), 1, u'default'), u'S': ((1, 1, 0.188235), 1, u'default'),
u'W': ((0.129412, 0.580392, 0.839216), 1, u'default'), u'sky blue': ((0.529412, 0.807843, 0.921569), 1, u'default'), u'Zn': ((0.490196, 0.501961, 0.690196), 1, u'default'), u'Eu': ((0.380392, 1, 0.780392), 1, u'default'), u'Es': ((0.701961, 0.121569, 0.831373), 1, u'default'), u'Er': ((0, 0.901961, 0.458824), 1, u'default'), u'Ni': ((0.313725, 0.815686, 0.313725), 1, u'default'), u'No': ((0.741176, 0.0509804, 0.529412), 1, u'default'), u'Na': ((0.670588, 0.360784, 0.94902), 1, u'default'), u'Nb': ((0.45098, 0.760784, 0.788235), 1, u'default'), u'Nd': ((0.780392, 1, 0.780392), 1, u'default'), u'Ne': ((0.701961, 0.890196, 0.960784), 1, u'default'), u'Np': ((0, 0.501961, 1), 1, u'default'), u'Fr': ((0.258824, 0, 0.4), 1, u'default'), u'Fe': ((0.878431, 0.4, 0.2), 1, u'default'), u'Fm': ((0.701961, 0.121569, 0.729412), 1, u'default'), u'B': ((1, 0.709804, 0.709804), 1, u'default'), u'F': ((0.564706, 0.878431, 0.313725), 1, u'default'), u'Sr': ((0, 1, 0), 1, u'default'), u'N': ((0.188235, 0.313725, 0.972549), 1, u'default'), u'Kr': ((0.360784, 0.721569, 0.819608), 1, u'default'),
u'Si': ((0.941176, 0.784314, 0.627451), 1, u'default'), u'Sn': ((0.4, 0.501961, 0.501961), 1, u'default'), u'Sm': ((0.560784, 1, 0.780392), 1, u'default'), u'V': ((0.65098, 0.65098, 0.670588), 1, u'default'), u'Sc': ((0.901961, 0.901961, 0.901961), 1, u'default'), u'Sb': ((0.619608, 0.388235, 0.709804), 1, u'default'), u'Sg': ((0.85098, 0, 0.270588), 1, u'default'), u'Se': ((1, 0.631373, 0), 1, u'default'), u'Co': ((0.941176, 0.564706, 0.627451), 1, u'default'), u'Cm': ((0.470588, 0.360784, 0.890196), 1, u'default'), u'Cl': ((0.121569, 0.941176, 0.121569), 1, u'default'), u'Ca': ((0.239216, 1, 0), 1, u'default'), u'Cf': ((0.631373, 0.211765, 0.831373), 1, u'default'), u'Ce': ((1, 1, 0.780392), 1, u'default'), u'Cd': ((1, 0.85098, 0.560784), 1, u'default'), u'Tm': ((0, 0.831373, 0.321569), 1, u'default'), u'Cs': ((0.341176, 0.0901961, 0.560784), 1, u'default'), u'Cr': ((0.541176, 0.6, 0.780392), 1, u'default'), u'Cu': ((0.784314, 0.501961, 0.2), 1, u'default'), u'La': ((0.439216, 0.831373, 1), 1, u'default'), u'Li': ((0.8, 0.501961, 1), 1, u'default'),
u'Tl': ((0.65098, 0.329412, 0.301961), 1, u'default'), u'Lu': ((0, 0.670588, 0.141176), 1, u'default'), u'Lr': ((0.780392, 0, 0.4), 1, u'default'), u'Th': ((0, 0.729412, 1), 1, u'default'), u'Ti': ((0.74902, 0.760784, 0.780392), 1, u'default'), u'tan': ((0.823529, 0.705882, 0.54902), 1, u'default'), u'Te': ((0.831373, 0.478431, 0), 1, u'default'), u'Tb': ((0.188235, 1, 0.780392), 1, u'default'), u'Tc': ((0.231373, 0.619608, 0.619608), 1, u'default'), u'Ta': ((0.301961, 0.65098, 1), 1, u'default'), u'Yb': ((0, 0.74902, 0.219608), 1, u'default'), u'Db': ((0.819608, 0, 0.309804), 1, u'default'), u'Dy': ((0.121569, 1, 0.780392), 1, u'default'), u'At': ((0.458824, 0.309804, 0.270588), 1, u'default'), u'I': ((0.580392, 0, 0.580392), 1, u'default'), u'medium purple': ((0.576471, 0.439216, 0.858824), 1, u'default'), u'U': ((0, 0.560784, 1), 1, u'default'), u'Y': ((0.580392, 1, 1), 1, u'default'), u'Ac': ((0.439216, 0.670588, 0.980392), 1, u'default'), u'Ag': ((0.752941, 0.752941, 0.752941), 1, u'default'), u'Ir': ((0.0901961, 0.329412, 0.529412), 1, u'default'),
u'Am': ((0.329412, 0.360784, 0.94902), 1, u'default'), u'Al': ((0.74902, 0.65098, 0.65098), 1, u'default'), u'As': ((0.741176, 0.501961, 0.890196), 1, u'default'), u'Ar': ((0.501961, 0.819608, 0.890196), 1, u'default'), u'Au': ((1, 0.819608, 0.137255), 1, u'default'), u'Zr': ((0.580392, 0.878431, 0.878431), 1, u'default'), u'In': ((0.65098, 0.458824, 0.45098), 1, u'default')}
	materials = {u'default': ((0.85, 0.85, 0.85), 30), u'': ((0.85, 0.85, 0.85), 30)}
	pbInfo = {'category': [u'coordination complexes of combination (#2)', u'coordination complexes of combination (#3)', u'coordination complexes of combination (#4)', u'coordination complexes of target.pdb (#0)', u'distance monitor', u'hydrogen bonds'], 'bondInfo': [{'color': (3, None, {}), 'atoms': [[23188, 23184], [23188, 23190], [23188, 23199]], 'label': (3, u'', {}), 'halfbond': (3, False, {}), 'labelColor': (3, None, {}), 'labelOffset': (3, chimera.Vector(-1e+99, 0.0, 0.0), {chimera.Vector(-1e+99, 0.0, 0.0): [2], chimera.Vector(-1e+99, 0.0, 0.0): [1]}), 'drawMode': (3, 0, {}), 'display': (3, 2, {})}, {'color': (3, None, {}), 'atoms': [[26524, 26520], [26524, 26526], [26524, 26535]], 'label': (3, u'', {}), 'halfbond': (3, False, {}), 'labelColor': (3, None, {}), 'labelOffset': (3, chimera.Vector(-1e+99, 0.0, 0.0), {chimera.Vector(-1e+99, 0.0, 0.0): [1], chimera.Vector(-1e+99, 0.0, 0.0): [0]}), 'drawMode': (3, 0, {}), 'display': (3, 2, {})}, {'color': (3, None, {}), 'atoms': [[29860, 29856], [29860, 29862], [29860, 29871]], 'label': (3, u'', {}), 'halfbond': (3, False, {}), 'labelColor': (3, None, {}), 'labelOffset': (3, chimera.Vector(-1e+99, 0.0, 0.0), {chimera.Vector(-1e+99, 0.0, 0.0): [2], chimera.Vector(-1e+99, 0.0, 0.0): [0]}), 'drawMode': (3, 0, {}), 'display': (3, 2, {})},
{'color': (3, None, {}), 'atoms': [[1310, 1306], [1310, 1312], [1310, 1321]], 'label': (3, u'', {}), 'halfbond': (3, False, {}), 'labelColor': (3, None, {}), 'labelOffset': (3, chimera.Vector(-1e+99, 0.0, 0.0), {chimera.Vector(-1e+99, 0.0, 0.0): [2], chimera.Vector(-1e+99, 0.0, 0.0): [1]}), 'drawMode': (3, 0, {}), 'display': (3, 2, {})}, {'color': (0, None, {}), 'atoms': [], 'label': (0, None, {}), 'halfbond': (0, None, {}), 'labelColor': (0, None, {}), 'labelOffset': (0, None, {}), 'drawMode': (0, None, {}), 'display': (0, None, {})}, {'color': (760, 13, {}), 'atoms': [[1616, 8026], [1616, 8099], [1616, 8172], [1616, 8245], [1616, 8318], [1616, 8391], [1616, 8464], [1616, 8537], [2029, 8610], [2029, 8683], [2029, 8756], [2029, 8829], [2029, 8902], [2029, 8975], [2029, 9048], [2029, 9121], [2029, 10581], [2233, 20801], [2233, 20874], [2233, 20947], [2233, 21020], [2233, 21093], [2233, 21166], [2233, 21239], [2233, 21312], [3171, 14231], [3171, 14304], [3171, 14377], [3171, 14450], [3171, 14523], [3171, 14596], [3171, 14669], [3171, 14742], [3429, 5471], [3429, 5544], [3429, 5617], [3991, 7147], [3991, 7220], [3991, 7293], [3991, 7366], [3991, 7439], [3991, 7512], [3991, 7585], [3991, 7658], [3991, 7731], [3991, 7804], [3991, 7877], [3991, 7950], [3991, 11895], [3991, 11968], [3991, 12041], [3991, 12114], [3991, 12187], [3991, 12260], [3991, 12333], [3991, 12406], [4094, 15983], [4094, 16056], [4094, 16129], [4094, 16202], [4094, 16275], [4094, 16348], [4094, 16421], [4094, 16494], [4094, 16786], [4094, 16859], [4094, 16932], [4208, 20214], [4208, 20287], [4208, 20360], [4208, 20433], [4208, 20506], [4208, 20579], [4208, 20652], [4208, 20725], [4465, 10654], [6892, 4004], [6965, 4004], [7038, 4004], [7111, 4004], [7768, 3943], [7841, 3943],
[7914, 3943], [7987, 3943], [9228, 2260], [9228, 2387], [9301, 2260], [9301, 2387], [9374, 2260], [9374, 2387], [9447, 2260], [9447, 2387], [9520, 2260], [9520, 2387], [9593, 2260], [9593, 2387], [9666, 2260], [9666, 2387], [9739, 2260], [9739, 2387], [10761, 4491], [10834, 4491], [10907, 4491], [10980, 4491], [11053, 4491], [11126, 4491], [11199, 4491], [11272, 4491], [11345, 4491], [11418, 4491], [11491, 4491], [11564, 4491], [11929, 4463], [11929, 4475], [12002, 4463], [12002, 4475], [12075, 4463], [12075, 4475], [12148, 4463], [12148, 4475], [12221, 4463], [12221, 4475], [12294, 4463], [12294, 4475], [12367, 4463], [12367, 4475], [12440, 4463], [12440, 4475], [12513, 4475], [12586, 4475], [12659, 4475], [12732, 4475], [13681, 3449], [13681, 3513], [13754, 3449], [13754, 3513], [13827, 3513], [13900, 3513], [13973, 3513], [14046, 3513], [14119, 3513], [14192, 3513], [14849, 1481], [14922, 1481], [14995, 1481], [15068, 1481], [15141, 1481], [15214, 1481], [16601, 4004], [16674, 4004], [16747, 4004], [16820, 4004], [16893, 4004], [16966, 4004], [17039, 4004], [17112, 4004], [18937, 4081], [18937, 4085], [19010, 4081], [19010, 4085], [19083, 4081], [19083, 4085], [19156, 4081],
[19156, 4085], [19229, 4081], [19229, 4085], [20251, 4164], [20324, 4164], [20397, 4164], [20470, 4164], [20543, 4144], [20616, 4144], [20689, 4144], [20762, 4144], [22587, 4081], [22587, 4085], [22660, 4081], [22660, 4085], [22733, 4081], [22733, 4085], [22806, 4081], [22806, 4085], [22879, 4081], [22879, 4085], [22952, 4081], [22952, 4085], [23025, 4081], [23025, 4085], [23098, 4081], [23098, 4085], [23494, 8026], [23494, 8099], [23494, 8172], [23494, 8245], [23494, 8318], [23494, 8391], [23494, 8464], [23494, 8537], [23907, 8610], [23907, 8683], [23907, 8756], [23907, 8829], [23907, 8902], [23907, 8975], [23907, 9048], [23907, 9121], [23907, 10581], [24111, 20801], [24111, 20874], [24111, 20947], [24111, 21020], [24111, 21093], [24111, 21166], [24111, 21239], [24111, 21312], [25049, 14231], [25049, 26473], [25049, 14377], [25049, 14450], [25049, 14523], [25049, 14596], [25049, 14669], [25049, 14742], [25307, 5471], [25307, 5544], [25307, 5617], [25869, 7147], [25869, 7220], [25869, 7293], [25869, 7366], [25869, 7439], [25869, 7512], [25869, 7585], [25869, 7658], [25869, 7731], [25869, 7804], [25869, 7877], [25869, 7950], [25869, 11895], [25869, 11968], [25869, 12041],
[25869, 12114], [25869, 12187], [25869, 12260], [25869, 12333], [25869, 12406], [25972, 15983], [25972, 16056], [25972, 16129], [25972, 16202], [25972, 16275], [25972, 16348], [25972, 16421], [25972, 16494], [25972, 16786], [25972, 16859], [25972, 16932], [26086, 20214], [26086, 20287], [26086, 20360], [26086, 20433], [26086, 20506], [26086, 20579], [26086, 20652], [26086, 20725], [26343, 26400], [6892, 25882], [6965, 25882], [7038, 25882], [7111, 25882], [7768, 25821], [7841, 25821], [7914, 25821], [7987, 25821], [9228, 24138], [9228, 24265], [9301, 24138], [9301, 24265], [9374, 24138], [9374, 24265], [9447, 24138], [9447, 24265], [9520, 24138], [9520, 24265], [9593, 24138], [9593, 24265], [9666, 24138], [9666, 24265], [9739, 24138], [9739, 24265], [10761, 26369], [10834, 26369], [10907, 26369], [10980, 26369], [11053, 26369], [11126, 26369], [11199, 26369], [11272, 26369], [11345, 26369], [11418, 26369], [11491, 26369], [11564, 26369], [11929, 26341], [11929, 26353], [12002, 26341], [12002, 26353], [12075, 26341], [12075, 26353], [12148, 26341], [12148, 26353], [12221, 26341], [12221, 26353], [12294, 26341], [12294, 26353], [12367, 26341], [12367, 26353],
[12440, 26341], [12440, 26353], [12513, 26353], [12586, 26353], [12659, 26353], [12732, 26353], [13681, 25327], [13681, 25391], [13754, 25327], [13754, 25391], [13827, 25391], [13900, 25391], [13973, 25391], [14046, 25391], [14119, 25391], [14192, 25391], [14849, 23359], [14922, 23359], [14995, 23359], [15068, 23359], [15141, 23359], [15214, 23359], [16601, 25882], [16674, 25882], [16747, 25882], [16820, 25882], [16893, 25882], [16966, 25882], [17039, 25882], [17112, 25882], [18937, 25959], [18937, 25963], [19010, 25959], [19010, 25963], [19083, 25959], [19083, 25963], [19156, 25959], [19156, 25963], [19229, 25959], [19229, 25963], [20251, 26042], [20324, 26042], [20397, 26042], [20470, 26042], [20543, 26022], [20616, 26022], [20689, 26022], [20762, 26022], [22587, 25959], [22587, 25963], [22660, 25959], [22660, 25963], [22733, 25959], [22733, 25963], [22806, 25959], [22806, 25963], [22879, 25959], [22879, 25963], [22952, 25959], [22952, 25963], [23025, 25959], [23025, 25963], [23098, 25959], [23098, 25963], [26830, 8026], [26830, 8099], [26830, 8172], [26830, 8245], [26830, 8318], [26830, 8391], [26830, 8464], [26830, 8537], [27243, 8610], [27243, 8683],
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chimera.Vector(-1e+99, 0.0, 0.0): [634], chimera.Vector(-1e+99, 0.0, 0.0): [190], chimera.Vector(-1e+99, 0.0, 0.0): [543], chimera.Vector(-1e+99, 0.0, 0.0): [436], chimera.Vector(-1e+99, 0.0, 0.0): [396], chimera.Vector(-1e+99, 0.0, 0.0): [571], chimera.Vector(-1e+99, 0.0, 0.0): [757], chimera.Vector(-1e+99, 0.0, 0.0): [191], chimera.Vector(-1e+99, 0.0, 0.0): [657], chimera.Vector(-1e+99, 0.0, 0.0): [437], chimera.Vector(-1e+99, 0.0, 0.0): [180], chimera.Vector(-1e+99, 0.0, 0.0): [615], chimera.Vector(-1e+99, 0.0, 0.0): [686], chimera.Vector(-1e+99, 0.0, 0.0): [72], chimera.Vector(-1e+99, 0.0, 0.0): [363], chimera.Vector(-1e+99, 0.0, 0.0): [438], chimera.Vector(-1e+99, 0.0, 0.0): [654], chimera.Vector(-1e+99, 0.0, 0.0): [455], chimera.Vector(-1e+99, 0.0, 0.0): [416], chimera.Vector(-1e+99, 0.0, 0.0): [439], chimera.Vector(-1e+99, 0.0, 0.0): [733], chimera.Vector(-1e+99, 0.0, 0.0): [697], chimera.Vector(-1e+99, 0.0, 0.0): [667], chimera.Vector(-1e+99, 0.0, 0.0): [384], chimera.Vector(-1e+99, 0.0, 0.0): [738], chimera.Vector(-1e+99, 0.0, 0.0): [120], chimera.Vector(-1e+99, 0.0, 0.0): [344],
chimera.Vector(-1e+99, 0.0, 0.0): [635], chimera.Vector(-1e+99, 0.0, 0.0): [60], chimera.Vector(-1e+99, 0.0, 0.0): [706], chimera.Vector(-1e+99, 0.0, 0.0): [604], chimera.Vector(-1e+99, 0.0, 0.0): [596], chimera.Vector(-1e+99, 0.0, 0.0): [98], chimera.Vector(-1e+99, 0.0, 0.0): [397], chimera.Vector(-1e+99, 0.0, 0.0): [441], chimera.Vector(-1e+99, 0.0, 0.0): [652], chimera.Vector(-1e+99, 0.0, 0.0): [544], chimera.Vector(-1e+99, 0.0, 0.0): [687], chimera.Vector(-1e+99, 0.0, 0.0): [442], chimera.Vector(-1e+99, 0.0, 0.0): [758], chimera.Vector(-1e+99, 0.0, 0.0): [364], chimera.Vector(-1e+99, 0.0, 0.0): [655], chimera.Vector(-1e+99, 0.0, 0.0): [726], chimera.Vector(-1e+99, 0.0, 0.0): [443], chimera.Vector(-1e+99, 0.0, 0.0): [616], chimera.Vector(-1e+99, 0.0, 0.0): [417], chimera.Vector(-1e+99, 0.0, 0.0): [572], chimera.Vector(-1e+99, 0.0, 0.0): [385], chimera.Vector(-1e+99, 0.0, 0.0): [739], chimera.Vector(-1e+99, 0.0, 0.0): [82], chimera.Vector(-1e+99, 0.0, 0.0): [444], chimera.Vector(-1e+99, 0.0, 0.0): [540], chimera.Vector(-1e+99, 0.0, 0.0): [707], chimera.Vector(-1e+99, 0.0, 0.0): [662],
chimera.Vector(-1e+99, 0.0, 0.0): [401], chimera.Vector(-1e+99, 0.0, 0.0): [0], chimera.Vector(-1e+99, 0.0, 0.0): [445], chimera.Vector(-1e+99, 0.0, 0.0): [668], chimera.Vector(-1e+99, 0.0, 0.0): [345], chimera.Vector(-1e+99, 0.0, 0.0): [636], chimera.Vector(-1e+99, 0.0, 0.0): [545], chimera.Vector(-1e+99, 0.0, 0.0): [138], chimera.Vector(-1e+99, 0.0, 0.0): [446], chimera.Vector(-1e+99, 0.0, 0.0): [398], chimera.Vector(-1e+99, 0.0, 0.0): [759], chimera.Vector(-1e+99, 0.0, 0.0): [447], chimera.Vector(-1e+99, 0.0, 0.0): [727], chimera.Vector(-1e+99, 0.0, 0.0): [617], chimera.Vector(-1e+99, 0.0, 0.0): [688], chimera.Vector(-1e+99, 0.0, 0.0): [294], chimera.Vector(-1e+99, 0.0, 0.0): [365], chimera.Vector(-1e+99, 0.0, 0.0): [448], chimera.Vector(-1e+99, 0.0, 0.0): [599], chimera.Vector(-1e+99, 0.0, 0.0): [457], chimera.Vector(-1e+99, 0.0, 0.0): [565], chimera.Vector(-1e+99, 0.0, 0.0): [418], chimera.Vector(-1e+99, 0.0, 0.0): [449], chimera.Vector(-1e+99, 0.0, 0.0): [669], chimera.Vector(-1e+99, 0.0, 0.0): [386], chimera.Vector(-1e+99, 0.0, 0.0): [740], chimera.Vector(-1e+99, 0.0, 0.0): [548],
chimera.Vector(-1e+99, 0.0, 0.0): [473], chimera.Vector(-1e+99, 0.0, 0.0): [346], chimera.Vector(-1e+99, 0.0, 0.0): [637], chimera.Vector(-1e+99, 0.0, 0.0): [61], chimera.Vector(-1e+99, 0.0, 0.0): [708], chimera.Vector(-1e+99, 0.0, 0.0): [570], chimera.Vector(-1e+99, 0.0, 0.0): [598], chimera.Vector(-1e+99, 0.0, 0.0): [399], chimera.Vector(-1e+99, 0.0, 0.0): [451], chimera.Vector(-1e+99, 0.0, 0.0): [546], chimera.Vector(-1e+99, 0.0, 0.0): [689], chimera.Vector(-1e+99, 0.0, 0.0): [49], chimera.Vector(-1e+99, 0.0, 0.0): [452], chimera.Vector(-1e+99, 0.0, 0.0): [366], chimera.Vector(-1e+99, 0.0, 0.0): [638], chimera.Vector(-1e+99, 0.0, 0.0): [413], chimera.Vector(-1e+99, 0.0, 0.0): [728], chimera.Vector(-1e+99, 0.0, 0.0): [330], chimera.Vector(-1e+99, 0.0, 0.0): [618], chimera.Vector(-1e+99, 0.0, 0.0): [419], chimera.Vector(-1e+99, 0.0, 0.0): [656], chimera.Vector(-1e+99, 0.0, 0.0): [192], chimera.Vector(-1e+99, 0.0, 0.0): [741], chimera.Vector(-1e+99, 0.0, 0.0): [137], chimera.Vector(-1e+99, 0.0, 0.0): [52], chimera.Vector(-1e+99, 0.0, 0.0): [271], chimera.Vector(-1e+99, 0.0, 0.0): [272],
chimera.Vector(-1e+99, 0.0, 0.0): [709], chimera.Vector(-1e+99, 0.0, 0.0): [721], chimera.Vector(-1e+99, 0.0, 0.0): [273], chimera.Vector(-1e+99, 0.0, 0.0): [274], chimera.Vector(-1e+99, 0.0, 0.0): [478], chimera.Vector(-1e+99, 0.0, 0.0): [275], chimera.Vector(-1e+99, 0.0, 0.0): [670], chimera.Vector(-1e+99, 0.0, 0.0): [276], chimera.Vector(-1e+99, 0.0, 0.0): [277], chimera.Vector(-1e+99, 0.0, 0.0): [278], chimera.Vector(-1e+99, 0.0, 0.0): [347], chimera.Vector(-1e+99, 0.0, 0.0): [279], chimera.Vector(-1e+99, 0.0, 0.0): [280], chimera.Vector(-1e+99, 0.0, 0.0): [547], chimera.Vector(-1e+99, 0.0, 0.0): [281], chimera.Vector(-1e+99, 0.0, 0.0): [282], chimera.Vector(-1e+99, 0.0, 0.0): [283], chimera.Vector(-1e+99, 0.0, 0.0): [400], chimera.Vector(-1e+99, 0.0, 0.0): [284], chimera.Vector(-1e+99, 0.0, 0.0): [285], chimera.Vector(-1e+99, 0.0, 0.0): [286], chimera.Vector(-1e+99, 0.0, 0.0): [287], chimera.Vector(-1e+99, 0.0, 0.0): [729], chimera.Vector(-1e+99, 0.0, 0.0): [288], chimera.Vector(-1e+99, 0.0, 0.0): [289], chimera.Vector(-1e+99, 0.0, 0.0): [619], chimera.Vector(-1e+99, 0.0, 0.0): [290],
chimera.Vector(-1e+99, 0.0, 0.0): [291], chimera.Vector(-1e+99, 0.0, 0.0): [292], chimera.Vector(-1e+99, 0.0, 0.0): [421], chimera.Vector(-1e+99, 0.0, 0.0): [293], chimera.Vector(-1e+99, 0.0, 0.0): [367], chimera.Vector(-1e+99, 0.0, 0.0): [51], chimera.Vector(-1e+99, 0.0, 0.0): [658], chimera.Vector(-1e+99, 0.0, 0.0): [295], chimera.Vector(-1e+99, 0.0, 0.0): [459], chimera.Vector(-1e+99, 0.0, 0.0): [296], chimera.Vector(-1e+99, 0.0, 0.0): [297], chimera.Vector(-1e+99, 0.0, 0.0): [609], chimera.Vector(-1e+99, 0.0, 0.0): [298], chimera.Vector(-1e+99, 0.0, 0.0): [420], chimera.Vector(-1e+99, 0.0, 0.0): [299], chimera.Vector(-1e+99, 0.0, 0.0): [300], chimera.Vector(-1e+99, 0.0, 0.0): [301], chimera.Vector(-1e+99, 0.0, 0.0): [671], chimera.Vector(-1e+99, 0.0, 0.0): [302], chimera.Vector(-1e+99, 0.0, 0.0): [388], chimera.Vector(-1e+99, 0.0, 0.0): [303], chimera.Vector(-1e+99, 0.0, 0.0): [464], chimera.Vector(-1e+99, 0.0, 0.0): [483], chimera.Vector(-1e+99, 0.0, 0.0): [304], chimera.Vector(-1e+99, 0.0, 0.0): [639], chimera.Vector(-1e+99, 0.0, 0.0): [305], chimera.Vector(-1e+99, 0.0, 0.0): [306],
chimera.Vector(-1e+99, 0.0, 0.0): [710], chimera.Vector(-1e+99, 0.0, 0.0): [307], chimera.Vector(-1e+99, 0.0, 0.0): [425], chimera.Vector(-1e+99, 0.0, 0.0): [308], chimera.Vector(-1e+99, 0.0, 0.0): [600], chimera.Vector(-1e+99, 0.0, 0.0): [389], chimera.Vector(-1e+99, 0.0, 0.0): [309], chimera.Vector(-1e+99, 0.0, 0.0): [310], chimera.Vector(-1e+99, 0.0, 0.0): [311], chimera.Vector(-1e+99, 0.0, 0.0): [312], chimera.Vector(-1e+99, 0.0, 0.0): [313], chimera.Vector(-1e+99, 0.0, 0.0): [314], chimera.Vector(-1e+99, 0.0, 0.0): [440], chimera.Vector(-1e+99, 0.0, 0.0): [315], chimera.Vector(-1e+99, 0.0, 0.0): [533], chimera.Vector(-1e+99, 0.0, 0.0): [316], chimera.Vector(-1e+99, 0.0, 0.0): [691], chimera.Vector(-1e+99, 0.0, 0.0): [317], chimera.Vector(-1e+99, 0.0, 0.0): [318], chimera.Vector(-1e+99, 0.0, 0.0): [460], chimera.Vector(-1e+99, 0.0, 0.0): [319], chimera.Vector(-1e+99, 0.0, 0.0): [368], chimera.Vector(-1e+99, 0.0, 0.0): [320], chimera.Vector(-1e+99, 0.0, 0.0): [568], chimera.Vector(-1e+99, 0.0, 0.0): [321], chimera.Vector(-1e+99, 0.0, 0.0): [322], chimera.Vector(-1e+99, 0.0, 0.0): [429],
chimera.Vector(-1e+99, 0.0, 0.0): [323], chimera.Vector(-1e+99, 0.0, 0.0): [620], chimera.Vector(-1e+99, 0.0, 0.0): [324], chimera.Vector(-1e+99, 0.0, 0.0): [226], chimera.Vector(-1e+99, 0.0, 0.0): [325], chimera.Vector(-1e+99, 0.0, 0.0): [326], chimera.Vector(-1e+99, 0.0, 0.0): [327], chimera.Vector(-1e+99, 0.0, 0.0): [328], chimera.Vector(-1e+99, 0.0, 0.0): [194], chimera.Vector(-1e+99, 0.0, 0.0): [743], chimera.Vector(-1e+99, 0.0, 0.0): [329], chimera.Vector(-1e+99, 0.0, 0.0): [341], chimera.Vector(-1e+99, 0.0, 0.0): [537], chimera.Vector(-1e+99, 0.0, 0.0): [331], chimera.Vector(-1e+99, 0.0, 0.0): [332], chimera.Vector(-1e+99, 0.0, 0.0): [711], chimera.Vector(-1e+99, 0.0, 0.0): [333], chimera.Vector(-1e+99, 0.0, 0.0): [334], chimera.Vector(-1e+99, 0.0, 0.0): [335], chimera.Vector(-1e+99, 0.0, 0.0): [672], chimera.Vector(-1e+99, 0.0, 0.0): [336], chimera.Vector(-1e+99, 0.0, 0.0): [193], chimera.Vector(-1e+99, 0.0, 0.0): [338], chimera.Vector(-1e+99, 0.0, 0.0): [349], chimera.Vector(-1e+99, 0.0, 0.0): [339], chimera.Vector(-1e+99, 0.0, 0.0): [340], chimera.Vector(-1e+99, 0.0, 0.0): [54],
chimera.Vector(-1e+99, 0.0, 0.0): [541], chimera.Vector(-1e+99, 0.0, 0.0): [197], chimera.Vector(-1e+99, 0.0, 0.0): [198]}), 'drawMode': (760, 0, {}), 'display': (760, 2, {})}], 'lineType': (6, 2, {1: [5]}), 'color': (6, 11, {0: [5], 12: [4]}), 'optional': {'fixedLabels': (True, False, (6, None, {False: [4]}))}, 'display': (6, False, {True: [0, 4, 5]}), 'showStubBonds': (6, False, {}), 'lineWidth': (6, 2, {1: [4], 4: [5]}), 'stickScale': (6, 1, {}), 'id': [2, 3, 4, 0, -2, -1]}
	modelAssociations = {0: [67013], 257: [67010], 258: [67011], 259: [67012]}
	colorInfo = (15, (u'H', (1, 1, 1, 1)), {(u'green', (0, 1, 0, 1)): [3], (u'medium purple', (0.576471, 0.439216, 0.858824, 1)): [11], (u'N', (0.188235, 0.313725, 0.972549, 1)): [7], (u'magenta', (1, 0, 1, 1)): [4], (u'', (0, 0.8, 0.9, 1)): [13], (u'S', (1, 1, 0.188235, 1)): [10], (u'O', (1, 0.0509804, 0.0509804, 1)): [5], (u'sky blue', (0.529412, 0.807843, 0.921569, 1)): [1], (u'tan', (0.823529, 0.705882, 0.54902, 1)): [2], (u'yellow', (1, 1, 0, 1)): [12], (u'Ca', (0.239216, 1, 0, 1)): [8], (u'white', (1, 1, 1, 1)): [14], (u'C', (0.564706, 0.564706, 0.564706, 1)): [9], (u'gray', (0.745, 0.745, 0.745, 1)): [0]})
	viewerInfo = {'cameraAttrs': {'center': (70.0265, -0.28549998569489, 16.627999976158), 'fieldOfView': 32.485758205395, 'nearFar': (52.418645311367, -19.162645359051), 'ortho': False, 'eyeSeparation': 50.8, 'focal': 16.809499976158}, 'viewerAttrs': {'silhouetteColor': None, 'clipping': False, 'showSilhouette': False, 'showShadows': False, 'viewSize': 48.061708201894, 'labelsOnTop': True, 'depthCueRange': (0.5, 1), 'silhouetteWidth': 2, 'singleLayerTransparency': True, 'shadowTextureSize': 2048, 'backgroundImage': [None, 1, 2, 1, 0, 0], 'backgroundGradient': [('Chimera default', [(1, 1, 1, 1), (0, 0, 1, 1)], 1), 1, 0, 0], 'depthCue': True, 'highlight': 0, 'scaleFactor': 1.3833723239111, 'angleDependentTransparency': True, 'backgroundMethod': 0}, 'viewerHL': 3, 'cameraMode': 'mono', 'detail': 1.5, 'viewerFog': None, 'viewerBG': 14}

	replyobj.status("Initializing session restore...", blankAfter=0,
		secondary=True)
	from SimpleSession.versions.v65 import expandSummary
	init(dict(enumerate(expandSummary(colorInfo))))
	replyobj.status("Restoring colors...", blankAfter=0,
		secondary=True)
	restoreColors(colors, materials)
	replyobj.status("Restoring molecules...", blankAfter=0,
		secondary=True)
	restoreMolecules(molInfo, resInfo, atomInfo, bondInfo, crdInfo)
	replyobj.status("Restoring surfaces...", blankAfter=0,
		secondary=True)
	restoreSurfaces(surfInfo)
	replyobj.status("Restoring VRML models...", blankAfter=0,
		secondary=True)
	restoreVRML(vrmlInfo)
	replyobj.status("Restoring pseudobond groups...", blankAfter=0,
		secondary=True)
	restorePseudoBondGroups(pbInfo)
	replyobj.status("Restoring model associations...", blankAfter=0,
		secondary=True)
	restoreModelAssociations(modelAssociations)
	replyobj.status("Restoring camera...", blankAfter=0,
		secondary=True)
	restoreViewer(viewerInfo)

try:
	restoreCoreModels()
except:
	reportRestoreError("Error restoring core models")

	replyobj.status("Restoring extension info...", blankAfter=0,
		secondary=True)


try:
	import StructMeasure
	from StructMeasure.DistMonitor import restoreDistances
	registerAfterModelsCB(restoreDistances, 1)
except:
	reportRestoreError("Error restoring distances in session")


def restoreMidasBase():
	formattedPositions = {'session-start': (1.3938580413762, 48.061708201894, (70.0265, -0.28549998569489, 16.627999976158), (52.418645311367, -19.162645359051), 16.809499976158, {(1, 34): ((54.164517975424, -69.862941452954, 25.555349958756), (0.033935495878002125, 0.366433319712301, 0.9298252547248524, 82.642921573377)), (1, 149): ((54.164517975424, -69.862941452954, 25.555349958756), (0.033935495878002125, 0.366433319712301, 0.9298252547248524, 82.642921573377)), (1, 108): ((54.164517975424, -69.862941452954, 25.555349958756), (0.033935495878002125, 0.366433319712301, 0.9298252547248524, 82.642921573377)), (1, 215): ((54.164517975424, -69.862941452954, 25.555349958756), (0.033935495878002125, 0.366433319712301, 0.9298252547248524, 82.642921573377)), (1, 154): ((54.164517975424, -69.862941452954, 25.555349958756), (0.033935495878002125, 0.366433319712301, 0.9298252547248524, 82.642921573377)), (1, 17): ((54.164517975424, -69.862941452954, 25.555349958756), (0.033935495878002125, 0.366433319712301, 0.9298252547248524, 82.642921573377)), (1, 196): ((54.164517975424, -69.862941452954, 25.555349958756), (0.033935495878002125, 0.366433319712301, 0.9298252547248524, 82.642921573377)), (1, 143): ((54.164517975424, -69.862941452954, 25.555349958756), (0.033935495878002125, 0.366433319712301, 0.9298252547248524, 82.642921573377)), (1, 83): ((54.164517975424, -69.862941452954, 25.555349958756), (0.033935495878002125, 0.366433319712301, 0.9298252547248524, 82.642921573377)), (1, 6): ((54.164517975424, -69.862941452954, 25.555349958756), (0.033935495878002125, 0.366433319712301, 0.9298252547248524, 82.642921573377)), (1, 201): ((54.164517975424, -69.862941452954, 25.555349958756), (0.033935495878002125, 0.366433319712301, 0.9298252547248524, 82.642921573377)), (1, 188): ((54.164517975424, -69.862941452954, 25.555349958756), (0.033935495878002125, 0.366433319712301, 0.9298252547248524, 82.642921573377)), (1, 64): ((54.164517975424, -69.862941452954, 25.555349958756), 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'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 73, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 162, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 84, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 173, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 40, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 218, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 11, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 101, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 190, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 143, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 185, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 196, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 118, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 71, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 113, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 187, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 213, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 208, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 2, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 83, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 180, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 230, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 183, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 225, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 108, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 30, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 111, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 242, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 195, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 253, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 120, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 142, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 223, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 9, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 20, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 70, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 232, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 154, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 203, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 37, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 82, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 132, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 54, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 7, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 49, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 149, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 144, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 194, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 19, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 77, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 166, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 72, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 161, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 44, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 222, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 47, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 256, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 89, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 178, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 131, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 189, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 56, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 106, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 91, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 117, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 159, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 201, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 212, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 6, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 87, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 168, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 139, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 229, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 96, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 18, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 99, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 246, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 199, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 241, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 124, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 127, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 130, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 211, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 13, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 8, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 236, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 158, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 239, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 25, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 86, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 248, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 42, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 27, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 53, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 137, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 148, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 198, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 23, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 65, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 76, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 165, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 32, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 210, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 35, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 93, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 182, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 135, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 88, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 177, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 60, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 110, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 63, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 105, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 147, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 205, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 200, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 122, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 172, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 175, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 217, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 100, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 22, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 103, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 184, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 234, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 219, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 245, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 112, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 115, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 134, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 215, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 1, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 12, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 224, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 146, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 227, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 29, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 24, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 74, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 252, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 46, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 255, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0), (1, 41, 'Molecule'): (False, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, False, 5.0)}, 4, (69.95300000953614, -0.2854999856945284, 16.627999976157966), False, 32.485758205395)}
	import Midas
	Midas.restoreMidasBase(formattedPositions)
try:
	restoreMidasBase()
except:
	reportRestoreError('Error restoring Midas base state')


def restoreMidasText():
	from Midas import midas_text
	midas_text.aliases = {}
	midas_text.userSurfCategories = {}

try:
	restoreMidasText()
except:
	reportRestoreError('Error restoring Midas text state')


def restore_cap_attributes():
 cap_attributes = \
  {
   'cap_attributes': [ ],
   'cap_color': None,
   'cap_offset': 0.01,
   'class': 'Caps_State',
   'default_cap_offset': 0.01,
   'mesh_style': False,
   'shown': True,
   'subdivision_factor': 1.0,
   'version': 1,
  }
 import SurfaceCap.session
 SurfaceCap.session.restore_cap_attributes(cap_attributes)
registerAfterModelsCB(restore_cap_attributes)


def restore_volume_data():
 volume_data_state = \
  {
   'class': 'Volume_Manager_State',
   'data_and_regions_state': [ ],
   'version': 2,
  }
 from VolumeViewer import session
 session.restore_volume_data_state(volume_data_state)

try:
  restore_volume_data()
except:
  reportRestoreError('Error restoring volume data')

geomData = {'AxisManager': {}, 'CentroidManager': {}, 'PlaneManager': {}}

try:
	from StructMeasure.Geometry import geomManager
	geomManager._restoreSession(geomData)
except:
	reportRestoreError("Error restoring geometry objects in session")


def restoreSession_RibbonStyleEditor():
	import SimpleSession
	import RibbonStyleEditor
	userScalings = []
	userXSections = []
	userResidueClasses = []
	residueData = [(260, 'Chimera default', 'rounded', u'amino acid'), (261, 'Chimera default', 'rounded', u'amino acid'), (262, 'Chimera default', 'rounded', u'amino acid'), (263, 'Chimera default', 'rounded', u'amino acid'), (264, 'Chimera default', 'rounded', u'amino acid'), (265, 'Chimera default', 'rounded', u'amino acid'), (266, 'Chimera default', 'rounded', u'amino acid'), (267, 'Chimera default', 'rounded', u'amino acid'), (268, 'Chimera default', 'rounded', u'amino acid'), (269, 'Chimera default', 'rounded', u'amino acid'), (270, 'Chimera default', 'rounded', u'amino acid'), (271, 'Chimera default', 'rounded', u'amino acid'), (272, 'Chimera default', 'rounded', u'amino acid'), (273, 'Chimera default', 'rounded', u'amino acid'), (274, 'Chimera default', 'rounded', u'amino acid'), (275, 'Chimera default', 'rounded', u'amino acid'), (276, 'Chimera default', 'rounded', u'amino acid'), (277, 'Chimera default', 'rounded', u'amino acid'), (278, 'Chimera default', 'rounded', u'amino acid'), (279, 'Chimera default', 'rounded', u'amino acid'), (280, 'Chimera default', 'rounded', u'amino acid'),
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	flags = RibbonStyleEditor.NucleicDefault1
	SimpleSession.registerAfterModelsCB(RibbonStyleEditor.restoreState,
				(userScalings, userXSections,
				userResidueClasses, residueData, flags))
try:
	restoreSession_RibbonStyleEditor()
except:
	reportRestoreError("Error restoring RibbonStyleEditor state")

trPickle = 'gAJjQW5pbWF0ZS5UcmFuc2l0aW9ucwpUcmFuc2l0aW9ucwpxASmBcQJ9cQMoVQxjdXN0b21fc2NlbmVxBGNBbmltYXRlLlRyYW5zaXRpb24KVHJhbnNpdGlvbgpxBSmBcQZ9cQcoVQZmcmFtZXNxCEsBVQ1kaXNjcmV0ZUZyYW1lcQlLAVUKcHJvcGVydGllc3EKXXELVQNhbGxxDGFVBG5hbWVxDVUMY3VzdG9tX3NjZW5lcQ5VBG1vZGVxD1UGbGluZWFycRB1YlUIa2V5ZnJhbWVxEWgFKYFxEn1xEyhoCEsUaAlLAWgKXXEUaAxhaA1VCGtleWZyYW1lcRVoD2gQdWJVBXNjZW5lcRZoBSmBcRd9cRgoaAhLAWgJSwFoCl1xGWgMYWgNVQVzY2VuZXEaaA9oEHVidWIu'
scPickle = 'gAJjQW5pbWF0ZS5TY2VuZXMKU2NlbmVzCnEBKYFxAn1xA1UHbWFwX2lkc3EEfXNiLg=='
kfPickle = 'gAJjQW5pbWF0ZS5LZXlmcmFtZXMKS2V5ZnJhbWVzCnEBKYFxAn1xA1UHZW50cmllc3EEXXEFc2Iu'
def restoreAnimation():
	'A method to unpickle and restore animation objects'
	# Scenes must be unpickled after restoring transitions, because each
	# scene links to a 'scene' transition. Likewise, keyframes must be 
	# unpickled after restoring scenes, because each keyframe links to a scene.
	# The unpickle process is left to the restore* functions, it's 
	# important that it doesn't happen prior to calling those functions.
	import SimpleSession
	from Animate.Session import restoreTransitions
	from Animate.Session import restoreScenes
	from Animate.Session import restoreKeyframes
	SimpleSession.registerAfterModelsCB(restoreTransitions, trPickle)
	SimpleSession.registerAfterModelsCB(restoreScenes, scPickle)
	SimpleSession.registerAfterModelsCB(restoreKeyframes, kfPickle)
try:
	restoreAnimation()
except:
	reportRestoreError('Error in Animate.Session')

def restoreLightController():
	import Lighting
	Lighting._setFromParams({'ratio': 1.25, 'brightness': 1.16, 'material': [30.0, (0.85, 0.85, 0.85), 1.0], 'back': [(0.3574067443365933, 0.6604015517481455, -0.6604015517481456), (1.0, 1.0, 1.0), 0.0], 'mode': 'two-point', 'key': [(-0.3574067443365933, 0.6604015517481455, 0.6604015517481456), (1.0, 1.0, 1.0), 1.0], 'contrast': 0.83, 'fill': [(0.2505628070857316, 0.2505628070857316, 0.9351131265310294), (1.0, 1.0, 1.0), 0.0]})
try:
	restoreLightController()
except:
	reportRestoreError("Error restoring lighting parameters")


try:
	from ModelPanel import restoreSeqInspectors
	restoreSeqInspectors([('principal chain (248-314)', 0, [{'name': u'target.pdb (#0) principal chain (248-314)', 'sequence': ['E', 'A', 'R', 'Q', 'Q', 'R', 'F', 'A', 'X', 'F', 'T', 'E', 'L', 'A', 'I', 'V', 'S', 'V', 'Q', 'E', 'I', 'V', 'D', 'F', 'A', 'K', 'Q', 'L', 'P', 'G', 'F', 'L', 'Q', 'L', 'S', 'R', 'E', 'D', 'Q', 'I', 'A', 'L', 'L', 'K', 'T', 'S', 'A', 'I', 'E', 'V', 'M', 'L', 'L', 'E', 'T', 'S', 'R', 'R', 'Y', 'N', 'P', 'G', 'S', 'E', 'S', 'I', 'T'], 'numberingStart': 248, 'molecule': 0, 'residues': [260, 261, 262, 263, 264, 265, 266, 267, 268, 269, 270, 271, 272, 273, 274, 275, 276, 277, 278, 279, 280, 281, 282, 283, 284, 285, 286, 287, 288, 289, 290, 291, 292, 293, 294, 295, 296, 297, 298, 299, 300, 301, 302, 303, 304, 305, 306, 307, 308, 309, 310, 311, 312, 313, 314, 315, 316, 317, 318, 319, 320, 321, 322, 323, 324, 325, 326], 'fromSeqres': None, 'markups': {}, 'descriptiveName': None, 'attrs': {}, 'static': True, 'resMap': {260: 0, 261: 1, 262: 2, 263: 3, 264: 4, 265: 5, 266: 6, 267: 7, 268: 8, 269: 9, 270: 10, 271: 11, 272: 12, 273: 13, 274: 14, 275: 15, 276: 16, 277: 17, 278: 18, 279: 19, 280: 20, 281: 21, 282: 22, 283: 23, 284: 24, 285: 25, 286: 26, 287: 27, 288: 28, 289: 29, 290: 30, 291: 31, 292: 32, 293: 33, 294: 34, 295: 35, 296: 36, 297: 37, 298: 38, 299: 39, 300: 40, 301: 41, 302: 42, 303: 43, 304: 44, 305: 45, 306: 46, 307: 47, 308: 48, 309: 49, 310: 50, 311: 51, 312: 52, 313: 53, 314: 54, 315: 55, 316: 56, 317: 57, 318: 58, 319: 59, 320: 60, 321: 61, 322: 62, 323: 63, 324: 64, 325: 65, 326: 66}}],
"{'fileMarkups': {}, 'fileAttrs': {}, 'header display order': [], 'showActualSS': 1, 'ruler shown': 0, 'title': u'target.pdb (#0) principal chain (248-314)', 'regions': [{'shown': True, 'blocks': [[0, 0, 1, 1], [0, 0, 6, 7], [0, 0, 9, 10], [0, 0, 12, 15], [0, 0, 17, 17], [0, 0, 20, 21], [0, 0, 23, 25], [0, 0, 27, 27], [0, 0, 29, 31], [0, 0, 33, 33], [0, 0, 39, 44], [0, 0, 46, 47], [0, 0, 49, 52], [0, 0, 54, 54], [0, 0, 58, 58], [0, 0, 61, 61], [0, 0, 65, 66]], 'outline': None, 'source': None, 'coverGaps': False, 'fill': [0, 1, 0], 'select': False, 'name': 'Chimera selection'}, {'shown': True, 'blocks': [[0, 0, 0, 66]], 'outline': None, 'source': None, 'coverGaps': True, 'fill': [1, 1, 1], 'select': True, 'name': None}, {'shown': True, 'blocks': [], 'outline': [0.196078, 0.803922, 0.196078], 'source': None, 'coverGaps': False, 'fill': (0.8, 1, 0.8), 'select': False, 'name': 'structure strands'}, {'shown': True, 'blocks': [[0, 0, 2, 26], [0, 0, 35, 55]], 'outline': [0.854902, 0.647059, 0.12549], 'source': None, 'coverGaps': False, 'fill': (1, 1, 0.8), 'select': False, 'name': 'structure helices'}],\n'numberings': (1, 0), 'mseqs': [{'name': u'target.pdb (#0) principal chain (248-314)', 'sequence': ['E', 'A', 'R', 'Q', 'Q', 'R', 'F', 'A', 'X', 'F', 'T', 'E', 'L', 'A', 'I', 'V', 'S', 'V', 'Q', 'E', 'I', 'V', 'D', 'F', 'A', 'K', 'Q', 'L', 'P', 'G', 'F', 'L', 'Q', 'L', 'S', 'R', 'E', 'D', 'Q', 'I', 'A', 'L', 'L', 'K', 'T', 'S', 'A', 'I', 'E', 'V', 'M', 'L', 'L', 'E', 'T', 'S', 'R', 'R', 'Y', 'N', 'P', 'G', 'S', 'E', 'S', 'I', 'T'], 'numberingStart': 248, 'molecule': 0, 'residues': [260, 261, 262, 263, 264, 265, 266, 267, 268, 269, 270, 271, 272, 273, 274, 275, 276, 277, 278, 279, 280, 281, 282, 283, 284, 285, 286, 287, 288, 289, 290, 291, 292, 293, 294, 295, 296, 297, 298, 299, 300, 301, 302, 303, 304, 305, 306, 307, 308, 309, 310, 311, 312, 313, 314, 315, 316, 317, 318, 319, 320, 321, 322, 323, 324, 325, 326], 'fromSeqres': None, 'markups': {}, 'descriptiveName': None, 'attrs': {}, 'static': True, 'resMap': {260: 0, 261: 1, 262: 2, 263: 3, 264: 4, 265: 5, 266: 6, 267: 7, 268: 8, 269: 9, 270: 10, 271: 11, 272: 12, 273: 13, 274: 14, 275: 15, 276: 16, 277: 17, 278: 18, 279: 19, 280: 20, 281: 21, 282: 22, 283: 23, 284: 24, 285: 25, 286: 26, 287: 27, 288: 28, 289: 29, 290: 30, 291: 31, 292: 32, 293: 33, 294: 34, 295: 35, 296: 36, 297: 37, 298: 38, 299: 39, 300: 40, 301: 41, 302: 42, 303: 43, 304: 44, 305: 45, 306: 46, 307: 47, 308: 48, 309: 49, 310: 50, 311: 51, 312: 52, 313: 53, 314: 54, 315: 55, 316: 56, 317: 57, 318: 58, 319: 59, 320: 60, 321: 61, 322: 62, 323: 63, 324: 64, 325: 65, 326: 66}}],\n'associations': [(0, 0)], 'runModellerWS': [], 'header shown': [False, False, False, False, False, False], 'blastAnnotationServices': {}, 'showPredictedSS': 0, 'intrinsic': True, 'realignmentWS': {'new': [], 'self': []}, 'region associations': {}, 'numberingsStripped': False, 'versionedModSesData': True, 'specials': [{'class': 'ChargeSeq', 'name': 'Charge variation'}, {'class': 'CaDistanceSeq', 'name': 'RMSD: ca'}, {'class': 'BackboneDistanceSeq', 'name': 'RMSD: backbone'}, {'class': 'FullDistanceSeq', 'name': 'RMSD: full'}], 'sessionSave': False, 'autoAssociate': False}"),
('principal chain (318-445)', 0, [{'name': u'target.pdb (#0) principal chain (318-445)', 'sequence': ['D', 'F', 'S', 'Y', 'N', 'R', 'E', 'D', 'F', 'A', 'K', 'A', 'G', 'L', 'Q', 'V', 'E', 'F', 'I', 'N', 'P', 'I', 'F', 'E', 'F', 'S', 'R', 'A', 'M', 'N', 'E', 'L', 'Q', 'L', 'N', 'D', 'A', 'E', 'F', 'A', 'L', 'L', 'I', 'A', 'I', 'S', 'I', 'F', 'S', 'A', 'D', 'R', 'P', 'N', 'V', 'Q', 'D', 'Q', 'L', 'Q', 'V', 'E', 'R', 'L', 'Q', 'X', 'T', 'Y', 'V', 'E', 'A', 'L', 'X', 'A', 'Y', 'V', 'S', 'I', 'X', 'X', 'P', 'X', 'D', 'R', 'L', 'M', 'F', 'P', 'R', 'M', 'L', 'M', 'K', 'L', 'V', 'S', 'L', 'R', 'T', 'L', 'S', 'S', 'V', 'X', 'S', 'E', 'Q', 'V', 'F', 'A', 'L', 'R', 'L', 'Q', 'D', 'K', 'K', 'L', 'P', 'P', 'L', 'L', 'S', 'E', 'I', 'W', 'D', 'V'], 'numberingStart': 318, 'molecule': 0, 'residues': [327, 328, 329, 330, 331, 332, 333, 334, 335, 336, 337, 338, 339, 340, 341, 342, 343, 344, 345, 346, 347, 348, 349, 350, 351, 352, 353, 354, 355, 356, 357, 358, 359, 360, 361, 362, 363, 364, 365, 366, 367, 368, 369, 370, 371, 372, 373, 374, 375, 376, 377, 378, 379, 380, 381, 382, 383, 384, 385, 386, 387, 388, 389, 390, 391, 392, 393, 394, 395, 396, 397, 398, 399, 400, 401, 402, 403, 404, 405, 406, 407, 408, 409, 410, 411, 412, 413, 414, 415, 416, 417, 418, 419, 420, 421, 422, 423, 424, 425, 426, 427, 428, 429, 430, 431, 432, 433, 434, 435, 436, 437, 438, 439, 440, 441, 442, 443, 444, 445, 446, 447, 448, 449, 450, 451, 452, 453, 454],
'fromSeqres': None, 'markups': {}, 'descriptiveName': None, 'attrs': {}, 'static': True, 'resMap': {327: 0, 328: 1, 329: 2, 330: 3, 331: 4, 332: 5, 333: 6, 334: 7, 335: 8, 336: 9, 337: 10, 338: 11, 339: 12, 340: 13, 341: 14, 342: 15, 343: 16, 344: 17, 345: 18, 346: 19, 347: 20, 348: 21, 349: 22, 350: 23, 351: 24, 352: 25, 353: 26, 354: 27, 355: 28, 356: 29, 357: 30, 358: 31, 359: 32, 360: 33, 361: 34, 362: 35, 363: 36, 364: 37, 365: 38, 366: 39, 367: 40, 368: 41, 369: 42, 370: 43, 371: 44, 372: 45, 373: 46, 374: 47, 375: 48, 376: 49, 377: 50, 378: 51, 379: 52, 380: 53, 381: 54, 382: 55, 383: 56, 384: 57, 385: 58, 386: 59, 387: 60, 388: 61, 389: 62, 390: 63, 391: 64, 392: 65, 393: 66, 394: 67, 395: 68, 396: 69, 397: 70, 398: 71, 399: 72, 400: 73, 401: 74, 402: 75, 403: 76, 404: 77, 405: 78, 406: 79, 407: 80, 408: 81, 409: 82, 410: 83, 411: 84, 412: 85, 413: 86, 414: 87, 415: 88, 416: 89, 417: 90, 418: 91, 419: 92, 420: 93, 421: 94, 422: 95, 423: 96, 424: 97, 425: 98, 426: 99, 427: 100, 428: 101, 429: 102, 430: 103, 431: 104, 432: 105, 433: 106, 434: 107, 435: 108, 436: 109, 437: 110, 438: 111, 439: 112, 440: 113, 441: 114, 442: 115, 443: 116, 444: 117, 445: 118, 446: 119, 447: 120, 448: 121, 449: 122, 450: 123, 451: 124, 452: 125, 453: 126, 454: 127}}],
"{'fileMarkups': {}, 'fileAttrs': {}, 'header display order': [], 'showActualSS': 1, 'ruler shown': 0, 'title': u'target.pdb (#0) principal chain (318-445)', 'regions': [{'shown': True, 'blocks': [[0, 0, 1, 1], [0, 0, 3, 3], [0, 0, 8, 13], [0, 0, 15, 15], [0, 0, 17, 18], [0, 0, 21, 22], [0, 0, 24, 24], [0, 0, 27, 28], [0, 0, 31, 31], [0, 0, 33, 33], [0, 0, 36, 36], [0, 0, 38, 44], [0, 0, 46, 47], [0, 0, 49, 49], [0, 0, 54, 54], [0, 0, 58, 58], [0, 0, 60, 60], [0, 0, 63, 63], [0, 0, 66, 68], [0, 0, 70, 71], [0, 0, 73, 75], [0, 0, 77, 77], [0, 0, 84, 86], [0, 0, 89, 94], [0, 0, 96, 96], [0, 0, 98, 99], [0, 0, 102, 102], [0, 0, 107, 110], [0, 0, 112, 112], [0, 0, 115, 117], [0, 0, 120, 121], [0, 0, 124, 125], [0, 0, 127, 127]], 'outline': None, 'source': None, 'coverGaps': False, 'fill': [0, 1, 0], 'select': False, 'name': 'Chimera selection'}, {'shown': True, 'blocks': [[0, 0, 64, 64]], 'outline': None, 'source': None, 'coverGaps': True, 'fill': [1, 1, 1], 'select': False, 'name': None}, {'shown': True, 'blocks': [[0, 0, 127, 127]], 'outline': None, 'source': None, 'coverGaps': True, 'fill': [1, 1, 1], 'select': False, 'name': None}, {'shown': True, 'blocks': [], 'outline': [0.196078, 0.803922, 0.196078], 'source': None, 'coverGaps': False, 'fill': (0.8, 1, 0.8), 'select': False, 'name': 'structure strands'},\n{'shown': True, 'blocks': [[0, 0, 5, 8], [0, 0, 18, 31], [0, 0, 35, 46], [0, 0, 57, 78], [0, 0, 83, 111], [0, 0, 119, 124]], 'outline': [0.854902, 0.647059, 0.12549], 'source': None, 'coverGaps': False, 'fill': (1, 1, 0.8), 'select': False, 'name': 'structure helices'}], 'numberings': (1, 0), 'mseqs': [{'name': u'target.pdb (#0) principal chain (318-445)', 'sequence': ['D', 'F', 'S', 'Y', 'N', 'R', 'E', 'D', 'F', 'A', 'K', 'A', 'G', 'L', 'Q', 'V', 'E', 'F', 'I', 'N', 'P', 'I', 'F', 'E', 'F', 'S', 'R', 'A', 'M', 'N', 'E', 'L', 'Q', 'L', 'N', 'D', 'A', 'E', 'F', 'A', 'L', 'L', 'I', 'A', 'I', 'S', 'I', 'F', 'S', 'A', 'D', 'R', 'P', 'N', 'V', 'Q', 'D', 'Q', 'L', 'Q', 'V', 'E', 'R', 'L', 'Q', 'X', 'T', 'Y', 'V', 'E', 'A', 'L', 'X', 'A', 'Y', 'V', 'S', 'I', 'X', 'X', 'P', 'X', 'D', 'R', 'L', 'M', 'F', 'P', 'R', 'M', 'L', 'M', 'K', 'L', 'V', 'S', 'L', 'R', 'T', 'L', 'S', 'S', 'V', 'X', 'S', 'E', 'Q', 'V', 'F', 'A', 'L', 'R', 'L', 'Q', 'D', 'K', 'K', 'L', 'P', 'P', 'L', 'L', 'S', 'E', 'I', 'W', 'D', 'V'], 'numberingStart': 318, 'molecule': 0, 'residues': [327, 328, 329, 330, 331, 332, 333, 334, 335, 336, 337, 338, 339, 340, 341, 342, 343, 344, 345, 346, 347, 348, 349, 350, 351, 352, 353, 354, 355, 356, 357, 358, 359, 360, 361, 362, 363, 364, 365, 366, 367, 368, 369, 370, 371, 372, 373, 374, 375, 376, 377, 378, 379, 380, 381, 382, 383, 384, 385, 386, 387, 388, 389, 390, 391, 392, 393, 394, 395, 396, 397, 398, 399, 400, 401, 402, 403, 404, 405, 406, 407, 408, 409, 410, 411, 412, 413, 414, 415, 416, 417, 418, 419, 420, 421, 422, 423, 424, 425, 426, 427, 428, 429, 430, 431, 432, 433, 434, 435, 436, 437, 438, 439, 440, 441, 442, 443, 444, 445, 446, 447, 448, 449, 450, 451, 452, 453, 454],\n'fromSeqres': None, 'markups': {}, 'descriptiveName': None, 'attrs': {}, 'static': True, 'resMap': {327: 0, 328: 1, 329: 2, 330: 3, 331: 4, 332: 5, 333: 6, 334: 7, 335: 8, 336: 9, 337: 10, 338: 11, 339: 12, 340: 13, 341: 14, 342: 15, 343: 16, 344: 17, 345: 18, 346: 19, 347: 20, 348: 21, 349: 22, 350: 23, 351: 24, 352: 25, 353: 26, 354: 27, 355: 28, 356: 29, 357: 30, 358: 31, 359: 32, 360: 33, 361: 34, 362: 35, 363: 36, 364: 37, 365: 38, 366: 39, 367: 40, 368: 41, 369: 42, 370: 43, 371: 44, 372: 45, 373: 46, 374: 47, 375: 48, 376: 49, 377: 50, 378: 51, 379: 52, 380: 53, 381: 54, 382: 55, 383: 56, 384: 57, 385: 58, 386: 59, 387: 60, 388: 61, 389: 62, 390: 63, 391: 64, 392: 65, 393: 66, 394: 67, 395: 68, 396: 69, 397: 70, 398: 71, 399: 72, 400: 73, 401: 74, 402: 75, 403: 76, 404: 77, 405: 78, 406: 79, 407: 80, 408: 81, 409: 82, 410: 83, 411: 84, 412: 85, 413: 86, 414: 87, 415: 88, 416: 89, 417: 90, 418: 91, 419: 92, 420: 93, 421: 94, 422: 95, 423: 96, 424: 97, 425: 98, 426: 99, 427: 100, 428: 101, 429: 102, 430: 103, 431: 104, 432: 105, 433: 106, 434: 107, 435: 108, 436: 109, 437: 110, 438: 111, 439: 112, 440: 113, 441: 114, 442: 115, 443: 116, 444: 117, 445: 118, 446: 119, 447: 120, 448: 121, 449: 122, 450: 123, 451: 124, 452: 125, 453: 126, 454: 127}}],\n'associations': [(0, 0)], 'runModellerWS': [], 'header shown': [False, False, False, False, False, False], 'blastAnnotationServices': {}, 'showPredictedSS': 0, 'intrinsic': True, 'realignmentWS': {'new': [], 'self': []}, 'region associations': {}, 'numberingsStripped': False, 'versionedModSesData': True, 'specials': [{'class': 'ChargeSeq', 'name': 'Charge variation'}, {'class': 'CaDistanceSeq', 'name': 'RMSD: ca'}, {'class': 'BackboneDistanceSeq', 'name': 'RMSD: backbone'}, {'class': 'FullDistanceSeq', 'name': 'RMSD: full'}], 'sessionSave': False, 'autoAssociate': False}")])
except:
	reportRestoreError("Error restoring sequence viewers")

# restore ViewDock extension
class ViewDockData: pass
viewDockData = ViewDockData()
viewDockData.file = u'c:\\users\\matsui~1\\appdata\\local\\temp\\tmphmjrr7/clusters.dock4.pdb'
viewDockData.type = u'Dock 4, 5 or 6'
viewDockData.args = ()
viewDockData.kw = {}
viewDockData.ResultsClass = 'Results'
viewDockData.ResultsModule = 'ViewDock.Compound'
viewDockData.resultsData = ([({'deltaGligsolvpol': -4.73016, 'surfFull': 169.92, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 169.92, 'SimpleFitness': 218.796, 'InterFull': -42.6165, 'extraFull': 0.0, 'Energy': 218.796, 'solvFull': -1252.71, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 0, 'deltaGligsolvnonpol': 12.4209, 'deltaGcompsolvpol': -1252.71, 'FullFitness': -853.7145, 'deltaG': -8.262569, 'ClusterRank': 0, 'IntraFull': 271.692, 'deltaGvdw': -42.6165}, 'V', ['REMARK  Energy: 218.796\n', 'REMARK  SimpleFitness: 218.796\n', 'REMARK  FullFitness: -853.7145\n', 'REMARK  InterFull: -42.6165\n', 'REMARK  IntraFull: 271.692\n', 'REMARK  solvFull: -1252.71\n', 'REMARK  surfFull: 169.92\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.71\n', 'REMARK  deltaGcompsolvnonpol: 169.92\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.73016\n', 'REMARK  deltaGligsolvnonpol: 12.4209\n', 'REMARK  deltaGvdw: -42.6165\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.262569\n', 'REMARK  Cluster: 0\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      77.578  -2.578  12.068  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.440  -3.767  12.994  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      78.419  -1.572  12.815  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.265  -2.986  10.773  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.623  -3.492  14.234  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.813  -4.954  12.376  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      78.644  -0.284  11.994  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      77.915  -1.346  14.251  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      78.825  -1.826  10.030  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      76.419  -4.912  14.786  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      77.526  -2.593  15.039  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      75.280  -2.814  13.940  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.135  -5.680  13.515  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.980  -0.606  10.559  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      79.831   0.453  12.617  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      77.406   0.616  12.014  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      75.266  -5.198  15.765  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      79.538   0.505   9.726  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      80.316   1.631  11.801  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      75.171  -6.664  16.181  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      75.315  -4.366  17.023  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      80.712   1.169  10.417  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.366  -7.169  16.987  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      81.125   2.301   9.661  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      76.012  -8.353  17.837  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      75.986  -8.306  19.328  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.766  -8.243  18.563  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.291  -7.056  20.082  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      76.116  -9.566  20.104  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      76.607  -2.151  11.810  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.442  -4.078  13.305  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.387  -2.057  12.902  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.546  -3.497  10.128  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      79.071  -3.694  10.979  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      77.545  -5.586  11.865  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.079  -4.604  11.651  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.054  -0.676  14.257  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.706  -0.853  14.816  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.110  -1.992   8.998  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      77.367  -5.255  15.209  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      78.433  -3.142  15.306  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      77.041  -2.301  15.972  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      76.451  -6.717  13.582  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      75.060  -5.697  13.322  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      80.666  -0.243  12.740  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      79.575   0.811  13.613  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      74.321  -4.969  15.264  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      78.757   1.245   9.530  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      79.859   0.155   8.741  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      81.172   2.101  12.294  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      79.544   2.403  11.735  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      75.024  -7.314  15.314  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      74.252  -6.754  16.764  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      81.554   0.473  10.481  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.811  -6.385  17.599  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.153  -7.468  16.290  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      76.209  -9.290  17.340  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      75.880  -6.168  19.594  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      77.373  -6.929  20.178  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.863  -7.111  21.086  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      81.832   2.730  10.173  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      75.022  -3.350  16.786  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.317  -4.345  17.451  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      74.617  -4.748  17.773  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      74.654  -3.409  13.270  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      75.394  -1.831  13.482  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      74.715  -2.648  14.856  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      76.512   0.068  11.705  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      77.503   1.478  11.349  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.228   1.017  13.014  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      77.105  -9.617  20.564  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      75.983 -10.447  19.469  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      75.367  -9.599  20.900  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.1', True, 'REMARK  Energy: 218.796\nREMARK  SimpleFitness: 218.796\nREMARK  FullFitness: -853.7145\nREMARK  InterFull: -42.6165\nREMARK  IntraFull: 271.692\nREMARK  solvFull: -1252.71\nREMARK  surfFull: 169.92\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.71\nREMARK  deltaGcompsolvnonpol: 169.92\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.73016\nREMARK  deltaGligsolvnonpol: 12.4209\nREMARK  deltaGvdw: -42.6165\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.262569\nREMARK  Cluster: 0\nREMARK  ClusterRank: 0\n', 1), ({'deltaGligsolvpol': -4.73016, 'surfFull': 169.92, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 169.92, 'SimpleFitness': 218.796, 'InterFull': -42.6165, 'extraFull': 0.0, 'Energy': 218.796, 'solvFull': -1252.71, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 0, 'deltaGligsolvnonpol': 12.4209, 'deltaGcompsolvpol': -1252.71, 'FullFitness': -853.7145, 'deltaG': -8.262569, 'ClusterRank': 1, 'IntraFull': 271.692, 'deltaGvdw': -42.6165}, 'V', ['REMARK  Energy: 218.796\n', 'REMARK  SimpleFitness: 218.796\n', 'REMARK  FullFitness: -853.7145\n', 'REMARK  InterFull: -42.6165\n', 'REMARK  IntraFull: 271.692\n', 'REMARK  solvFull: -1252.71\n', 'REMARK  surfFull: 169.92\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.71\n', 'REMARK  deltaGcompsolvnonpol: 169.92\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.73016\n', 'REMARK  deltaGligsolvnonpol: 12.4209\n', 'REMARK  deltaGvdw: -42.6165\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.262569\n', 'REMARK  Cluster: 0\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      77.578  -2.578  12.068  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.440  -3.767  12.994  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      78.419  -1.572  12.815  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.265  -2.986  10.773  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.623  -3.492  14.234  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.813  -4.954  12.376  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      78.644  -0.284  11.994  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      77.915  -1.346  14.251  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      78.825  -1.826  10.030  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      76.419  -4.912  14.786  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      77.526  -2.593  15.039  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      75.280  -2.814  13.940  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.135  -5.680  13.515  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.980  -0.606  10.559  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      79.831   0.453  12.617  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      77.406   0.616  12.014  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      75.266  -5.198  15.765  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      79.538   0.505   9.726  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      80.316   1.631  11.801  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      75.171  -6.664  16.181  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      75.315  -4.366  17.023  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      80.712   1.169  10.417  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.366  -7.169  16.987  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      81.125   2.301   9.661  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      76.012  -8.353  17.837  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      75.986  -8.306  19.328  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.766  -8.243  18.563  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.291  -7.056  20.082  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      76.116  -9.566  20.104  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      76.607  -2.151  11.810  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.442  -4.078  13.305  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.387  -2.057  12.902  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.546  -3.497  10.128  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      79.071  -3.694  10.979  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      77.545  -5.586  11.865  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.079  -4.604  11.651  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.054  -0.676  14.257  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.706  -0.853  14.816  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.110  -1.992   8.998  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      77.367  -5.255  15.209  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      78.433  -3.142  15.306  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      77.041  -2.301  15.972  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      76.451  -6.717  13.582  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      75.060  -5.697  13.322  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      80.666  -0.243  12.740  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      79.575   0.811  13.613  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      74.321  -4.969  15.264  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      78.757   1.245   9.530  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      79.859   0.155   8.741  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      81.172   2.101  12.294  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      79.544   2.403  11.735  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      75.024  -7.314  15.314  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      74.252  -6.754  16.764  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      81.554   0.473  10.481  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.811  -6.385  17.599  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.153  -7.468  16.290  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      76.209  -9.290  17.340  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      75.880  -6.168  19.594  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      77.373  -6.929  20.178  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.863  -7.111  21.086  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      81.832   2.730  10.173  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      75.022  -3.350  16.786  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.317  -4.345  17.451  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      74.617  -4.748  17.773  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      74.654  -3.409  13.270  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      75.394  -1.831  13.482  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      74.715  -2.648  14.856  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      76.512   0.068  11.705  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      77.503   1.478  11.349  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.228   1.017  13.014  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      77.105  -9.617  20.564  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      75.983 -10.447  19.469  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      75.367  -9.599  20.900  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.2', True, 'REMARK  Energy: 218.796\nREMARK  SimpleFitness: 218.796\nREMARK  FullFitness: -853.7145\nREMARK  InterFull: -42.6165\nREMARK  IntraFull: 271.692\nREMARK  solvFull: -1252.71\nREMARK  surfFull: 169.92\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.71\nREMARK  deltaGcompsolvnonpol: 169.92\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.73016\nREMARK  deltaGligsolvnonpol: 12.4209\nREMARK  deltaGvdw: -42.6165\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.262569\nREMARK  Cluster: 0\nREMARK  ClusterRank: 1\n', 2), ({'deltaGligsolvpol': -4.72902, 'surfFull': 169.925, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 169.925, 'SimpleFitness': 218.755, 'InterFull': -42.6687, 'extraFull': 0.0, 'Energy': 218.755, 'solvFull': -1252.59, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 0, 'deltaGligsolvnonpol': 12.4115, 'deltaGcompsolvpol': -1252.59, 'FullFitness': -853.6967, 'deltaG': -8.258871, 'ClusterRank': 2, 'IntraFull': 271.637, 'deltaGvdw': -42.6687}, 'V', ['REMARK  Energy: 218.755\n', 'REMARK  SimpleFitness: 218.755\n', 'REMARK  FullFitness: -853.6967\n', 'REMARK  InterFull: -42.6687\n', 'REMARK  IntraFull: 271.637\n', 'REMARK  solvFull: -1252.59\n', 'REMARK  surfFull: 169.925\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.59\n', 'REMARK  deltaGcompsolvnonpol: 169.925\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.72902\n', 'REMARK  deltaGligsolvnonpol: 12.4115\n', 'REMARK  deltaGvdw: -42.6687\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.258871\n', 'REMARK  Cluster: 0\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      77.592  -2.563  12.047  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.454  -3.755  12.969  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      78.437  -1.560  12.795  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.275  -2.965  10.749  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.646  -3.483  14.216  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.818  -4.936  12.350  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      78.657  -0.268  11.978  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      77.941  -1.339  14.234  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      78.837  -1.804  10.010  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      76.439  -4.904  14.763  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      77.557  -2.590  15.018  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      75.304  -2.797  13.934  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.147  -5.666  13.490  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.994  -0.586  10.543  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      79.840   0.471  12.606  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      77.416   0.627  12.000  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      75.286  -5.185  15.745  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      79.553   0.527   9.715  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      80.325   1.651  11.792  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      75.163  -6.654  16.143  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      75.359  -4.370  17.012  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      80.726   1.191  10.409  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.343  -7.196  16.949  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      81.142   2.323   9.656  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      75.955  -8.376  17.789  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      75.935  -8.345  19.280  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.715  -8.231  18.521  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.284  -7.115  20.048  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      76.021  -9.618  20.042  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      76.621  -2.134  11.794  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.457  -4.073  13.273  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.405  -2.045  12.874  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.555  -3.473  10.103  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      79.081  -3.676  10.950  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      77.542  -5.568  11.828  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.078  -4.580  11.632  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.080  -0.670  14.246  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.734  -0.848  14.797  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.124  -1.967   8.978  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      77.386  -5.255  15.184  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      78.466  -3.141  15.276  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      77.079  -2.301  15.957  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      76.461  -6.704  13.551  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      75.070  -5.681  13.304  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      80.676  -0.223  12.732  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      79.580   0.829  13.601  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      74.343  -4.932  15.253  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      78.772   1.267   9.519  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      79.877   0.180   8.729  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      81.179   2.122  12.287  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      79.552   2.421  11.724  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      75.006  -7.291  15.269  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      74.240  -6.733  16.721  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      81.568   0.495  10.475  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.807  -6.429  17.567  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.123  -7.512  16.251  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      76.115  -9.314  17.281  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      75.903  -6.207  19.570  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      77.370  -7.026  20.142  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.857  -7.167  21.052  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      81.846   2.751  10.171  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      75.122  -3.339  16.782  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.356  -4.401  17.452  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      74.635  -4.725  17.750  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      74.668  -3.390  13.273  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      75.419  -1.815  13.473  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      74.751  -2.627  14.857  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      76.524   0.078  11.686  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      77.512   1.493  11.340  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.234   1.023  13.002  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      77.003  -9.702  20.514  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      75.871 -10.487  19.396  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      75.262  -9.639  20.830  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.3', True, 'REMARK  Energy: 218.755\nREMARK  SimpleFitness: 218.755\nREMARK  FullFitness: -853.6967\nREMARK  InterFull: -42.6687\nREMARK  IntraFull: 271.637\nREMARK  solvFull: -1252.59\nREMARK  surfFull: 169.925\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.59\nREMARK  deltaGcompsolvnonpol: 169.925\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.72902\nREMARK  deltaGligsolvnonpol: 12.4115\nREMARK  deltaGvdw: -42.6687\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.258871\nREMARK  Cluster: 0\nREMARK  ClusterRank: 2\n', 3), ({'deltaGligsolvpol': -4.72902, 'surfFull': 169.925, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 169.925, 'SimpleFitness': 218.755, 'InterFull': -42.6687, 'extraFull': 0.0, 'Energy': 218.755, 'solvFull': -1252.59, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 0, 'deltaGligsolvnonpol': 12.4115, 'deltaGcompsolvpol': -1252.59, 'FullFitness': -853.6967, 'deltaG': -8.258871, 'ClusterRank': 3, 'IntraFull': 271.637, 'deltaGvdw': -42.6687}, 'V', ['REMARK  Energy: 218.755\n', 'REMARK  SimpleFitness: 218.755\n', 'REMARK  FullFitness: -853.6967\n', 'REMARK  InterFull: -42.6687\n', 'REMARK  IntraFull: 271.637\n', 'REMARK  solvFull: -1252.59\n', 'REMARK  surfFull: 169.925\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.59\n', 'REMARK  deltaGcompsolvnonpol: 169.925\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.72902\n', 'REMARK  deltaGligsolvnonpol: 12.4115\n', 'REMARK  deltaGvdw: -42.6687\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.258871\n', 'REMARK  Cluster: 0\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      77.592  -2.563  12.047  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.454  -3.755  12.969  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      78.437  -1.560  12.795  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.275  -2.965  10.749  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.646  -3.483  14.216  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.818  -4.936  12.350  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      78.657  -0.268  11.978  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      77.941  -1.339  14.234  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      78.837  -1.804  10.010  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      76.439  -4.904  14.763  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      77.557  -2.590  15.018  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      75.304  -2.797  13.934  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.147  -5.666  13.490  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.994  -0.586  10.543  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      79.840   0.471  12.606  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      77.416   0.627  12.000  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      75.286  -5.185  15.745  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      79.553   0.527   9.715  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      80.325   1.651  11.792  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      75.163  -6.654  16.143  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      75.359  -4.370  17.012  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      80.726   1.191  10.409  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.343  -7.196  16.949  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      81.142   2.323   9.656  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      75.955  -8.376  17.789  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      75.935  -8.345  19.280  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.715  -8.231  18.521  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.284  -7.115  20.048  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      76.021  -9.618  20.042  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      76.621  -2.134  11.794  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.457  -4.073  13.273  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.405  -2.045  12.874  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.555  -3.473  10.103  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      79.081  -3.676  10.950  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      77.542  -5.568  11.828  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.078  -4.580  11.632  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.080  -0.670  14.246  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.734  -0.848  14.797  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.124  -1.967   8.978  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      77.386  -5.255  15.184  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      78.466  -3.141  15.276  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      77.079  -2.301  15.957  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      76.461  -6.704  13.551  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      75.070  -5.681  13.304  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      80.676  -0.223  12.732  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      79.580   0.829  13.601  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      74.343  -4.932  15.253  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      78.772   1.267   9.519  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      79.877   0.180   8.729  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      81.179   2.122  12.287  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      79.552   2.421  11.724  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      75.006  -7.291  15.269  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      74.240  -6.733  16.721  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      81.568   0.495  10.475  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.807  -6.429  17.567  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.123  -7.512  16.251  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      76.115  -9.314  17.281  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      75.903  -6.207  19.570  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      77.370  -7.026  20.142  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.857  -7.167  21.052  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      81.846   2.751  10.171  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      75.122  -3.339  16.782  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.356  -4.401  17.452  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      74.635  -4.725  17.750  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      74.668  -3.390  13.273  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      75.419  -1.815  13.473  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      74.751  -2.627  14.857  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      76.524   0.078  11.686  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      77.512   1.493  11.340  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.234   1.023  13.002  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      77.003  -9.702  20.514  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      75.871 -10.487  19.396  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      75.262  -9.639  20.830  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.4', True, 'REMARK  Energy: 218.755\nREMARK  SimpleFitness: 218.755\nREMARK  FullFitness: -853.6967\nREMARK  InterFull: -42.6687\nREMARK  IntraFull: 271.637\nREMARK  solvFull: -1252.59\nREMARK  surfFull: 169.925\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.59\nREMARK  deltaGcompsolvnonpol: 169.925\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.72902\nREMARK  deltaGligsolvnonpol: 12.4115\nREMARK  deltaGvdw: -42.6687\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.258871\nREMARK  Cluster: 0\nREMARK  ClusterRank: 3\n', 4), ({'deltaGligsolvpol': -4.72902, 'surfFull': 169.925, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 169.925, 'SimpleFitness': 218.755, 'InterFull': -42.6687, 'extraFull': 0.0, 'Energy': 218.755, 'solvFull': -1252.59, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 0, 'deltaGligsolvnonpol': 12.4115, 'deltaGcompsolvpol': -1252.59, 'FullFitness': -853.6967, 'deltaG': -8.258871, 'ClusterRank': 4, 'IntraFull': 271.637, 'deltaGvdw': -42.6687}, 'V', ['REMARK  Energy: 218.755\n', 'REMARK  SimpleFitness: 218.755\n', 'REMARK  FullFitness: -853.6967\n', 'REMARK  InterFull: -42.6687\n', 'REMARK  IntraFull: 271.637\n', 'REMARK  solvFull: -1252.59\n', 'REMARK  surfFull: 169.925\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.59\n', 'REMARK  deltaGcompsolvnonpol: 169.925\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.72902\n', 'REMARK  deltaGligsolvnonpol: 12.4115\n', 'REMARK  deltaGvdw: -42.6687\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.258871\n', 'REMARK  Cluster: 0\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      77.592  -2.563  12.047  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.454  -3.755  12.969  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      78.437  -1.560  12.795  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.275  -2.965  10.749  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.646  -3.483  14.216  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.818  -4.936  12.350  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      78.657  -0.268  11.978  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      77.941  -1.339  14.234  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      78.837  -1.804  10.010  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      76.439  -4.904  14.763  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      77.557  -2.590  15.018  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      75.304  -2.797  13.934  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.147  -5.666  13.490  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.994  -0.586  10.543  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      79.840   0.471  12.606  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      77.416   0.627  12.000  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      75.286  -5.185  15.745  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      79.553   0.527   9.715  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      80.325   1.651  11.792  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      75.163  -6.654  16.143  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      75.359  -4.370  17.012  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      80.726   1.191  10.409  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.343  -7.196  16.949  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      81.142   2.323   9.656  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      75.955  -8.376  17.789  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      75.935  -8.345  19.280  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.715  -8.231  18.521  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.284  -7.115  20.048  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      76.021  -9.618  20.042  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      76.621  -2.134  11.794  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.457  -4.073  13.273  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.405  -2.045  12.874  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.555  -3.473  10.103  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      79.081  -3.676  10.950  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      77.542  -5.568  11.828  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.078  -4.580  11.632  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.080  -0.670  14.246  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.734  -0.848  14.797  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.124  -1.967   8.978  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      77.386  -5.255  15.184  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      78.466  -3.141  15.276  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      77.079  -2.301  15.957  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      76.461  -6.704  13.551  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      75.070  -5.681  13.304  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      80.676  -0.223  12.732  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      79.580   0.829  13.601  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      74.343  -4.932  15.253  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      78.772   1.267   9.519  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      79.877   0.180   8.729  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      81.179   2.122  12.287  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      79.552   2.421  11.724  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      75.006  -7.291  15.269  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      74.240  -6.733  16.721  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      81.568   0.495  10.475  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.807  -6.429  17.567  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.123  -7.512  16.251  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      76.115  -9.314  17.281  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      75.903  -6.207  19.570  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      77.370  -7.026  20.142  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.857  -7.167  21.052  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      81.846   2.751  10.171  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      75.122  -3.339  16.782  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.356  -4.401  17.452  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      74.635  -4.725  17.750  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      74.668  -3.390  13.273  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      75.419  -1.815  13.473  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      74.751  -2.627  14.857  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      76.524   0.078  11.686  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      77.512   1.493  11.340  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.234   1.023  13.002  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      77.003  -9.702  20.514  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      75.871 -10.487  19.396  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      75.262  -9.639  20.830  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.5', True, 'REMARK  Energy: 218.755\nREMARK  SimpleFitness: 218.755\nREMARK  FullFitness: -853.6967\nREMARK  InterFull: -42.6687\nREMARK  IntraFull: 271.637\nREMARK  solvFull: -1252.59\nREMARK  surfFull: 169.925\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.59\nREMARK  deltaGcompsolvnonpol: 169.925\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.72902\nREMARK  deltaGligsolvnonpol: 12.4115\nREMARK  deltaGvdw: -42.6687\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.258871\nREMARK  Cluster: 0\nREMARK  ClusterRank: 4\n', 5), ({'deltaGligsolvpol': -4.73379, 'surfFull': 169.937, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 169.937, 'SimpleFitness': 218.741, 'InterFull': -42.7567, 'extraFull': 0.0, 'Energy': 218.741, 'solvFull': -1252.14, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 0, 'deltaGligsolvnonpol': 12.4142, 'deltaGcompsolvpol': -1252.14, 'FullFitness': -853.4057, 'deltaG': -8.238487, 'ClusterRank': 5, 'IntraFull': 271.554, 'deltaGvdw': -42.7567}, 'V', ['REMARK  Energy: 218.741\n', 'REMARK  SimpleFitness: 218.741\n', 'REMARK  FullFitness: -853.4057\n', 'REMARK  InterFull: -42.7567\n', 'REMARK  IntraFull: 271.554\n', 'REMARK  solvFull: -1252.14\n', 'REMARK  surfFull: 169.937\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.14\n', 'REMARK  deltaGcompsolvnonpol: 169.937\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.73379\n', 'REMARK  deltaGligsolvnonpol: 12.4142\n', 'REMARK  deltaGvdw: -42.7567\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.238487\n', 'REMARK  Cluster: 0\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      77.680  -2.481  11.926  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.541  -3.684  12.833  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      78.528  -1.486  12.684  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.360  -2.866  10.622  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.746  -3.421  14.091  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.900  -4.862  12.206  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      78.740  -0.182  11.888  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      78.044  -1.284  14.129  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      78.937  -1.697   9.905  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      76.533  -4.845  14.628  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      77.667  -2.543  14.900  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      75.407  -2.723  13.830  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.238  -5.595  13.351  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      79.093  -0.485  10.453  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      79.902   0.567  12.543  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      77.487   0.698  11.905  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      75.375  -5.120  15.606  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      79.662   0.637   9.643  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      80.394   1.751  11.741  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      75.220  -6.592  15.984  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      75.467  -4.325  16.884  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      80.819   1.300  10.362  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.400  -7.173  16.764  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      81.242   2.440   9.623  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      75.991  -8.306  17.657  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      76.007  -8.213  19.146  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.773  -8.099  18.410  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.400  -6.962  19.855  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      76.090  -9.459  19.952  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      76.708  -2.050  11.679  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.546  -4.006  13.127  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.501  -1.966  12.749  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.633  -3.354   9.967  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      79.156  -3.591  10.809  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      77.628  -5.493  11.687  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.157  -4.519  11.484  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.183  -0.615  14.154  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.839  -0.797  14.694  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.231  -1.848   8.873  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      77.477  -5.204  15.047  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      78.576  -3.100  15.142  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      77.197  -2.265  15.846  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      76.552  -6.634  13.400  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      75.159  -5.608  13.173  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      80.740  -0.121  12.689  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      79.613   0.924  13.532  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      74.436  -4.841  15.120  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      78.880   1.374   9.441  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      80.003   0.298   8.660  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      81.237   2.226  12.253  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      79.618   2.517  11.665  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      75.038  -7.211  15.102  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      74.302  -6.658  16.571  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      81.663   0.608  10.438  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.935  -6.416  17.334  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.129  -7.553  16.044  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      76.122  -9.269  17.190  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      76.030  -6.066  19.349  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      77.489  -6.896  19.925  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.991  -6.964  20.870  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      81.929   2.873  10.156  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      75.323  -3.275  16.661  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.441  -4.435  17.359  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      74.693  -4.632  17.593  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      74.754  -3.314  13.184  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      75.522  -1.745  13.362  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      74.871  -2.540  14.762  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      76.606   0.145  11.568  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      77.585   1.575  11.259  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.285   1.076  12.909  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      77.095  -9.567  20.365  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      75.865 -10.345  19.351  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      75.381  -9.418  20.783  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.6', True, 'REMARK  Energy: 218.741\nREMARK  SimpleFitness: 218.741\nREMARK  FullFitness: -853.4057\nREMARK  InterFull: -42.7567\nREMARK  IntraFull: 271.554\nREMARK  solvFull: -1252.14\nREMARK  surfFull: 169.937\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.14\nREMARK  deltaGcompsolvnonpol: 169.937\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.73379\nREMARK  deltaGligsolvnonpol: 12.4142\nREMARK  deltaGvdw: -42.7567\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.238487\nREMARK  Cluster: 0\nREMARK  ClusterRank: 5\n', 6), ({'deltaGligsolvpol': -4.73379, 'surfFull': 169.937, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 169.937, 'SimpleFitness': 218.741, 'InterFull': -42.7567, 'extraFull': 0.0, 'Energy': 218.741, 'solvFull': -1252.14, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 0, 'deltaGligsolvnonpol': 12.4142, 'deltaGcompsolvpol': -1252.14, 'FullFitness': -853.4057, 'deltaG': -8.238487, 'ClusterRank': 6, 'IntraFull': 271.554, 'deltaGvdw': -42.7567}, 'V', ['REMARK  Energy: 218.741\n', 'REMARK  SimpleFitness: 218.741\n', 'REMARK  FullFitness: -853.4057\n', 'REMARK  InterFull: -42.7567\n', 'REMARK  IntraFull: 271.554\n', 'REMARK  solvFull: -1252.14\n', 'REMARK  surfFull: 169.937\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.14\n', 'REMARK  deltaGcompsolvnonpol: 169.937\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.73379\n', 'REMARK  deltaGligsolvnonpol: 12.4142\n', 'REMARK  deltaGvdw: -42.7567\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.238487\n', 'REMARK  Cluster: 0\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      77.680  -2.481  11.926  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.541  -3.684  12.833  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      78.528  -1.486  12.684  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.360  -2.866  10.622  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.746  -3.421  14.091  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.900  -4.862  12.206  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      78.740  -0.182  11.888  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      78.044  -1.284  14.129  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      78.937  -1.697   9.905  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      76.533  -4.845  14.628  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      77.667  -2.543  14.900  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      75.407  -2.723  13.830  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.238  -5.595  13.351  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      79.093  -0.485  10.453  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      79.902   0.567  12.543  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      77.487   0.698  11.905  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      75.375  -5.120  15.606  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      79.662   0.637   9.643  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      80.394   1.751  11.741  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      75.220  -6.592  15.984  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      75.467  -4.325  16.884  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      80.819   1.300  10.362  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.400  -7.173  16.764  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      81.242   2.440   9.623  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      75.991  -8.306  17.657  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      76.007  -8.213  19.146  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.773  -8.099  18.410  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.400  -6.962  19.855  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      76.090  -9.459  19.952  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      76.708  -2.050  11.679  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.546  -4.006  13.127  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.501  -1.966  12.749  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.633  -3.354   9.967  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      79.156  -3.591  10.809  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      77.628  -5.493  11.687  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.157  -4.519  11.484  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.183  -0.615  14.154  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.839  -0.797  14.694  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.231  -1.848   8.873  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      77.477  -5.204  15.047  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      78.576  -3.100  15.142  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      77.197  -2.265  15.846  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      76.552  -6.634  13.400  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      75.159  -5.608  13.173  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      80.740  -0.121  12.689  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      79.613   0.924  13.532  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      74.436  -4.841  15.120  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      78.880   1.374   9.441  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      80.003   0.298   8.660  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      81.237   2.226  12.253  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      79.618   2.517  11.665  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      75.038  -7.211  15.102  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      74.302  -6.658  16.571  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      81.663   0.608  10.438  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.935  -6.416  17.334  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.129  -7.553  16.044  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      76.122  -9.269  17.190  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      76.030  -6.066  19.349  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      77.489  -6.896  19.925  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.991  -6.964  20.870  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      81.929   2.873  10.156  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      75.323  -3.275  16.661  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.441  -4.435  17.359  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      74.693  -4.632  17.593  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      74.754  -3.314  13.184  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      75.522  -1.745  13.362  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      74.871  -2.540  14.762  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      76.606   0.145  11.568  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      77.585   1.575  11.259  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.285   1.076  12.909  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      77.095  -9.567  20.365  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      75.865 -10.345  19.351  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      75.381  -9.418  20.783  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.7', True, 'REMARK  Energy: 218.741\nREMARK  SimpleFitness: 218.741\nREMARK  FullFitness: -853.4057\nREMARK  InterFull: -42.7567\nREMARK  IntraFull: 271.554\nREMARK  solvFull: -1252.14\nREMARK  surfFull: 169.937\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.14\nREMARK  deltaGcompsolvnonpol: 169.937\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.73379\nREMARK  deltaGligsolvnonpol: 12.4142\nREMARK  deltaGvdw: -42.7567\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.238487\nREMARK  Cluster: 0\nREMARK  ClusterRank: 6\n', 7), ({'deltaGligsolvpol': -4.73379, 'surfFull': 169.937, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 169.937, 'SimpleFitness': 218.741, 'InterFull': -42.7567, 'extraFull': 0.0, 'Energy': 218.741, 'solvFull': -1252.14, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 0, 'deltaGligsolvnonpol': 12.4142, 'deltaGcompsolvpol': -1252.14, 'FullFitness': -853.4057, 'deltaG': -8.238487, 'ClusterRank': 7, 'IntraFull': 271.554, 'deltaGvdw': -42.7567}, 'V', ['REMARK  Energy: 218.741\n', 'REMARK  SimpleFitness: 218.741\n', 'REMARK  FullFitness: -853.4057\n', 'REMARK  InterFull: -42.7567\n', 'REMARK  IntraFull: 271.554\n', 'REMARK  solvFull: -1252.14\n', 'REMARK  surfFull: 169.937\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.14\n', 'REMARK  deltaGcompsolvnonpol: 169.937\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.73379\n', 'REMARK  deltaGligsolvnonpol: 12.4142\n', 'REMARK  deltaGvdw: -42.7567\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.238487\n', 'REMARK  Cluster: 0\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      77.680  -2.481  11.926  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.541  -3.684  12.833  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      78.528  -1.486  12.684  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.360  -2.866  10.622  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.746  -3.421  14.091  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.900  -4.862  12.206  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      78.740  -0.182  11.888  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      78.044  -1.284  14.129  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      78.937  -1.697   9.905  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      76.533  -4.845  14.628  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      77.667  -2.543  14.900  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      75.407  -2.723  13.830  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.238  -5.595  13.351  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      79.093  -0.485  10.453  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      79.902   0.567  12.543  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      77.487   0.698  11.905  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      75.375  -5.120  15.606  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      79.662   0.637   9.643  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      80.394   1.751  11.741  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      75.220  -6.592  15.984  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      75.467  -4.325  16.884  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      80.819   1.300  10.362  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.400  -7.173  16.764  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      81.242   2.440   9.623  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      75.991  -8.306  17.657  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      76.007  -8.213  19.146  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.773  -8.099  18.410  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.400  -6.962  19.855  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      76.090  -9.459  19.952  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      76.708  -2.050  11.679  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.546  -4.006  13.127  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.501  -1.966  12.749  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.633  -3.354   9.967  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      79.156  -3.591  10.809  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      77.628  -5.493  11.687  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.157  -4.519  11.484  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.183  -0.615  14.154  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.839  -0.797  14.694  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.231  -1.848   8.873  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      77.477  -5.204  15.047  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      78.576  -3.100  15.142  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      77.197  -2.265  15.846  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      76.552  -6.634  13.400  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      75.159  -5.608  13.173  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      80.740  -0.121  12.689  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      79.613   0.924  13.532  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      74.436  -4.841  15.120  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      78.880   1.374   9.441  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      80.003   0.298   8.660  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      81.237   2.226  12.253  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      79.618   2.517  11.665  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      75.038  -7.211  15.102  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      74.302  -6.658  16.571  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      81.663   0.608  10.438  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.935  -6.416  17.334  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.129  -7.553  16.044  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      76.122  -9.269  17.190  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      76.030  -6.066  19.349  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      77.489  -6.896  19.925  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.991  -6.964  20.870  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      81.929   2.873  10.156  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      75.323  -3.275  16.661  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.441  -4.435  17.359  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      74.693  -4.632  17.593  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      74.754  -3.314  13.184  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      75.522  -1.745  13.362  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      74.871  -2.540  14.762  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      76.606   0.145  11.568  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      77.585   1.575  11.259  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.285   1.076  12.909  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      77.095  -9.567  20.365  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      75.865 -10.345  19.351  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      75.381  -9.418  20.783  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.8', True, 'REMARK  Energy: 218.741\nREMARK  SimpleFitness: 218.741\nREMARK  FullFitness: -853.4057\nREMARK  InterFull: -42.7567\nREMARK  IntraFull: 271.554\nREMARK  solvFull: -1252.14\nREMARK  surfFull: 169.937\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.14\nREMARK  deltaGcompsolvnonpol: 169.937\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.73379\nREMARK  deltaGligsolvnonpol: 12.4142\nREMARK  deltaGvdw: -42.7567\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.238487\nREMARK  Cluster: 0\nREMARK  ClusterRank: 7\n', 8), ({'deltaGligsolvpol': -4.82702, 'surfFull': 175.578, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 175.578, 'SimpleFitness': 229.93, 'InterFull': -26.2576, 'extraFull': 0.0, 'Energy': 229.93, 'solvFull': -1261.34, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 1, 'deltaGligsolvnonpol': 13.5777, 'deltaGcompsolvpol': -1261.34, 'FullFitness': -847.28656, 'deltaG': -6.8114314, 'ClusterRank': 0, 'IntraFull': 264.733, 'deltaGvdw': -26.2576}, 'V', ['REMARK  Energy: 229.93\n', 'REMARK  SimpleFitness: 229.93\n', 'REMARK  FullFitness: -847.28656\n', 'REMARK  InterFull: -26.2576\n', 'REMARK  IntraFull: 264.733\n', 'REMARK  solvFull: -1261.34\n', 'REMARK  surfFull: 175.578\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1261.34\n', 'REMARK  deltaGcompsolvnonpol: 175.578\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82702\n', 'REMARK  deltaGligsolvnonpol: 13.5777\n', 'REMARK  deltaGvdw: -26.2576\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.8114314\n', 'REMARK  Cluster: 1\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      53.517   3.068  20.768  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.527   4.008  21.395  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      52.929   3.745  19.533  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      54.217   1.781  20.367  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      53.955   5.335  21.833  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      55.283   3.502  22.593  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      51.877   2.847  18.844  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      52.421   5.154  19.855  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      53.438   0.972  19.393  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.208   5.945  22.466  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      53.460   6.006  20.563  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      52.828   5.204  22.863  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      55.832   4.769  23.216  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      52.379   1.431  18.715  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      51.615   3.427  17.452  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      50.561   2.824  19.623  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      55.086   7.183  23.374  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      51.649   0.530  17.770  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      50.800   2.518  16.555  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.428   7.643  23.960  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      54.425   8.366  22.692  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      51.490   1.181  16.411  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      57.439   8.264  22.993  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      50.704   0.340  15.576  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      58.200   7.248  22.201  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      58.106   7.091  20.725  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      59.213   7.799  21.325  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      57.215   7.943  19.886  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      58.449   5.755  20.169  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.725   2.830  21.481  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      55.279   4.220  20.628  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      53.760   3.875  18.833  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      54.402   1.177  21.260  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      55.192   2.007  19.926  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      56.085   2.813  22.314  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      54.617   2.989  23.292  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      51.526   5.111  20.478  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      52.133   5.667  18.935  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      53.761  -0.050  19.236  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      55.865   6.194  21.637  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      54.304   6.173  19.887  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      53.022   6.981  20.785  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      56.922   4.795  23.136  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      55.579   4.796  24.279  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      52.571   3.626  16.960  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      51.094   4.384  17.534  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      54.462   6.912  24.230  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      50.662   0.293  18.178  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      52.155  -0.434  17.649  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      50.676   2.978  15.570  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      49.791   2.379  16.953  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      56.899   6.829  24.514  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      56.198   8.409  24.706  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      52.466   1.312  15.936  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      58.173   8.802  23.600  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      56.971   9.019  22.361  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      58.481   6.390  22.791  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      57.621   8.037  18.877  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      57.097   8.952  20.287  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      56.225   7.488  19.809  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      50.495   0.859  14.782  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      53.358   8.184  22.545  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      54.876   8.560  21.716  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      54.524   9.266  23.305  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      53.175   4.794  23.813  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      52.016   4.563  22.515  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      52.392   6.184  23.071  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      50.720   2.547  20.668  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      49.843   2.112  19.205  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      50.073   3.801  19.599  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      58.646   5.829  19.100  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      57.614   5.064  20.315  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      59.336   5.332  20.651  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.9', True, 'REMARK  Energy: 229.93\nREMARK  SimpleFitness: 229.93\nREMARK  FullFitness: -847.28656\nREMARK  InterFull: -26.2576\nREMARK  IntraFull: 264.733\nREMARK  solvFull: -1261.34\nREMARK  surfFull: 175.578\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1261.34\nREMARK  deltaGcompsolvnonpol: 175.578\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82702\nREMARK  deltaGligsolvnonpol: 13.5777\nREMARK  deltaGvdw: -26.2576\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.8114314\nREMARK  Cluster: 1\nREMARK  ClusterRank: 0\n', 9), ({'deltaGligsolvpol': -4.82702, 'surfFull': 175.578, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 175.578, 'SimpleFitness': 229.93, 'InterFull': -26.2576, 'extraFull': 0.0, 'Energy': 229.93, 'solvFull': -1261.34, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 1, 'deltaGligsolvnonpol': 13.5777, 'deltaGcompsolvpol': -1261.34, 'FullFitness': -847.28656, 'deltaG': -6.8114314, 'ClusterRank': 1, 'IntraFull': 264.733, 'deltaGvdw': -26.2576}, 'V', ['REMARK  Energy: 229.93\n', 'REMARK  SimpleFitness: 229.93\n', 'REMARK  FullFitness: -847.28656\n', 'REMARK  InterFull: -26.2576\n', 'REMARK  IntraFull: 264.733\n', 'REMARK  solvFull: -1261.34\n', 'REMARK  surfFull: 175.578\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1261.34\n', 'REMARK  deltaGcompsolvnonpol: 175.578\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82702\n', 'REMARK  deltaGligsolvnonpol: 13.5777\n', 'REMARK  deltaGvdw: -26.2576\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.8114314\n', 'REMARK  Cluster: 1\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      53.517   3.068  20.768  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.527   4.008  21.395  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      52.929   3.745  19.533  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      54.217   1.781  20.367  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      53.955   5.335  21.833  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      55.283   3.502  22.593  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      51.877   2.847  18.844  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      52.421   5.154  19.855  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      53.438   0.972  19.393  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.208   5.945  22.466  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      53.460   6.006  20.563  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      52.828   5.204  22.863  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      55.832   4.769  23.216  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      52.379   1.431  18.715  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      51.615   3.427  17.452  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      50.561   2.824  19.623  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      55.086   7.183  23.374  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      51.649   0.530  17.770  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      50.800   2.518  16.555  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.428   7.643  23.960  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      54.425   8.366  22.692  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      51.490   1.181  16.411  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      57.439   8.264  22.993  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      50.704   0.340  15.576  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      58.200   7.248  22.201  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      58.106   7.091  20.725  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      59.213   7.799  21.325  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      57.215   7.943  19.886  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      58.449   5.755  20.169  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.725   2.830  21.481  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      55.279   4.220  20.628  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      53.760   3.875  18.833  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      54.402   1.177  21.260  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      55.192   2.007  19.926  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      56.085   2.813  22.314  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      54.617   2.989  23.292  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      51.526   5.111  20.478  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      52.133   5.667  18.935  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      53.761  -0.050  19.236  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      55.865   6.194  21.637  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      54.304   6.173  19.887  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      53.022   6.981  20.785  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      56.922   4.795  23.136  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      55.579   4.796  24.279  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      52.571   3.626  16.960  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      51.094   4.384  17.534  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      54.462   6.912  24.230  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      50.662   0.293  18.178  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      52.155  -0.434  17.649  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      50.676   2.978  15.570  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      49.791   2.379  16.953  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      56.899   6.829  24.514  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      56.198   8.409  24.706  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      52.466   1.312  15.936  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      58.173   8.802  23.600  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      56.971   9.019  22.361  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      58.481   6.390  22.791  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      57.621   8.037  18.877  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      57.097   8.952  20.287  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      56.225   7.488  19.809  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      50.495   0.859  14.782  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      53.358   8.184  22.545  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      54.876   8.560  21.716  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      54.524   9.266  23.305  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      53.175   4.794  23.813  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      52.016   4.563  22.515  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      52.392   6.184  23.071  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      50.720   2.547  20.668  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      49.843   2.112  19.205  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      50.073   3.801  19.599  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      58.646   5.829  19.100  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      57.614   5.064  20.315  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      59.336   5.332  20.651  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.10', True, 'REMARK  Energy: 229.93\nREMARK  SimpleFitness: 229.93\nREMARK  FullFitness: -847.28656\nREMARK  InterFull: -26.2576\nREMARK  IntraFull: 264.733\nREMARK  solvFull: -1261.34\nREMARK  surfFull: 175.578\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1261.34\nREMARK  deltaGcompsolvnonpol: 175.578\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82702\nREMARK  deltaGligsolvnonpol: 13.5777\nREMARK  deltaGvdw: -26.2576\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.8114314\nREMARK  Cluster: 1\nREMARK  ClusterRank: 1\n', 10), ({'deltaGligsolvpol': -4.82137, 'surfFull': 175.488, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 175.488, 'SimpleFitness': 229.991, 'InterFull': -26.2447, 'extraFull': 0.0, 'Energy': 229.991, 'solvFull': -1261.19, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 1, 'deltaGligsolvnonpol': 13.5795, 'deltaGcompsolvpol': -1261.19, 'FullFitness': -847.2256, 'deltaG': -6.8100595, 'ClusterRank': 2, 'IntraFull': 264.721, 'deltaGvdw': -26.2447}, 'V', ['REMARK  Energy: 229.991\n', 'REMARK  SimpleFitness: 229.991\n', 'REMARK  FullFitness: -847.2256\n', 'REMARK  InterFull: -26.2447\n', 'REMARK  IntraFull: 264.721\n', 'REMARK  solvFull: -1261.19\n', 'REMARK  surfFull: 175.488\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1261.19\n', 'REMARK  deltaGcompsolvnonpol: 175.488\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82137\n', 'REMARK  deltaGligsolvnonpol: 13.5795\n', 'REMARK  deltaGvdw: -26.2447\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.8100595\n', 'REMARK  Cluster: 1\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      53.559   3.188  20.839  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.577   4.123  21.460  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      52.951   3.876  19.621  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      54.255   1.906  20.414  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      54.012   5.446  21.919  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      55.354   3.606  22.640  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      51.889   2.985  18.939  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      52.446   5.280  19.965  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      53.457   1.104  19.450  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.276   6.050  22.534  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      53.496   6.127  20.663  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      52.903   5.306  22.966  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      55.913   4.869  23.263  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      52.386   1.568  18.795  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      51.616   3.571  17.554  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      50.582   2.961  19.734  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      55.172   7.281  23.451  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      51.636   0.674  17.859  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      50.779   2.673  16.666  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.527   7.739  24.008  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      54.496   8.469  22.792  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      51.455   1.330  16.506  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      57.519   8.346  23.013  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      50.644   0.499  15.686  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      58.272   7.319  22.225  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      58.165   7.138  20.753  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      59.273   7.861  21.329  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      57.264   7.972  19.904  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      58.515   5.798  20.210  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.779   2.942  21.563  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      55.316   4.341  20.681  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      53.771   4.013  18.909  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      54.458   1.296  21.298  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      55.220   2.140  19.956  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      56.151   2.920  22.342  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      54.698   3.088  23.345  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      51.562   5.231  20.603  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      52.142   5.802  19.055  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      53.773   0.082  19.281  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      55.916   6.304  21.694  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      54.327   6.301  19.974  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      53.062   7.100  20.901  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      57.000   4.895  23.163  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      55.678   4.887  24.331  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      52.568   3.760  17.048  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      51.105   4.533  17.644  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      54.568   7.006  24.321  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      50.656   0.437  18.285  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      52.137  -0.291  17.725  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      50.643   3.139  15.686  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      49.775   2.542  17.079  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      57.003   6.927  24.559  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      56.314   8.513  24.750  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      52.421   1.456  16.010  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      58.262   8.896  23.599  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      57.039   9.090  22.378  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      58.566   6.473  22.825  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      57.695   8.101  18.910  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      57.091   8.966  20.320  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      56.296   7.479  19.790  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      50.414   1.026  14.901  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      53.426   8.289  22.668  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      54.924   8.668  21.806  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      54.611   9.365  23.407  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      53.268   4.887  23.907  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      52.085   4.668  22.626  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      52.472   6.284  23.192  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      50.754   2.683  20.777  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      49.858   2.251  19.325  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      50.095   3.939  19.720  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      59.346   5.344  20.757  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      58.803   5.877  19.162  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      57.653   5.129  20.277  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.11', True, 'REMARK  Energy: 229.991\nREMARK  SimpleFitness: 229.991\nREMARK  FullFitness: -847.2256\nREMARK  InterFull: -26.2447\nREMARK  IntraFull: 264.721\nREMARK  solvFull: -1261.19\nREMARK  surfFull: 175.488\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1261.19\nREMARK  deltaGcompsolvnonpol: 175.488\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82137\nREMARK  deltaGligsolvnonpol: 13.5795\nREMARK  deltaGvdw: -26.2447\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.8100595\nREMARK  Cluster: 1\nREMARK  ClusterRank: 2\n', 11), ({'deltaGligsolvpol': -4.82137, 'surfFull': 175.488, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 175.488, 'SimpleFitness': 229.991, 'InterFull': -26.2447, 'extraFull': 0.0, 'Energy': 229.991, 'solvFull': -1261.19, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 1, 'deltaGligsolvnonpol': 13.5795, 'deltaGcompsolvpol': -1261.19, 'FullFitness': -847.2256, 'deltaG': -6.8100595, 'ClusterRank': 3, 'IntraFull': 264.721, 'deltaGvdw': -26.2447}, 'V', ['REMARK  Energy: 229.991\n', 'REMARK  SimpleFitness: 229.991\n', 'REMARK  FullFitness: -847.2256\n', 'REMARK  InterFull: -26.2447\n', 'REMARK  IntraFull: 264.721\n', 'REMARK  solvFull: -1261.19\n', 'REMARK  surfFull: 175.488\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1261.19\n', 'REMARK  deltaGcompsolvnonpol: 175.488\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82137\n', 'REMARK  deltaGligsolvnonpol: 13.5795\n', 'REMARK  deltaGvdw: -26.2447\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.8100595\n', 'REMARK  Cluster: 1\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      53.559   3.188  20.839  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.577   4.123  21.460  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      52.951   3.876  19.621  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      54.255   1.906  20.414  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      54.012   5.446  21.919  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      55.354   3.606  22.640  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      51.889   2.985  18.939  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      52.446   5.280  19.965  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      53.457   1.104  19.450  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.276   6.050  22.534  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      53.496   6.127  20.663  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      52.903   5.306  22.966  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      55.913   4.869  23.263  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      52.386   1.568  18.795  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      51.616   3.571  17.554  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      50.582   2.961  19.734  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      55.172   7.281  23.451  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      51.636   0.674  17.859  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      50.779   2.673  16.666  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.527   7.739  24.008  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      54.496   8.469  22.792  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      51.455   1.330  16.506  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      57.519   8.346  23.013  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      50.644   0.499  15.686  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      58.272   7.319  22.225  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      58.165   7.138  20.753  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      59.273   7.861  21.329  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      57.264   7.972  19.904  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      58.515   5.798  20.210  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.779   2.942  21.563  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      55.316   4.341  20.681  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      53.771   4.013  18.909  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      54.458   1.296  21.298  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      55.220   2.140  19.956  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      56.151   2.920  22.342  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      54.698   3.088  23.345  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      51.562   5.231  20.603  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      52.142   5.802  19.055  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      53.773   0.082  19.281  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      55.916   6.304  21.694  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      54.327   6.301  19.974  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      53.062   7.100  20.901  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      57.000   4.895  23.163  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      55.678   4.887  24.331  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      52.568   3.760  17.048  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      51.105   4.533  17.644  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      54.568   7.006  24.321  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      50.656   0.437  18.285  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      52.137  -0.291  17.725  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      50.643   3.139  15.686  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      49.775   2.542  17.079  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      57.003   6.927  24.559  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      56.314   8.513  24.750  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      52.421   1.456  16.010  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      58.262   8.896  23.599  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      57.039   9.090  22.378  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      58.566   6.473  22.825  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      57.695   8.101  18.910  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      57.091   8.966  20.320  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      56.296   7.479  19.790  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      50.414   1.026  14.901  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      53.426   8.289  22.668  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      54.924   8.668  21.806  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      54.611   9.365  23.407  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      53.268   4.887  23.907  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      52.085   4.668  22.626  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      52.472   6.284  23.192  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      50.754   2.683  20.777  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      49.858   2.251  19.325  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      50.095   3.939  19.720  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      59.346   5.344  20.757  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      58.803   5.877  19.162  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      57.653   5.129  20.277  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.12', True, 'REMARK  Energy: 229.991\nREMARK  SimpleFitness: 229.991\nREMARK  FullFitness: -847.2256\nREMARK  InterFull: -26.2447\nREMARK  IntraFull: 264.721\nREMARK  solvFull: -1261.19\nREMARK  surfFull: 175.488\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1261.19\nREMARK  deltaGcompsolvnonpol: 175.488\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82137\nREMARK  deltaGligsolvnonpol: 13.5795\nREMARK  deltaGvdw: -26.2447\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.8100595\nREMARK  Cluster: 1\nREMARK  ClusterRank: 3\n', 12), ({'deltaGligsolvpol': -4.82137, 'surfFull': 175.488, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 175.488, 'SimpleFitness': 229.991, 'InterFull': -26.2447, 'extraFull': 0.0, 'Energy': 229.991, 'solvFull': -1261.19, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 1, 'deltaGligsolvnonpol': 13.5795, 'deltaGcompsolvpol': -1261.19, 'FullFitness': -847.2256, 'deltaG': -6.8100595, 'ClusterRank': 4, 'IntraFull': 264.721, 'deltaGvdw': -26.2447}, 'V', ['REMARK  Energy: 229.991\n', 'REMARK  SimpleFitness: 229.991\n', 'REMARK  FullFitness: -847.2256\n', 'REMARK  InterFull: -26.2447\n', 'REMARK  IntraFull: 264.721\n', 'REMARK  solvFull: -1261.19\n', 'REMARK  surfFull: 175.488\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1261.19\n', 'REMARK  deltaGcompsolvnonpol: 175.488\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82137\n', 'REMARK  deltaGligsolvnonpol: 13.5795\n', 'REMARK  deltaGvdw: -26.2447\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.8100595\n', 'REMARK  Cluster: 1\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      53.559   3.188  20.839  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.577   4.123  21.460  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      52.951   3.876  19.621  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      54.255   1.906  20.414  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      54.012   5.446  21.919  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      55.354   3.606  22.640  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      51.889   2.985  18.939  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      52.446   5.280  19.965  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      53.457   1.104  19.450  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.276   6.050  22.534  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      53.496   6.127  20.663  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      52.903   5.306  22.966  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      55.913   4.869  23.263  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      52.386   1.568  18.795  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      51.616   3.571  17.554  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      50.582   2.961  19.734  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      55.172   7.281  23.451  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      51.636   0.674  17.859  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      50.779   2.673  16.666  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.527   7.739  24.008  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      54.496   8.469  22.792  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      51.455   1.330  16.506  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      57.519   8.346  23.013  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      50.644   0.499  15.686  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      58.272   7.319  22.225  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      58.165   7.138  20.753  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      59.273   7.861  21.329  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      57.264   7.972  19.904  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      58.515   5.798  20.210  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.779   2.942  21.563  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      55.316   4.341  20.681  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      53.771   4.013  18.909  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      54.458   1.296  21.298  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      55.220   2.140  19.956  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      56.151   2.920  22.342  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      54.698   3.088  23.345  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      51.562   5.231  20.603  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      52.142   5.802  19.055  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      53.773   0.082  19.281  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      55.916   6.304  21.694  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      54.327   6.301  19.974  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      53.062   7.100  20.901  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      57.000   4.895  23.163  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      55.678   4.887  24.331  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      52.568   3.760  17.048  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      51.105   4.533  17.644  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      54.568   7.006  24.321  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      50.656   0.437  18.285  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      52.137  -0.291  17.725  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      50.643   3.139  15.686  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      49.775   2.542  17.079  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      57.003   6.927  24.559  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      56.314   8.513  24.750  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      52.421   1.456  16.010  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      58.262   8.896  23.599  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      57.039   9.090  22.378  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      58.566   6.473  22.825  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      57.695   8.101  18.910  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      57.091   8.966  20.320  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      56.296   7.479  19.790  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      50.414   1.026  14.901  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      53.426   8.289  22.668  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      54.924   8.668  21.806  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      54.611   9.365  23.407  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      53.268   4.887  23.907  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      52.085   4.668  22.626  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      52.472   6.284  23.192  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      50.754   2.683  20.777  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      49.858   2.251  19.325  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      50.095   3.939  19.720  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      59.346   5.344  20.757  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      58.803   5.877  19.162  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      57.653   5.129  20.277  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.13', True, 'REMARK  Energy: 229.991\nREMARK  SimpleFitness: 229.991\nREMARK  FullFitness: -847.2256\nREMARK  InterFull: -26.2447\nREMARK  IntraFull: 264.721\nREMARK  solvFull: -1261.19\nREMARK  surfFull: 175.488\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1261.19\nREMARK  deltaGcompsolvnonpol: 175.488\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82137\nREMARK  deltaGligsolvnonpol: 13.5795\nREMARK  deltaGvdw: -26.2447\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.8100595\nREMARK  Cluster: 1\nREMARK  ClusterRank: 4\n', 13), ({'deltaGligsolvpol': -4.81802, 'surfFull': 175.553, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 175.553, 'SimpleFitness': 230.58, 'InterFull': -25.9481, 'extraFull': 0.0, 'Energy': 230.58, 'solvFull': -1261.11, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 1, 'deltaGligsolvnonpol': 13.5981, 'deltaGcompsolvpol': -1261.11, 'FullFitness': -846.6731, 'deltaG': -6.7729244, 'ClusterRank': 5, 'IntraFull': 264.832, 'deltaGvdw': -25.9481}, 'V', ['REMARK  Energy: 230.58\n', 'REMARK  SimpleFitness: 230.58\n', 'REMARK  FullFitness: -846.6731\n', 'REMARK  InterFull: -25.9481\n', 'REMARK  IntraFull: 264.832\n', 'REMARK  solvFull: -1261.11\n', 'REMARK  surfFull: 175.553\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1261.11\n', 'REMARK  deltaGcompsolvnonpol: 175.553\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.81802\n', 'REMARK  deltaGligsolvnonpol: 13.5981\n', 'REMARK  deltaGvdw: -25.9481\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.7729244\n', 'REMARK  Cluster: 1\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      53.372   3.384  20.859  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.426   4.274  21.486  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      52.767   4.127  19.673  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      54.031   2.099  20.387  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      53.909   5.598  21.996  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      55.218   3.702  22.631  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      51.684   3.283  18.964  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      52.288   5.523  20.082  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      53.218   1.355  19.389  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.210   6.148  22.585  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      53.370   6.330  20.778  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      52.831   5.459  23.074  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      55.826   4.932  23.274  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      52.156   1.867  18.757  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      51.409   3.935  17.608  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      50.383   3.247  19.768  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      55.176   7.365  23.526  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      51.393   1.028  17.781  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      50.567   3.086  16.678  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.565   7.767  24.041  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      54.522   8.588  22.909  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      51.234   1.747  16.459  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      57.549   8.338  23.016  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      50.425   0.964  15.591  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      58.250   7.285  22.214  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      58.114   7.113  20.742  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      59.258   7.792  21.306  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      57.237   7.984  19.907  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      58.401   5.762  20.190  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.597   3.139  21.588  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      55.153   4.497  20.699  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      53.583   4.280  18.960  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      54.214   1.451  21.248  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      55.003   2.321  19.939  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      55.988   3.004  22.292  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      54.566   3.181  23.339  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      51.423   5.459  20.745  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      51.964   6.083  19.202  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      53.518   0.337  19.173  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      55.833   6.397  21.731  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      54.186   6.516  20.074  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      52.958   7.299  21.061  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      56.912   4.927  23.155  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      55.611   4.931  24.346  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      52.361   4.143  17.111  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      50.905   4.894  17.746  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      54.592   7.095  24.410  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      50.406   0.793  18.191  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      51.875   0.060  17.608  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      50.437   3.598  15.720  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      49.562   2.943  17.085  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      57.024   6.933  24.573  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      56.408   8.543  24.794  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      52.208   1.888  15.983  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      58.322   8.870  23.578  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      57.074   9.089  22.386  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      58.520   6.425  22.806  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      57.122   8.987  20.319  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      56.244   7.540  19.816  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      57.654   8.087  18.903  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      50.220   1.525  14.824  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      53.443   8.447  22.822  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      54.922   8.786  21.912  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      54.692   9.470  23.533  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      53.213   5.009  23.993  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      51.989   4.848  22.744  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      52.430   6.441  23.335  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      50.557   2.914  20.795  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      49.643   2.572  19.330  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      49.916   4.234  19.807  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      59.258   5.295  20.683  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      58.616   5.828  19.122  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      57.533   5.112  20.324  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.14', True, 'REMARK  Energy: 230.58\nREMARK  SimpleFitness: 230.58\nREMARK  FullFitness: -846.6731\nREMARK  InterFull: -25.9481\nREMARK  IntraFull: 264.832\nREMARK  solvFull: -1261.11\nREMARK  surfFull: 175.553\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1261.11\nREMARK  deltaGcompsolvnonpol: 175.553\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.81802\nREMARK  deltaGligsolvnonpol: 13.5981\nREMARK  deltaGvdw: -25.9481\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.7729244\nREMARK  Cluster: 1\nREMARK  ClusterRank: 5\n', 14), ({'deltaGligsolvpol': -4.81802, 'surfFull': 175.553, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 175.553, 'SimpleFitness': 230.58, 'InterFull': -25.9481, 'extraFull': 0.0, 'Energy': 230.58, 'solvFull': -1261.11, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 1, 'deltaGligsolvnonpol': 13.5981, 'deltaGcompsolvpol': -1261.11, 'FullFitness': -846.6731, 'deltaG': -6.7729244, 'ClusterRank': 6, 'IntraFull': 264.832, 'deltaGvdw': -25.9481}, 'V', ['REMARK  Energy: 230.58\n', 'REMARK  SimpleFitness: 230.58\n', 'REMARK  FullFitness: -846.6731\n', 'REMARK  InterFull: -25.9481\n', 'REMARK  IntraFull: 264.832\n', 'REMARK  solvFull: -1261.11\n', 'REMARK  surfFull: 175.553\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1261.11\n', 'REMARK  deltaGcompsolvnonpol: 175.553\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.81802\n', 'REMARK  deltaGligsolvnonpol: 13.5981\n', 'REMARK  deltaGvdw: -25.9481\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.7729244\n', 'REMARK  Cluster: 1\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      53.372   3.384  20.859  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.426   4.274  21.486  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      52.767   4.127  19.673  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      54.031   2.099  20.387  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      53.909   5.598  21.996  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      55.218   3.702  22.631  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      51.684   3.283  18.964  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      52.288   5.523  20.082  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      53.218   1.355  19.389  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.210   6.148  22.585  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      53.370   6.330  20.778  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      52.831   5.459  23.074  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      55.826   4.932  23.274  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      52.156   1.867  18.757  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      51.409   3.935  17.608  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      50.383   3.247  19.768  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      55.176   7.365  23.526  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      51.393   1.028  17.781  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      50.567   3.086  16.678  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.565   7.767  24.041  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      54.522   8.588  22.909  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      51.234   1.747  16.459  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      57.549   8.338  23.016  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      50.425   0.964  15.591  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      58.250   7.285  22.214  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      58.114   7.113  20.742  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      59.258   7.792  21.306  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      57.237   7.984  19.907  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      58.401   5.762  20.190  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.597   3.139  21.588  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      55.153   4.497  20.699  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      53.583   4.280  18.960  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      54.214   1.451  21.248  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      55.003   2.321  19.939  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      55.988   3.004  22.292  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      54.566   3.181  23.339  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      51.423   5.459  20.745  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      51.964   6.083  19.202  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      53.518   0.337  19.173  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      55.833   6.397  21.731  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      54.186   6.516  20.074  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      52.958   7.299  21.061  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      56.912   4.927  23.155  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      55.611   4.931  24.346  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      52.361   4.143  17.111  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      50.905   4.894  17.746  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      54.592   7.095  24.410  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      50.406   0.793  18.191  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      51.875   0.060  17.608  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      50.437   3.598  15.720  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      49.562   2.943  17.085  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      57.024   6.933  24.573  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      56.408   8.543  24.794  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      52.208   1.888  15.983  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      58.322   8.870  23.578  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      57.074   9.089  22.386  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      58.520   6.425  22.806  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      57.122   8.987  20.319  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      56.244   7.540  19.816  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      57.654   8.087  18.903  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      50.220   1.525  14.824  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      53.443   8.447  22.822  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      54.922   8.786  21.912  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      54.692   9.470  23.533  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      53.213   5.009  23.993  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      51.989   4.848  22.744  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      52.430   6.441  23.335  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      50.557   2.914  20.795  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      49.643   2.572  19.330  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      49.916   4.234  19.807  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      59.258   5.295  20.683  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      58.616   5.828  19.122  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      57.533   5.112  20.324  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.15', True, 'REMARK  Energy: 230.58\nREMARK  SimpleFitness: 230.58\nREMARK  FullFitness: -846.6731\nREMARK  InterFull: -25.9481\nREMARK  IntraFull: 264.832\nREMARK  solvFull: -1261.11\nREMARK  surfFull: 175.553\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1261.11\nREMARK  deltaGcompsolvnonpol: 175.553\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.81802\nREMARK  deltaGligsolvnonpol: 13.5981\nREMARK  deltaGvdw: -25.9481\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.7729244\nREMARK  Cluster: 1\nREMARK  ClusterRank: 6\n', 15), ({'deltaGligsolvpol': -4.81802, 'surfFull': 175.553, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 175.553, 'SimpleFitness': 230.58, 'InterFull': -25.9481, 'extraFull': 0.0, 'Energy': 230.58, 'solvFull': -1261.11, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 1, 'deltaGligsolvnonpol': 13.5981, 'deltaGcompsolvpol': -1261.11, 'FullFitness': -846.6731, 'deltaG': -6.7729244, 'ClusterRank': 7, 'IntraFull': 264.832, 'deltaGvdw': -25.9481}, 'V', ['REMARK  Energy: 230.58\n', 'REMARK  SimpleFitness: 230.58\n', 'REMARK  FullFitness: -846.6731\n', 'REMARK  InterFull: -25.9481\n', 'REMARK  IntraFull: 264.832\n', 'REMARK  solvFull: -1261.11\n', 'REMARK  surfFull: 175.553\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1261.11\n', 'REMARK  deltaGcompsolvnonpol: 175.553\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.81802\n', 'REMARK  deltaGligsolvnonpol: 13.5981\n', 'REMARK  deltaGvdw: -25.9481\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.7729244\n', 'REMARK  Cluster: 1\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      53.372   3.384  20.859  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.426   4.274  21.486  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      52.767   4.127  19.673  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      54.031   2.099  20.387  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      53.909   5.598  21.996  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      55.218   3.702  22.631  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      51.684   3.283  18.964  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      52.288   5.523  20.082  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      53.218   1.355  19.389  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.210   6.148  22.585  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      53.370   6.330  20.778  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      52.831   5.459  23.074  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      55.826   4.932  23.274  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      52.156   1.867  18.757  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      51.409   3.935  17.608  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      50.383   3.247  19.768  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      55.176   7.365  23.526  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      51.393   1.028  17.781  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      50.567   3.086  16.678  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.565   7.767  24.041  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      54.522   8.588  22.909  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      51.234   1.747  16.459  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      57.549   8.338  23.016  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      50.425   0.964  15.591  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      58.250   7.285  22.214  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      58.114   7.113  20.742  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      59.258   7.792  21.306  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      57.237   7.984  19.907  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      58.401   5.762  20.190  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.597   3.139  21.588  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      55.153   4.497  20.699  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      53.583   4.280  18.960  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      54.214   1.451  21.248  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      55.003   2.321  19.939  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      55.988   3.004  22.292  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      54.566   3.181  23.339  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      51.423   5.459  20.745  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      51.964   6.083  19.202  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      53.518   0.337  19.173  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      55.833   6.397  21.731  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      54.186   6.516  20.074  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      52.958   7.299  21.061  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      56.912   4.927  23.155  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      55.611   4.931  24.346  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      52.361   4.143  17.111  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      50.905   4.894  17.746  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      54.592   7.095  24.410  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      50.406   0.793  18.191  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      51.875   0.060  17.608  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      50.437   3.598  15.720  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      49.562   2.943  17.085  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      57.024   6.933  24.573  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      56.408   8.543  24.794  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      52.208   1.888  15.983  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      58.322   8.870  23.578  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      57.074   9.089  22.386  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      58.520   6.425  22.806  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      57.122   8.987  20.319  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      56.244   7.540  19.816  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      57.654   8.087  18.903  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      50.220   1.525  14.824  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      53.443   8.447  22.822  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      54.922   8.786  21.912  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      54.692   9.470  23.533  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      53.213   5.009  23.993  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      51.989   4.848  22.744  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      52.430   6.441  23.335  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      50.557   2.914  20.795  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      49.643   2.572  19.330  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      49.916   4.234  19.807  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      59.258   5.295  20.683  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      58.616   5.828  19.122  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      57.533   5.112  20.324  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.16', True, 'REMARK  Energy: 230.58\nREMARK  SimpleFitness: 230.58\nREMARK  FullFitness: -846.6731\nREMARK  InterFull: -25.9481\nREMARK  IntraFull: 264.832\nREMARK  solvFull: -1261.11\nREMARK  surfFull: 175.553\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1261.11\nREMARK  deltaGcompsolvnonpol: 175.553\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.81802\nREMARK  deltaGligsolvnonpol: 13.5981\nREMARK  deltaGvdw: -25.9481\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.7729244\nREMARK  Cluster: 1\nREMARK  ClusterRank: 7\n', 16), ({'deltaGligsolvpol': -4.81252, 'surfFull': 174.46, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.46, 'SimpleFitness': 232.41, 'InterFull': -23.4572, 'extraFull': 0.0, 'Energy': 232.41, 'solvFull': -1262.25, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 2, 'deltaGligsolvnonpol': 12.8881, 'deltaGcompsolvpol': -1262.25, 'FullFitness': -846.04016, 'deltaG': -6.6436214, 'ClusterRank': 0, 'IntraFull': 265.207, 'deltaGvdw': -23.4572}, 'V', ['REMARK  Energy: 232.41\n', 'REMARK  SimpleFitness: 232.41\n', 'REMARK  FullFitness: -846.04016\n', 'REMARK  InterFull: -23.4572\n', 'REMARK  IntraFull: 265.207\n', 'REMARK  solvFull: -1262.25\n', 'REMARK  surfFull: 174.46\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.25\n', 'REMARK  deltaGcompsolvnonpol: 174.46\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.81252\n', 'REMARK  deltaGligsolvnonpol: 12.8881\n', 'REMARK  deltaGvdw: -23.4572\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.6436214\n', 'REMARK  Cluster: 2\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      83.483   5.144  27.347  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      81.971   5.241  27.366  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      83.904   4.089  28.363  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      83.939   4.737  25.959  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      81.395   5.657  28.697  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      81.331   6.154  26.360  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      85.440   3.928  28.411  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      83.267   4.343  29.734  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      85.331   4.217  25.929  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.912   5.757  28.325  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      81.762   4.536  29.658  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      81.928   7.008  29.189  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      79.942   6.368  26.924  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      86.020   3.868  27.019  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      85.739   2.619  29.143  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      86.104   5.085  29.161  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      78.963   6.544  29.248  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      87.425   3.371  26.888  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      87.187   2.184  29.052  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.529   6.475  28.726  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.932   5.977  30.654  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      87.594   2.046  27.602  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.031   7.804  28.182  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      88.959   1.652  27.541  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      76.946   8.850  29.244  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      77.705  10.125  29.218  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.321  10.080  28.805  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      78.661  10.442  28.122  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      77.931  10.826  30.512  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      83.934   6.108  27.592  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.589   4.239  27.151  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      83.488   3.142  28.007  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      83.867   5.596  25.287  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      83.278   3.963  25.563  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      81.294   5.708  25.362  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      81.868   7.104  26.295  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      83.703   5.222  30.211  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      83.466   3.501  30.400  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      85.801   4.127  24.957  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.527   4.737  28.236  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.299   3.604  29.322  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.384   4.741  30.660  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.190   5.895  26.286  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.729   7.440  26.951  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      85.116   1.822  28.726  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      85.473   2.710  30.199  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.278   7.589  29.301  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      88.118   4.106  27.309  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      87.723   3.256  25.840  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      87.324   1.231  29.570  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      87.840   2.901  29.559  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.858   6.164  29.531  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      77.446   5.714  27.945  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      86.992   1.272  27.116  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.029   7.643  27.775  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.663   8.125  27.355  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      76.650   8.456  30.201  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.594   9.889  28.263  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      78.892  11.510  28.128  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      78.255  10.194  27.137  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      89.052   0.883  28.127  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.880   6.138  31.171  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.724   4.904  30.629  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.153   6.463  31.245  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.616   7.834  28.546  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      83.018   7.038  29.244  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      81.559   7.219  30.195  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      85.801   6.053  28.750  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      87.196   5.041  29.113  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      85.842   5.070  30.221  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      77.128  10.619  31.226  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      77.977  11.907  30.354  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      78.876  10.501  30.954  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.17', True, 'REMARK  Energy: 232.41\nREMARK  SimpleFitness: 232.41\nREMARK  FullFitness: -846.04016\nREMARK  InterFull: -23.4572\nREMARK  IntraFull: 265.207\nREMARK  solvFull: -1262.25\nREMARK  surfFull: 174.46\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.25\nREMARK  deltaGcompsolvnonpol: 174.46\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.81252\nREMARK  deltaGligsolvnonpol: 12.8881\nREMARK  deltaGvdw: -23.4572\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.6436214\nREMARK  Cluster: 2\nREMARK  ClusterRank: 0\n', 17), ({'deltaGligsolvpol': -4.81252, 'surfFull': 174.46, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.46, 'SimpleFitness': 232.41, 'InterFull': -23.4572, 'extraFull': 0.0, 'Energy': 232.41, 'solvFull': -1262.25, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 2, 'deltaGligsolvnonpol': 12.8881, 'deltaGcompsolvpol': -1262.25, 'FullFitness': -846.04016, 'deltaG': -6.6436214, 'ClusterRank': 1, 'IntraFull': 265.207, 'deltaGvdw': -23.4572}, 'V', ['REMARK  Energy: 232.41\n', 'REMARK  SimpleFitness: 232.41\n', 'REMARK  FullFitness: -846.04016\n', 'REMARK  InterFull: -23.4572\n', 'REMARK  IntraFull: 265.207\n', 'REMARK  solvFull: -1262.25\n', 'REMARK  surfFull: 174.46\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.25\n', 'REMARK  deltaGcompsolvnonpol: 174.46\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.81252\n', 'REMARK  deltaGligsolvnonpol: 12.8881\n', 'REMARK  deltaGvdw: -23.4572\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.6436214\n', 'REMARK  Cluster: 2\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      83.483   5.144  27.347  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      81.971   5.241  27.366  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      83.904   4.089  28.363  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      83.939   4.737  25.959  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      81.395   5.657  28.697  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      81.331   6.154  26.360  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      85.440   3.928  28.411  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      83.267   4.343  29.734  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      85.331   4.217  25.929  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.912   5.757  28.325  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      81.762   4.536  29.658  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      81.928   7.008  29.189  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      79.942   6.368  26.924  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      86.020   3.868  27.019  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      85.739   2.619  29.143  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      86.104   5.085  29.161  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      78.963   6.544  29.248  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      87.425   3.371  26.888  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      87.187   2.184  29.052  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.529   6.475  28.726  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.932   5.977  30.654  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      87.594   2.046  27.602  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.031   7.804  28.182  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      88.959   1.652  27.541  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      76.946   8.850  29.244  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      77.705  10.125  29.218  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.321  10.080  28.805  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      78.661  10.442  28.122  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      77.931  10.826  30.512  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      83.934   6.108  27.592  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.589   4.239  27.151  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      83.488   3.142  28.007  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      83.867   5.596  25.287  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      83.278   3.963  25.563  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      81.294   5.708  25.362  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      81.868   7.104  26.295  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      83.703   5.222  30.211  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      83.466   3.501  30.400  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      85.801   4.127  24.957  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.527   4.737  28.236  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.299   3.604  29.322  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.384   4.741  30.660  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.190   5.895  26.286  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.729   7.440  26.951  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      85.116   1.822  28.726  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      85.473   2.710  30.199  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.278   7.589  29.301  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      88.118   4.106  27.309  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      87.723   3.256  25.840  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      87.324   1.231  29.570  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      87.840   2.901  29.559  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.858   6.164  29.531  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      77.446   5.714  27.945  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      86.992   1.272  27.116  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.029   7.643  27.775  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.663   8.125  27.355  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      76.650   8.456  30.201  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.594   9.889  28.263  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      78.892  11.510  28.128  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      78.255  10.194  27.137  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      89.052   0.883  28.127  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.880   6.138  31.171  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.724   4.904  30.629  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.153   6.463  31.245  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.616   7.834  28.546  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      83.018   7.038  29.244  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      81.559   7.219  30.195  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      85.801   6.053  28.750  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      87.196   5.041  29.113  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      85.842   5.070  30.221  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      77.128  10.619  31.226  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      77.977  11.907  30.354  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      78.876  10.501  30.954  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.18', True, 'REMARK  Energy: 232.41\nREMARK  SimpleFitness: 232.41\nREMARK  FullFitness: -846.04016\nREMARK  InterFull: -23.4572\nREMARK  IntraFull: 265.207\nREMARK  solvFull: -1262.25\nREMARK  surfFull: 174.46\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.25\nREMARK  deltaGcompsolvnonpol: 174.46\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.81252\nREMARK  deltaGligsolvnonpol: 12.8881\nREMARK  deltaGvdw: -23.4572\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.6436214\nREMARK  Cluster: 2\nREMARK  ClusterRank: 1\n', 18), ({'deltaGligsolvpol': -4.81252, 'surfFull': 174.46, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.46, 'SimpleFitness': 232.41, 'InterFull': -23.4572, 'extraFull': 0.0, 'Energy': 232.41, 'solvFull': -1262.25, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 2, 'deltaGligsolvnonpol': 12.8881, 'deltaGcompsolvpol': -1262.25, 'FullFitness': -846.04016, 'deltaG': -6.6436214, 'ClusterRank': 2, 'IntraFull': 265.207, 'deltaGvdw': -23.4572}, 'V', ['REMARK  Energy: 232.41\n', 'REMARK  SimpleFitness: 232.41\n', 'REMARK  FullFitness: -846.04016\n', 'REMARK  InterFull: -23.4572\n', 'REMARK  IntraFull: 265.207\n', 'REMARK  solvFull: -1262.25\n', 'REMARK  surfFull: 174.46\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.25\n', 'REMARK  deltaGcompsolvnonpol: 174.46\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.81252\n', 'REMARK  deltaGligsolvnonpol: 12.8881\n', 'REMARK  deltaGvdw: -23.4572\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.6436214\n', 'REMARK  Cluster: 2\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      83.483   5.144  27.347  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      81.971   5.241  27.366  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      83.904   4.089  28.363  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      83.939   4.737  25.959  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      81.395   5.657  28.697  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      81.331   6.154  26.360  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      85.440   3.928  28.411  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      83.267   4.343  29.734  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      85.331   4.217  25.929  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.912   5.757  28.325  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      81.762   4.536  29.658  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      81.928   7.008  29.189  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      79.942   6.368  26.924  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      86.020   3.868  27.019  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      85.739   2.619  29.143  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      86.104   5.085  29.161  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      78.963   6.544  29.248  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      87.425   3.371  26.888  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      87.187   2.184  29.052  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.529   6.475  28.726  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.932   5.977  30.654  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      87.594   2.046  27.602  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.031   7.804  28.182  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      88.959   1.652  27.541  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      76.946   8.850  29.244  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      77.705  10.125  29.218  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.321  10.080  28.805  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      78.661  10.442  28.122  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      77.931  10.826  30.512  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      83.934   6.108  27.592  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.589   4.239  27.151  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      83.488   3.142  28.007  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      83.867   5.596  25.287  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      83.278   3.963  25.563  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      81.294   5.708  25.362  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      81.868   7.104  26.295  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      83.703   5.222  30.211  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      83.466   3.501  30.400  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      85.801   4.127  24.957  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.527   4.737  28.236  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.299   3.604  29.322  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.384   4.741  30.660  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.190   5.895  26.286  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.729   7.440  26.951  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      85.116   1.822  28.726  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      85.473   2.710  30.199  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.278   7.589  29.301  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      88.118   4.106  27.309  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      87.723   3.256  25.840  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      87.324   1.231  29.570  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      87.840   2.901  29.559  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.858   6.164  29.531  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      77.446   5.714  27.945  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      86.992   1.272  27.116  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.029   7.643  27.775  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.663   8.125  27.355  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      76.650   8.456  30.201  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.594   9.889  28.263  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      78.892  11.510  28.128  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      78.255  10.194  27.137  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      89.052   0.883  28.127  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.880   6.138  31.171  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.724   4.904  30.629  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.153   6.463  31.245  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.616   7.834  28.546  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      83.018   7.038  29.244  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      81.559   7.219  30.195  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      85.801   6.053  28.750  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      87.196   5.041  29.113  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      85.842   5.070  30.221  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      77.128  10.619  31.226  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      77.977  11.907  30.354  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      78.876  10.501  30.954  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.19', True, 'REMARK  Energy: 232.41\nREMARK  SimpleFitness: 232.41\nREMARK  FullFitness: -846.04016\nREMARK  InterFull: -23.4572\nREMARK  IntraFull: 265.207\nREMARK  solvFull: -1262.25\nREMARK  surfFull: 174.46\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.25\nREMARK  deltaGcompsolvnonpol: 174.46\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.81252\nREMARK  deltaGligsolvnonpol: 12.8881\nREMARK  deltaGvdw: -23.4572\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.6436214\nREMARK  Cluster: 2\nREMARK  ClusterRank: 2\n', 19), ({'deltaGligsolvpol': -4.81252, 'surfFull': 174.46, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.46, 'SimpleFitness': 232.41, 'InterFull': -23.4572, 'extraFull': 0.0, 'Energy': 232.41, 'solvFull': -1262.25, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 2, 'deltaGligsolvnonpol': 12.8881, 'deltaGcompsolvpol': -1262.25, 'FullFitness': -846.04016, 'deltaG': -6.6436214, 'ClusterRank': 3, 'IntraFull': 265.207, 'deltaGvdw': -23.4572}, 'V', ['REMARK  Energy: 232.41\n', 'REMARK  SimpleFitness: 232.41\n', 'REMARK  FullFitness: -846.04016\n', 'REMARK  InterFull: -23.4572\n', 'REMARK  IntraFull: 265.207\n', 'REMARK  solvFull: -1262.25\n', 'REMARK  surfFull: 174.46\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.25\n', 'REMARK  deltaGcompsolvnonpol: 174.46\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.81252\n', 'REMARK  deltaGligsolvnonpol: 12.8881\n', 'REMARK  deltaGvdw: -23.4572\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.6436214\n', 'REMARK  Cluster: 2\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      83.483   5.144  27.347  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      81.971   5.241  27.366  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      83.904   4.089  28.363  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      83.939   4.737  25.959  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      81.395   5.657  28.697  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      81.331   6.154  26.360  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      85.440   3.928  28.411  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      83.267   4.343  29.734  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      85.331   4.217  25.929  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.912   5.757  28.325  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      81.762   4.536  29.658  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      81.928   7.008  29.189  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      79.942   6.368  26.924  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      86.020   3.868  27.019  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      85.739   2.619  29.143  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      86.104   5.085  29.161  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      78.963   6.544  29.248  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      87.425   3.371  26.888  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      87.187   2.184  29.052  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.529   6.475  28.726  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.932   5.977  30.654  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      87.594   2.046  27.602  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.031   7.804  28.182  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      88.959   1.652  27.541  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      76.946   8.850  29.244  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      77.705  10.125  29.218  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.321  10.080  28.805  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      78.661  10.442  28.122  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      77.931  10.826  30.512  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      83.934   6.108  27.592  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.589   4.239  27.151  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      83.488   3.142  28.007  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      83.867   5.596  25.287  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      83.278   3.963  25.563  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      81.294   5.708  25.362  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      81.868   7.104  26.295  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      83.703   5.222  30.211  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      83.466   3.501  30.400  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      85.801   4.127  24.957  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.527   4.737  28.236  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.299   3.604  29.322  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.384   4.741  30.660  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.190   5.895  26.286  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.729   7.440  26.951  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      85.116   1.822  28.726  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      85.473   2.710  30.199  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.278   7.589  29.301  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      88.118   4.106  27.309  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      87.723   3.256  25.840  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      87.324   1.231  29.570  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      87.840   2.901  29.559  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.858   6.164  29.531  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      77.446   5.714  27.945  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      86.992   1.272  27.116  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.029   7.643  27.775  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.663   8.125  27.355  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      76.650   8.456  30.201  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.594   9.889  28.263  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      78.892  11.510  28.128  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      78.255  10.194  27.137  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      89.052   0.883  28.127  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.880   6.138  31.171  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.724   4.904  30.629  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.153   6.463  31.245  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.616   7.834  28.546  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      83.018   7.038  29.244  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      81.559   7.219  30.195  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      85.801   6.053  28.750  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      87.196   5.041  29.113  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      85.842   5.070  30.221  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      77.128  10.619  31.226  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      77.977  11.907  30.354  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      78.876  10.501  30.954  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.20', True, 'REMARK  Energy: 232.41\nREMARK  SimpleFitness: 232.41\nREMARK  FullFitness: -846.04016\nREMARK  InterFull: -23.4572\nREMARK  IntraFull: 265.207\nREMARK  solvFull: -1262.25\nREMARK  surfFull: 174.46\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.25\nREMARK  deltaGcompsolvnonpol: 174.46\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.81252\nREMARK  deltaGligsolvnonpol: 12.8881\nREMARK  deltaGvdw: -23.4572\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.6436214\nREMARK  Cluster: 2\nREMARK  ClusterRank: 3\n', 20), ({'deltaGligsolvpol': -4.81252, 'surfFull': 174.46, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.46, 'SimpleFitness': 232.41, 'InterFull': -23.4572, 'extraFull': 0.0, 'Energy': 232.41, 'solvFull': -1262.25, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 2, 'deltaGligsolvnonpol': 12.8881, 'deltaGcompsolvpol': -1262.25, 'FullFitness': -846.04016, 'deltaG': -6.6436214, 'ClusterRank': 4, 'IntraFull': 265.207, 'deltaGvdw': -23.4572}, 'V', ['REMARK  Energy: 232.41\n', 'REMARK  SimpleFitness: 232.41\n', 'REMARK  FullFitness: -846.04016\n', 'REMARK  InterFull: -23.4572\n', 'REMARK  IntraFull: 265.207\n', 'REMARK  solvFull: -1262.25\n', 'REMARK  surfFull: 174.46\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.25\n', 'REMARK  deltaGcompsolvnonpol: 174.46\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.81252\n', 'REMARK  deltaGligsolvnonpol: 12.8881\n', 'REMARK  deltaGvdw: -23.4572\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.6436214\n', 'REMARK  Cluster: 2\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      83.483   5.144  27.347  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      81.971   5.241  27.366  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      83.904   4.089  28.363  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      83.939   4.737  25.959  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      81.395   5.657  28.697  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      81.331   6.154  26.360  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      85.440   3.928  28.411  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      83.267   4.343  29.734  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      85.331   4.217  25.929  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.912   5.757  28.325  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      81.762   4.536  29.658  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      81.928   7.008  29.189  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      79.942   6.368  26.924  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      86.020   3.868  27.019  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      85.739   2.619  29.143  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      86.104   5.085  29.161  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      78.963   6.544  29.248  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      87.425   3.371  26.888  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      87.187   2.184  29.052  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.529   6.475  28.726  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.932   5.977  30.654  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      87.594   2.046  27.602  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.031   7.804  28.182  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      88.959   1.652  27.541  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      76.946   8.850  29.244  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      77.705  10.125  29.218  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.321  10.080  28.805  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      78.661  10.442  28.122  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      77.931  10.826  30.512  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      83.934   6.108  27.592  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.589   4.239  27.151  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      83.488   3.142  28.007  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      83.867   5.596  25.287  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      83.278   3.963  25.563  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      81.294   5.708  25.362  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      81.868   7.104  26.295  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      83.703   5.222  30.211  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      83.466   3.501  30.400  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      85.801   4.127  24.957  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.527   4.737  28.236  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.299   3.604  29.322  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.384   4.741  30.660  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.190   5.895  26.286  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.729   7.440  26.951  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      85.116   1.822  28.726  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      85.473   2.710  30.199  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.278   7.589  29.301  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      88.118   4.106  27.309  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      87.723   3.256  25.840  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      87.324   1.231  29.570  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      87.840   2.901  29.559  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.858   6.164  29.531  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      77.446   5.714  27.945  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      86.992   1.272  27.116  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.029   7.643  27.775  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.663   8.125  27.355  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      76.650   8.456  30.201  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.594   9.889  28.263  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      78.892  11.510  28.128  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      78.255  10.194  27.137  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      89.052   0.883  28.127  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.880   6.138  31.171  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.724   4.904  30.629  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.153   6.463  31.245  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.616   7.834  28.546  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      83.018   7.038  29.244  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      81.559   7.219  30.195  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      85.801   6.053  28.750  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      87.196   5.041  29.113  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      85.842   5.070  30.221  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      77.128  10.619  31.226  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      77.977  11.907  30.354  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      78.876  10.501  30.954  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.21', True, 'REMARK  Energy: 232.41\nREMARK  SimpleFitness: 232.41\nREMARK  FullFitness: -846.04016\nREMARK  InterFull: -23.4572\nREMARK  IntraFull: 265.207\nREMARK  solvFull: -1262.25\nREMARK  surfFull: 174.46\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.25\nREMARK  deltaGcompsolvnonpol: 174.46\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.81252\nREMARK  deltaGligsolvnonpol: 12.8881\nREMARK  deltaGvdw: -23.4572\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.6436214\nREMARK  Cluster: 2\nREMARK  ClusterRank: 4\n', 21), ({'deltaGligsolvpol': -4.80734, 'surfFull': 174.101, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.101, 'SimpleFitness': 232.293, 'InterFull': -23.9212, 'extraFull': 0.0, 'Energy': 232.293, 'solvFull': -1261.52, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 2, 'deltaGligsolvnonpol': 12.8318, 'deltaGcompsolvpol': -1261.52, 'FullFitness': -846.02924, 'deltaG': -6.6717944, 'ClusterRank': 5, 'IntraFull': 265.311, 'deltaGvdw': -23.9212}, 'V', ['REMARK  Energy: 232.293\n', 'REMARK  SimpleFitness: 232.293\n', 'REMARK  FullFitness: -846.02924\n', 'REMARK  InterFull: -23.9212\n', 'REMARK  IntraFull: 265.311\n', 'REMARK  solvFull: -1261.52\n', 'REMARK  surfFull: 174.101\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1261.52\n', 'REMARK  deltaGcompsolvnonpol: 174.101\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.80734\n', 'REMARK  deltaGligsolvnonpol: 12.8318\n', 'REMARK  deltaGvdw: -23.9212\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.6717944\n', 'REMARK  Cluster: 2\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      83.545   4.997  27.433  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      82.052   5.258  27.407  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      83.803   3.858  28.414  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      84.006   4.608  26.040  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      81.473   5.680  28.735  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      81.548   6.276  26.424  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      85.301   3.497  28.496  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      83.160   4.140  29.776  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      85.314   3.906  26.028  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      80.022   5.938  28.317  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      81.688   4.498  29.665  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      82.117   6.954  29.294  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.163   6.597  26.946  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      85.913   3.419  27.120  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      85.404   2.132  29.181  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      86.082   4.526  29.316  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.112   6.776  29.233  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      87.241   2.742  27.002  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      86.783   1.511  29.103  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.700   6.826  28.655  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.983   6.186  30.624  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      87.209   1.378  27.658  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.316   8.213  28.170  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      88.511   0.807  27.610  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      77.067   9.157  29.300  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      77.880  10.368  29.581  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.629  10.467  28.867  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      79.077  10.720  28.766  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      77.835  10.942  30.953  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      84.089   5.892  27.742  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.572   4.314  27.134  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      83.283   2.986  28.011  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      84.081   5.507  25.422  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      83.265   3.958  25.570  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      81.512   5.885  25.403  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      82.177   7.170  26.429  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      83.677   4.953  30.289  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      83.246   3.262  30.420  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      85.802   3.794  25.067  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.548   4.962  28.172  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.139   3.632  29.284  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.303   4.712  30.663  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.399   6.220  26.262  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.046   7.682  27.010  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      84.692   1.442  28.719  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      85.127   2.218  30.234  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.503   7.792  29.318  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      88.012   3.359  27.474  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      87.555   2.633  25.958  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      86.778   0.527  29.581  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      87.511   2.112  29.654  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.975   6.506  29.408  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      77.608   6.124  27.822  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      86.523   0.714  27.124  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.383   8.113  27.614  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.062   8.591  27.470  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      76.521   8.700  30.111  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.940  10.137  29.099  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      79.312  11.780  28.889  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      78.922  10.534  27.700  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      88.496   0.037  28.204  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.923   6.253  31.174  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.682   5.136  30.570  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.230   6.731  31.197  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.912   7.829  28.673  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      83.201   6.871  29.386  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      81.734   7.168  30.295  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      85.918   5.541  28.942  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      87.160   4.343  29.296  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      85.784   4.501  30.367  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      76.904  10.685  31.468  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      77.913  12.032  30.909  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      78.671  10.561  31.545  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.22', True, 'REMARK  Energy: 232.293\nREMARK  SimpleFitness: 232.293\nREMARK  FullFitness: -846.02924\nREMARK  InterFull: -23.9212\nREMARK  IntraFull: 265.311\nREMARK  solvFull: -1261.52\nREMARK  surfFull: 174.101\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1261.52\nREMARK  deltaGcompsolvnonpol: 174.101\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.80734\nREMARK  deltaGligsolvnonpol: 12.8318\nREMARK  deltaGvdw: -23.9212\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.6717944\nREMARK  Cluster: 2\nREMARK  ClusterRank: 5\n', 22), ({'deltaGligsolvpol': -4.80734, 'surfFull': 174.101, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.101, 'SimpleFitness': 232.293, 'InterFull': -23.9212, 'extraFull': 0.0, 'Energy': 232.293, 'solvFull': -1261.52, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 2, 'deltaGligsolvnonpol': 12.8318, 'deltaGcompsolvpol': -1261.52, 'FullFitness': -846.02924, 'deltaG': -6.6717944, 'ClusterRank': 6, 'IntraFull': 265.311, 'deltaGvdw': -23.9212}, 'V', ['REMARK  Energy: 232.293\n', 'REMARK  SimpleFitness: 232.293\n', 'REMARK  FullFitness: -846.02924\n', 'REMARK  InterFull: -23.9212\n', 'REMARK  IntraFull: 265.311\n', 'REMARK  solvFull: -1261.52\n', 'REMARK  surfFull: 174.101\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1261.52\n', 'REMARK  deltaGcompsolvnonpol: 174.101\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.80734\n', 'REMARK  deltaGligsolvnonpol: 12.8318\n', 'REMARK  deltaGvdw: -23.9212\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.6717944\n', 'REMARK  Cluster: 2\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      83.545   4.997  27.433  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      82.052   5.258  27.407  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      83.803   3.858  28.414  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      84.006   4.608  26.040  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      81.473   5.680  28.735  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      81.548   6.276  26.424  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      85.301   3.497  28.496  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      83.160   4.140  29.776  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      85.314   3.906  26.028  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      80.022   5.938  28.317  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      81.688   4.498  29.665  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      82.117   6.954  29.294  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.163   6.597  26.946  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      85.913   3.419  27.120  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      85.404   2.132  29.181  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      86.082   4.526  29.316  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.112   6.776  29.233  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      87.241   2.742  27.002  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      86.783   1.511  29.103  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.700   6.826  28.655  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.983   6.186  30.624  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      87.209   1.378  27.658  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.316   8.213  28.170  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      88.511   0.807  27.610  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      77.067   9.157  29.300  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      77.880  10.368  29.581  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.629  10.467  28.867  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      79.077  10.720  28.766  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      77.835  10.942  30.953  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      84.089   5.892  27.742  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.572   4.314  27.134  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      83.283   2.986  28.011  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      84.081   5.507  25.422  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      83.265   3.958  25.570  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      81.512   5.885  25.403  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      82.177   7.170  26.429  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      83.677   4.953  30.289  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      83.246   3.262  30.420  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      85.802   3.794  25.067  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.548   4.962  28.172  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.139   3.632  29.284  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.303   4.712  30.663  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.399   6.220  26.262  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.046   7.682  27.010  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      84.692   1.442  28.719  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      85.127   2.218  30.234  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.503   7.792  29.318  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      88.012   3.359  27.474  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      87.555   2.633  25.958  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      86.778   0.527  29.581  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      87.511   2.112  29.654  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.975   6.506  29.408  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      77.608   6.124  27.822  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      86.523   0.714  27.124  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.383   8.113  27.614  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.062   8.591  27.470  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      76.521   8.700  30.111  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.940  10.137  29.099  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      79.312  11.780  28.889  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      78.922  10.534  27.700  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      88.496   0.037  28.204  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.923   6.253  31.174  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.682   5.136  30.570  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.230   6.731  31.197  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.912   7.829  28.673  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      83.201   6.871  29.386  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      81.734   7.168  30.295  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      85.918   5.541  28.942  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      87.160   4.343  29.296  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      85.784   4.501  30.367  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      76.904  10.685  31.468  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      77.913  12.032  30.909  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      78.671  10.561  31.545  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.23', True, 'REMARK  Energy: 232.293\nREMARK  SimpleFitness: 232.293\nREMARK  FullFitness: -846.02924\nREMARK  InterFull: -23.9212\nREMARK  IntraFull: 265.311\nREMARK  solvFull: -1261.52\nREMARK  surfFull: 174.101\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1261.52\nREMARK  deltaGcompsolvnonpol: 174.101\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.80734\nREMARK  deltaGligsolvnonpol: 12.8318\nREMARK  deltaGvdw: -23.9212\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.6717944\nREMARK  Cluster: 2\nREMARK  ClusterRank: 6\n', 23), ({'deltaGligsolvpol': -4.81056, 'surfFull': 174.167, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.167, 'SimpleFitness': 232.402, 'InterFull': -23.773, 'extraFull': 0.0, 'Energy': 232.402, 'solvFull': -1261.69, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 2, 'deltaGligsolvnonpol': 12.8348, 'deltaGcompsolvpol': -1261.69, 'FullFitness': -845.98694, 'deltaG': -6.662016, 'ClusterRank': 7, 'IntraFull': 265.309, 'deltaGvdw': -23.773}, 'V', ['REMARK  Energy: 232.402\n', 'REMARK  SimpleFitness: 232.402\n', 'REMARK  FullFitness: -845.98694\n', 'REMARK  InterFull: -23.773\n', 'REMARK  IntraFull: 265.309\n', 'REMARK  solvFull: -1261.69\n', 'REMARK  surfFull: 174.167\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1261.69\n', 'REMARK  deltaGcompsolvnonpol: 174.167\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.81056\n', 'REMARK  deltaGligsolvnonpol: 12.8348\n', 'REMARK  deltaGvdw: -23.773\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.662016\n', 'REMARK  Cluster: 2\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      83.558   5.025  27.422  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      82.063   5.270  27.404  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      83.839   3.917  28.430  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      84.009   4.607  26.034  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      81.495   5.726  28.726  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      81.536   6.254  26.397  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      85.343   3.573  28.503  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      83.212   4.235  29.791  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      85.322   3.916  26.024  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      80.036   5.956  28.320  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      81.735   4.575  29.690  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      82.133   7.024  29.237  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.149   6.564  26.921  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      85.939   3.462  27.122  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      85.470   2.231  29.228  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      86.125   4.633  29.281  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.132   6.820  29.220  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      87.270   2.792  27.004  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      86.850   1.611  29.138  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.710   6.836  28.665  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      79.035   6.287  30.636  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      87.248   1.442  27.689  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.296   8.210  28.169  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      88.546   0.865  27.627  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      77.054   9.165  29.292  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      77.862  10.385  29.547  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.595  10.466  28.857  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      79.036  10.743  28.703  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      77.841  10.963  30.918  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      84.096   5.934  27.701  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.590   4.313  27.166  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      83.321   3.028  28.058  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      84.068   5.491  25.393  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      83.269   3.938  25.589  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      81.501   5.837  25.387  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      82.149   7.159  26.377  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      83.726   5.070  30.270  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      83.316   3.379  30.462  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      85.799   3.783  25.061  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.568   4.972  28.219  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.188   3.693  29.344  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.360   4.817  30.685  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.388   6.141  26.261  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.005   7.648  26.940  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      84.752   1.522  28.805  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      85.216   2.349  30.284  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.514   7.843  29.256  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      88.042   3.421  27.456  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      87.573   2.661  25.959  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      86.859   0.641  29.642  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      87.587   2.230  29.658  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      77.004   6.514  29.436  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      77.615   6.121  27.844  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      86.549   0.768  27.184  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.354   8.089  27.632  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.025   8.590  27.451  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      76.527   8.710  30.117  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.911  10.164  29.011  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      79.270  11.804  28.822  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      78.855  10.560  27.640  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      88.531   0.088  28.211  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.986   6.378  31.163  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.735   5.236  30.633  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.295   6.856  31.203  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.910   7.876  28.591  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      83.219   6.955  29.316  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      81.762   7.265  30.235  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      85.952   5.633  28.876  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      87.203   4.455  29.257  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      85.838   4.640  30.335  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      76.946  10.659  31.471  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      77.859  12.055  30.866  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      78.719  10.630  31.477  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.24', True, 'REMARK  Energy: 232.402\nREMARK  SimpleFitness: 232.402\nREMARK  FullFitness: -845.98694\nREMARK  InterFull: -23.773\nREMARK  IntraFull: 265.309\nREMARK  solvFull: -1261.69\nREMARK  surfFull: 174.167\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1261.69\nREMARK  deltaGcompsolvnonpol: 174.167\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.81056\nREMARK  deltaGligsolvnonpol: 12.8348\nREMARK  deltaGvdw: -23.773\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.662016\nREMARK  Cluster: 2\nREMARK  ClusterRank: 7\n', 24), ({'deltaGligsolvpol': -4.79443, 'surfFull': 173.642, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.642, 'SimpleFitness': 234.757, 'InterFull': -25.8723, 'extraFull': 0.0, 'Energy': 234.757, 'solvFull': -1261.03, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 2, 'deltaGligsolvnonpol': 12.8041, 'deltaGcompsolvpol': -1261.03, 'FullFitness': -842.9513, 'deltaG': -6.867972, 'ClusterRank': 8, 'IntraFull': 270.309, 'deltaGvdw': -25.8723}, 'V', ['REMARK  Energy: 234.757\n', 'REMARK  SimpleFitness: 234.757\n', 'REMARK  FullFitness: -842.9513\n', 'REMARK  InterFull: -25.8723\n', 'REMARK  IntraFull: 270.309\n', 'REMARK  solvFull: -1261.03\n', 'REMARK  surfFull: 173.642\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1261.03\n', 'REMARK  deltaGcompsolvnonpol: 173.642\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79443\n', 'REMARK  deltaGligsolvnonpol: 12.8041\n', 'REMARK  deltaGvdw: -25.8723\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.867972\n', 'REMARK  Cluster: 2\n', 'REMARK  ClusterRank: 8\n'], ['ATOM   3191 C1   LIG     1      82.712   5.801  28.112  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      81.400   6.391  27.641  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      82.465   4.386  28.629  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      83.684   5.748  26.945  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.330   6.439  28.701  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      81.440   7.787  27.069  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      83.767   3.759  29.178  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.287   4.317  29.605  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      84.827   4.823  27.179  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.244   7.162  27.905  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.038   5.005  29.085  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.732   7.240  29.948  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.029   8.309  27.279  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      84.885   3.940  28.183  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      83.510   2.271  29.431  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.192   4.399  30.501  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      77.938   7.500  28.655  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      86.095   3.076  28.350  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      84.764   1.453  29.656  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.187   8.747  28.173  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      76.973   6.350  28.417  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      85.702   1.620  28.483  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.597  10.080  28.786  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      86.868   0.838  28.708  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      77.458  10.122  30.272  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      77.611  11.406  30.994  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.302  10.823  30.787  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      77.836  12.684  30.261  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      78.123  11.345  32.387  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      83.139   6.427  28.897  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.032   5.740  26.841  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      82.159   3.799  27.758  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      84.072   6.752  26.753  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      83.162   5.427  26.039  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      81.709   7.775  26.010  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      82.162   8.412  27.601  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.553   4.743  30.573  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.032   3.274  29.786  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      85.659   4.890  26.488  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.971   6.500  27.078  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      79.664   4.463  28.213  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.260   4.969  29.853  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.577   8.649  26.346  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.093   9.166  27.948  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      82.979   1.843  28.579  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      82.864   2.146  30.303  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.108   7.563  29.728  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      86.648   3.388  29.241  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      86.794   3.186  27.515  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      84.507   0.397  29.782  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.264   1.756  30.580  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.124   8.614  28.397  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      77.262   8.819  27.087  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      85.223   1.266  27.566  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.971  10.853  28.329  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.624  10.331  28.526  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      77.798   9.234  30.785  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      77.210  12.769  29.368  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      78.884  12.766  29.959  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      77.601  13.532  30.910  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      86.561  -0.042  28.985  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.364   5.407  28.802  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.783   6.227  27.347  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      76.015   6.536  28.904  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      80.874   8.305  29.753  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.659   6.881  30.397  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.957   7.154  30.714  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      84.299   5.483  30.410  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      85.150   4.010  30.856  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      83.463   4.196  31.289  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      79.212  11.255  32.380  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      77.710  10.491  32.933  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      77.861  12.259  32.925  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.25', True, 'REMARK  Energy: 234.757\nREMARK  SimpleFitness: 234.757\nREMARK  FullFitness: -842.9513\nREMARK  InterFull: -25.8723\nREMARK  IntraFull: 270.309\nREMARK  solvFull: -1261.03\nREMARK  surfFull: 173.642\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1261.03\nREMARK  deltaGcompsolvnonpol: 173.642\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79443\nREMARK  deltaGligsolvnonpol: 12.8041\nREMARK  deltaGvdw: -25.8723\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.867972\nREMARK  Cluster: 2\nREMARK  ClusterRank: 8\n', 25), ({'deltaGligsolvpol': -4.79443, 'surfFull': 173.642, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.642, 'SimpleFitness': 234.757, 'InterFull': -25.8723, 'extraFull': 0.0, 'Energy': 234.757, 'solvFull': -1261.03, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 2, 'deltaGligsolvnonpol': 12.8041, 'deltaGcompsolvpol': -1261.03, 'FullFitness': -842.9513, 'deltaG': -6.867972, 'ClusterRank': 9, 'IntraFull': 270.309, 'deltaGvdw': -25.8723}, 'V', ['REMARK  Energy: 234.757\n', 'REMARK  SimpleFitness: 234.757\n', 'REMARK  FullFitness: -842.9513\n', 'REMARK  InterFull: -25.8723\n', 'REMARK  IntraFull: 270.309\n', 'REMARK  solvFull: -1261.03\n', 'REMARK  surfFull: 173.642\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1261.03\n', 'REMARK  deltaGcompsolvnonpol: 173.642\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79443\n', 'REMARK  deltaGligsolvnonpol: 12.8041\n', 'REMARK  deltaGvdw: -25.8723\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.867972\n', 'REMARK  Cluster: 2\n', 'REMARK  ClusterRank: 9\n'], ['ATOM   3191 C1   LIG     1      82.712   5.801  28.112  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      81.400   6.391  27.641  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      82.465   4.386  28.629  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      83.684   5.748  26.945  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.330   6.439  28.701  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      81.440   7.787  27.069  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      83.767   3.759  29.178  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.287   4.317  29.605  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      84.827   4.823  27.179  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.244   7.162  27.905  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.038   5.005  29.085  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.732   7.240  29.948  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.029   8.309  27.279  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      84.885   3.940  28.183  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      83.510   2.271  29.431  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.192   4.399  30.501  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      77.938   7.500  28.655  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      86.095   3.076  28.350  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      84.764   1.453  29.656  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.187   8.747  28.173  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      76.973   6.350  28.417  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      85.702   1.620  28.483  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.597  10.080  28.786  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      86.868   0.838  28.708  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      77.458  10.122  30.272  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      77.611  11.406  30.994  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.302  10.823  30.787  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      77.836  12.684  30.261  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      78.123  11.345  32.387  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      83.139   6.427  28.897  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.032   5.740  26.841  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      82.159   3.799  27.758  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      84.072   6.752  26.753  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      83.162   5.427  26.039  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      81.709   7.775  26.010  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      82.162   8.412  27.601  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.553   4.743  30.573  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.032   3.274  29.786  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      85.659   4.890  26.488  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.971   6.500  27.078  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      79.664   4.463  28.213  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.260   4.969  29.853  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.577   8.649  26.346  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.093   9.166  27.948  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      82.979   1.843  28.579  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      82.864   2.146  30.303  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.108   7.563  29.728  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      86.648   3.388  29.241  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      86.794   3.186  27.515  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      84.507   0.397  29.782  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.264   1.756  30.580  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.124   8.614  28.397  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      77.262   8.819  27.087  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      85.223   1.266  27.566  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.971  10.853  28.329  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.624  10.331  28.526  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      77.798   9.234  30.785  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      77.210  12.769  29.368  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      78.884  12.766  29.959  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      77.601  13.532  30.910  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      86.561  -0.042  28.985  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.364   5.407  28.802  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.783   6.227  27.347  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      76.015   6.536  28.904  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      80.874   8.305  29.753  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.659   6.881  30.397  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.957   7.154  30.714  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      84.299   5.483  30.410  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      85.150   4.010  30.856  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      83.463   4.196  31.289  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      79.212  11.255  32.380  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      77.710  10.491  32.933  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      77.861  12.259  32.925  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.26', True, 'REMARK  Energy: 234.757\nREMARK  SimpleFitness: 234.757\nREMARK  FullFitness: -842.9513\nREMARK  InterFull: -25.8723\nREMARK  IntraFull: 270.309\nREMARK  solvFull: -1261.03\nREMARK  surfFull: 173.642\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1261.03\nREMARK  deltaGcompsolvnonpol: 173.642\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79443\nREMARK  deltaGligsolvnonpol: 12.8041\nREMARK  deltaGvdw: -25.8723\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.867972\nREMARK  Cluster: 2\nREMARK  ClusterRank: 9\n', 26), ({'deltaGligsolvpol': -4.79443, 'surfFull': 173.642, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.642, 'SimpleFitness': 234.757, 'InterFull': -25.8723, 'extraFull': 0.0, 'Energy': 234.757, 'solvFull': -1261.03, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 2, 'deltaGligsolvnonpol': 12.8041, 'deltaGcompsolvpol': -1261.03, 'FullFitness': -842.9513, 'deltaG': -6.867972, 'ClusterRank': 10, 'IntraFull': 270.309, 'deltaGvdw': -25.8723}, 'V', ['REMARK  Energy: 234.757\n', 'REMARK  SimpleFitness: 234.757\n', 'REMARK  FullFitness: -842.9513\n', 'REMARK  InterFull: -25.8723\n', 'REMARK  IntraFull: 270.309\n', 'REMARK  solvFull: -1261.03\n', 'REMARK  surfFull: 173.642\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1261.03\n', 'REMARK  deltaGcompsolvnonpol: 173.642\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79443\n', 'REMARK  deltaGligsolvnonpol: 12.8041\n', 'REMARK  deltaGvdw: -25.8723\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.867972\n', 'REMARK  Cluster: 2\n', 'REMARK  ClusterRank: 10\n'], ['ATOM   3191 C1   LIG     1      82.712   5.801  28.112  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      81.400   6.391  27.641  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      82.465   4.386  28.629  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      83.684   5.748  26.945  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.330   6.439  28.701  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      81.440   7.787  27.069  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      83.767   3.759  29.178  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.287   4.317  29.605  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      84.827   4.823  27.179  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.244   7.162  27.905  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.038   5.005  29.085  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.732   7.240  29.948  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.029   8.309  27.279  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      84.885   3.940  28.183  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      83.510   2.271  29.431  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.192   4.399  30.501  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      77.938   7.500  28.655  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      86.095   3.076  28.350  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      84.764   1.453  29.656  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.187   8.747  28.173  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      76.973   6.350  28.417  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      85.702   1.620  28.483  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.597  10.080  28.786  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      86.868   0.838  28.708  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      77.458  10.122  30.272  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      77.611  11.406  30.994  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.302  10.823  30.787  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      77.836  12.684  30.261  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      78.123  11.345  32.387  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      83.139   6.427  28.897  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.032   5.740  26.841  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      82.159   3.799  27.758  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      84.072   6.752  26.753  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      83.162   5.427  26.039  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      81.709   7.775  26.010  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      82.162   8.412  27.601  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.553   4.743  30.573  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.032   3.274  29.786  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      85.659   4.890  26.488  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.971   6.500  27.078  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      79.664   4.463  28.213  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.260   4.969  29.853  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.577   8.649  26.346  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.093   9.166  27.948  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      82.979   1.843  28.579  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      82.864   2.146  30.303  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.108   7.563  29.728  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      86.648   3.388  29.241  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      86.794   3.186  27.515  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      84.507   0.397  29.782  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.264   1.756  30.580  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.124   8.614  28.397  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      77.262   8.819  27.087  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      85.223   1.266  27.566  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.971  10.853  28.329  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.624  10.331  28.526  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      77.798   9.234  30.785  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      77.210  12.769  29.368  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      78.884  12.766  29.959  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      77.601  13.532  30.910  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      86.561  -0.042  28.985  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.364   5.407  28.802  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.783   6.227  27.347  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      76.015   6.536  28.904  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      80.874   8.305  29.753  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.659   6.881  30.397  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.957   7.154  30.714  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      84.299   5.483  30.410  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      85.150   4.010  30.856  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      83.463   4.196  31.289  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      79.212  11.255  32.380  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      77.710  10.491  32.933  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      77.861  12.259  32.925  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.27', True, 'REMARK  Energy: 234.757\nREMARK  SimpleFitness: 234.757\nREMARK  FullFitness: -842.9513\nREMARK  InterFull: -25.8723\nREMARK  IntraFull: 270.309\nREMARK  solvFull: -1261.03\nREMARK  surfFull: 173.642\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1261.03\nREMARK  deltaGcompsolvnonpol: 173.642\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79443\nREMARK  deltaGligsolvnonpol: 12.8041\nREMARK  deltaGvdw: -25.8723\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.867972\nREMARK  Cluster: 2\nREMARK  ClusterRank: 10\n', 27), ({'deltaGligsolvpol': -4.79443, 'surfFull': 173.642, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.642, 'SimpleFitness': 234.757, 'InterFull': -25.8723, 'extraFull': 0.0, 'Energy': 234.757, 'solvFull': -1261.03, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 2, 'deltaGligsolvnonpol': 12.8041, 'deltaGcompsolvpol': -1261.03, 'FullFitness': -842.9513, 'deltaG': -6.867972, 'ClusterRank': 11, 'IntraFull': 270.309, 'deltaGvdw': -25.8723}, 'V', ['REMARK  Energy: 234.757\n', 'REMARK  SimpleFitness: 234.757\n', 'REMARK  FullFitness: -842.9513\n', 'REMARK  InterFull: -25.8723\n', 'REMARK  IntraFull: 270.309\n', 'REMARK  solvFull: -1261.03\n', 'REMARK  surfFull: 173.642\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1261.03\n', 'REMARK  deltaGcompsolvnonpol: 173.642\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79443\n', 'REMARK  deltaGligsolvnonpol: 12.8041\n', 'REMARK  deltaGvdw: -25.8723\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.867972\n', 'REMARK  Cluster: 2\n', 'REMARK  ClusterRank: 11\n'], ['ATOM   3191 C1   LIG     1      82.712   5.801  28.112  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      81.400   6.391  27.641  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      82.465   4.386  28.629  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      83.684   5.748  26.945  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.330   6.439  28.701  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      81.440   7.787  27.069  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      83.767   3.759  29.178  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.287   4.317  29.605  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      84.827   4.823  27.179  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.244   7.162  27.905  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.038   5.005  29.085  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.732   7.240  29.948  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.029   8.309  27.279  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      84.885   3.940  28.183  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      83.510   2.271  29.431  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.192   4.399  30.501  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      77.938   7.500  28.655  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      86.095   3.076  28.350  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      84.764   1.453  29.656  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.187   8.747  28.173  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      76.973   6.350  28.417  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      85.702   1.620  28.483  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.597  10.080  28.786  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      86.868   0.838  28.708  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      77.458  10.122  30.272  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      77.611  11.406  30.994  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.302  10.823  30.787  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      77.836  12.684  30.261  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      78.123  11.345  32.387  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      83.139   6.427  28.897  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.032   5.740  26.841  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      82.159   3.799  27.758  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      84.072   6.752  26.753  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      83.162   5.427  26.039  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      81.709   7.775  26.010  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      82.162   8.412  27.601  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.553   4.743  30.573  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.032   3.274  29.786  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      85.659   4.890  26.488  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.971   6.500  27.078  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      79.664   4.463  28.213  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.260   4.969  29.853  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.577   8.649  26.346  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.093   9.166  27.948  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      82.979   1.843  28.579  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      82.864   2.146  30.303  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.108   7.563  29.728  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      86.648   3.388  29.241  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      86.794   3.186  27.515  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      84.507   0.397  29.782  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.264   1.756  30.580  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.124   8.614  28.397  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      77.262   8.819  27.087  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      85.223   1.266  27.566  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.971  10.853  28.329  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.624  10.331  28.526  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      77.798   9.234  30.785  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      77.210  12.769  29.368  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      78.884  12.766  29.959  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      77.601  13.532  30.910  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      86.561  -0.042  28.985  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.364   5.407  28.802  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.783   6.227  27.347  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      76.015   6.536  28.904  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      80.874   8.305  29.753  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.659   6.881  30.397  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.957   7.154  30.714  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      84.299   5.483  30.410  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      85.150   4.010  30.856  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      83.463   4.196  31.289  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      79.212  11.255  32.380  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      77.710  10.491  32.933  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      77.861  12.259  32.925  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.28', True, 'REMARK  Energy: 234.757\nREMARK  SimpleFitness: 234.757\nREMARK  FullFitness: -842.9513\nREMARK  InterFull: -25.8723\nREMARK  IntraFull: 270.309\nREMARK  solvFull: -1261.03\nREMARK  surfFull: 173.642\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1261.03\nREMARK  deltaGcompsolvnonpol: 173.642\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79443\nREMARK  deltaGligsolvnonpol: 12.8041\nREMARK  deltaGvdw: -25.8723\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.867972\nREMARK  Cluster: 2\nREMARK  ClusterRank: 11\n', 28), ({'deltaGligsolvpol': -4.78992, 'surfFull': 174.014, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.014, 'SimpleFitness': 235.611, 'InterFull': -24.3907, 'extraFull': 0.0, 'Energy': 235.611, 'solvFull': -1262.32, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 2, 'deltaGligsolvnonpol': 12.7408, 'deltaGcompsolvpol': -1262.32, 'FullFitness': -842.5187, 'deltaG': -6.7658515, 'ClusterRank': 12, 'IntraFull': 270.178, 'deltaGvdw': -24.3907}, 'V', ['REMARK  Energy: 235.611\n', 'REMARK  SimpleFitness: 235.611\n', 'REMARK  FullFitness: -842.5187\n', 'REMARK  InterFull: -24.3907\n', 'REMARK  IntraFull: 270.178\n', 'REMARK  solvFull: -1262.32\n', 'REMARK  surfFull: 174.014\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.32\n', 'REMARK  deltaGcompsolvnonpol: 174.014\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.78992\n', 'REMARK  deltaGligsolvnonpol: 12.7408\n', 'REMARK  deltaGvdw: -24.3907\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.7658515\n', 'REMARK  Cluster: 2\n', 'REMARK  ClusterRank: 12\n'], ['ATOM   3191 C1   LIG     1      82.829   5.896  28.427  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      81.508   6.452  27.935  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      82.684   4.393  28.640  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      83.910   6.156  27.393  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.353   6.236  28.883  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      81.473   7.920  27.606  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      83.987   3.783  29.211  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.436   4.043  29.454  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      85.133   5.340  27.622  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.261   7.022  28.142  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.172   4.735  28.972  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.592   6.817  30.282  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.009   8.287  27.735  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      85.187   4.289  28.451  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      83.898   2.262  29.072  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.169   4.125  30.692  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      77.913   7.246  28.873  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      86.474   3.549  28.640  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      85.201   1.542  29.352  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.013   8.343  28.285  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.086   5.974  28.759  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      86.280   2.062  28.428  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.274   9.790  28.689  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      87.498   1.386  28.714  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      77.279  10.016  30.167  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      77.459  11.384  30.708  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.154  10.761  30.689  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      77.604  12.551  29.793  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      78.058  11.528  32.061  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      83.116   6.385  29.360  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.266   5.924  27.007  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      82.525   3.961  27.647  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      84.185   7.214  27.415  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      83.530   5.939  26.391  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      81.848   8.115  26.598  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      82.073   8.497  28.316  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.572   4.284  30.509  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.265   2.967  29.403  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      86.028   5.635  27.088  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.044   6.478  27.218  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      79.898   4.350  27.989  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.365   4.486  29.662  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.617   8.703  26.803  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.925   9.053  28.509  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      83.598   2.013  28.053  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      83.131   1.862  29.740  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.070   7.445  29.931  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      86.855   3.728  29.650  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      87.257   3.911  27.965  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      85.073   0.466  29.205  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.504   1.673  30.395  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      75.980   8.130  28.576  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      77.038   8.276  27.198  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      86.012   1.858  27.387  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.498  10.405  28.222  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.216  10.142  28.270  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      77.682   9.206  30.756  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      76.891  12.520  28.964  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      78.616  12.583  29.380  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      77.432  13.479  30.344  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      87.288   0.437  28.736  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.493   5.174  29.376  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      77.049   5.630  27.722  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      76.059   6.137  29.093  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      80.665   7.907  30.283  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.504   6.438  30.746  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.766   6.545  30.945  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      84.092   5.201  30.868  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      85.141   3.804  31.077  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      83.415   3.626  31.305  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      79.145  11.604  31.983  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      77.816  10.675  32.702  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      77.684  12.436  32.542  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.29', True, 'REMARK  Energy: 235.611\nREMARK  SimpleFitness: 235.611\nREMARK  FullFitness: -842.5187\nREMARK  InterFull: -24.3907\nREMARK  IntraFull: 270.178\nREMARK  solvFull: -1262.32\nREMARK  surfFull: 174.014\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.32\nREMARK  deltaGcompsolvnonpol: 174.014\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.78992\nREMARK  deltaGligsolvnonpol: 12.7408\nREMARK  deltaGvdw: -24.3907\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.7658515\nREMARK  Cluster: 2\nREMARK  ClusterRank: 12\n', 29), ({'deltaGligsolvpol': -4.79161, 'surfFull': 174.239, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.239, 'SimpleFitness': 235.528, 'InterFull': -23.1217, 'extraFull': 0.0, 'Energy': 235.528, 'solvFull': -1262.59, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 2, 'deltaGligsolvnonpol': 12.7031, 'deltaGcompsolvpol': -1262.59, 'FullFitness': -842.42664, 'deltaG': -6.6373754, 'ClusterRank': 13, 'IntraFull': 269.046, 'deltaGvdw': -23.1217}, 'V', ['REMARK  Energy: 235.528\n', 'REMARK  SimpleFitness: 235.528\n', 'REMARK  FullFitness: -842.42664\n', 'REMARK  InterFull: -23.1217\n', 'REMARK  IntraFull: 269.046\n', 'REMARK  solvFull: -1262.59\n', 'REMARK  surfFull: 174.239\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.59\n', 'REMARK  deltaGcompsolvnonpol: 174.239\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79161\n', 'REMARK  deltaGligsolvnonpol: 12.7031\n', 'REMARK  deltaGvdw: -23.1217\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.6373754\n', 'REMARK  Cluster: 2\n', 'REMARK  ClusterRank: 13\n'], ['ATOM   3191 C1   LIG     1      83.018   5.893  28.802  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      81.726   6.511  28.304  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      82.903   4.375  28.725  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      84.171   6.356  27.929  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.499   6.110  29.089  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      81.674   8.011  28.254  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      84.173   3.687  29.276  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.608   3.873  29.364  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      85.395   5.528  28.103  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.440   6.993  28.408  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.375   4.613  28.878  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.596   6.438  30.583  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.190   8.310  28.224  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      85.414   4.342  28.724  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      84.136   2.220  28.844  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.230   3.749  30.805  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      78.067   7.156  29.108  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      86.702   3.597  28.879  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      85.431   1.476  29.094  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.096   8.118  28.405  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.337   5.824  29.142  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      86.569   2.172  28.381  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.263   9.615  28.647  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      87.777   1.470  28.644  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      77.255   9.995  30.095  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      77.377  11.416  30.493  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.099  10.742  30.535  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      77.486  12.483  29.458  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      77.956  11.726  31.826  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      83.212   6.206  29.830  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.580   6.164  27.276  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      82.829   4.129  27.661  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      84.412   7.395  28.168  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      83.879   6.325  26.876  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      82.182   8.409  27.371  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      82.134   8.449  29.143  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.649   3.952  30.451  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.474   2.813  29.139  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      86.319   5.931  27.708  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.259   6.579  27.412  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.235   4.420  27.813  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.509   4.209  29.401  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.908   8.788  27.282  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.961   9.006  29.035  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      83.919   2.167  27.774  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      83.330   1.692  29.361  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.206   7.481  30.138  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      86.996   3.590  29.932  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      87.525   4.089  28.349  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      85.345   0.445  28.738  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.643   1.410  30.164  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.079   7.873  28.722  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      77.128   7.931  27.332  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      86.395   2.162  27.301  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.451  10.128  28.124  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.182   9.975  28.185  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      77.684   9.268  30.767  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      76.751  12.361  28.657  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      78.486  12.477  29.016  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      77.324  13.463  29.915  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      87.591   0.530  28.481  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.777   5.158  29.886  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      77.378   5.338  28.164  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      76.288   5.950  29.411  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      80.614   7.514  30.774  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.486   6.017  31.053  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.734   6.027  31.114  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      84.121   4.774  31.169  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      85.173   3.365  31.203  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      83.438   3.144  31.253  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      79.038  11.851  31.744  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      77.756  10.927  32.547  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      77.530  12.654  32.215  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.30', True, 'REMARK  Energy: 235.528\nREMARK  SimpleFitness: 235.528\nREMARK  FullFitness: -842.42664\nREMARK  InterFull: -23.1217\nREMARK  IntraFull: 269.046\nREMARK  solvFull: -1262.59\nREMARK  surfFull: 174.239\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.59\nREMARK  deltaGcompsolvnonpol: 174.239\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79161\nREMARK  deltaGligsolvnonpol: 12.7031\nREMARK  deltaGvdw: -23.1217\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.6373754\nREMARK  Cluster: 2\nREMARK  ClusterRank: 13\n', 30), ({'deltaGligsolvpol': -4.79161, 'surfFull': 174.239, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.239, 'SimpleFitness': 235.528, 'InterFull': -23.1217, 'extraFull': 0.0, 'Energy': 235.528, 'solvFull': -1262.59, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 2, 'deltaGligsolvnonpol': 12.7031, 'deltaGcompsolvpol': -1262.59, 'FullFitness': -842.42664, 'deltaG': -6.6373754, 'ClusterRank': 14, 'IntraFull': 269.046, 'deltaGvdw': -23.1217}, 'V', ['REMARK  Energy: 235.528\n', 'REMARK  SimpleFitness: 235.528\n', 'REMARK  FullFitness: -842.42664\n', 'REMARK  InterFull: -23.1217\n', 'REMARK  IntraFull: 269.046\n', 'REMARK  solvFull: -1262.59\n', 'REMARK  surfFull: 174.239\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.59\n', 'REMARK  deltaGcompsolvnonpol: 174.239\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79161\n', 'REMARK  deltaGligsolvnonpol: 12.7031\n', 'REMARK  deltaGvdw: -23.1217\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.6373754\n', 'REMARK  Cluster: 2\n', 'REMARK  ClusterRank: 14\n'], ['ATOM   3191 C1   LIG     1      83.018   5.893  28.802  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      81.726   6.511  28.304  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      82.903   4.375  28.725  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      84.171   6.356  27.929  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.499   6.110  29.089  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      81.674   8.011  28.254  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      84.173   3.687  29.276  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.608   3.873  29.364  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      85.395   5.528  28.103  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.440   6.993  28.408  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.375   4.613  28.878  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.596   6.438  30.583  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.190   8.310  28.224  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      85.414   4.342  28.724  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      84.136   2.220  28.844  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.230   3.749  30.805  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      78.067   7.156  29.108  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      86.702   3.597  28.879  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      85.431   1.476  29.094  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.096   8.118  28.405  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.337   5.824  29.142  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      86.569   2.172  28.381  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.263   9.615  28.647  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      87.777   1.470  28.644  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      77.255   9.995  30.095  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      77.377  11.416  30.493  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.099  10.742  30.535  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      77.486  12.483  29.458  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      77.956  11.726  31.826  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      83.212   6.206  29.830  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.580   6.164  27.276  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      82.829   4.129  27.661  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      84.412   7.395  28.168  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      83.879   6.325  26.876  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      82.182   8.409  27.371  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      82.134   8.449  29.143  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.649   3.952  30.451  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.474   2.813  29.139  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      86.319   5.931  27.708  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.259   6.579  27.412  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.235   4.420  27.813  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.509   4.209  29.401  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.908   8.788  27.282  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.961   9.006  29.035  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      83.919   2.167  27.774  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      83.330   1.692  29.361  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.206   7.481  30.138  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      86.996   3.590  29.932  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      87.525   4.089  28.349  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      85.345   0.445  28.738  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.643   1.410  30.164  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.079   7.873  28.722  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      77.128   7.931  27.332  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      86.395   2.162  27.301  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.451  10.128  28.124  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.182   9.975  28.185  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      77.684   9.268  30.767  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      76.751  12.361  28.657  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      78.486  12.477  29.016  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      77.324  13.463  29.915  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      87.591   0.530  28.481  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.777   5.158  29.886  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      77.378   5.338  28.164  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      76.288   5.950  29.411  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      80.614   7.514  30.774  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.486   6.017  31.053  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.734   6.027  31.114  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      84.121   4.774  31.169  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      85.173   3.365  31.203  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      83.438   3.144  31.253  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      79.038  11.851  31.744  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      77.756  10.927  32.547  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      77.530  12.654  32.215  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.31', True, 'REMARK  Energy: 235.528\nREMARK  SimpleFitness: 235.528\nREMARK  FullFitness: -842.42664\nREMARK  InterFull: -23.1217\nREMARK  IntraFull: 269.046\nREMARK  solvFull: -1262.59\nREMARK  surfFull: 174.239\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.59\nREMARK  deltaGcompsolvnonpol: 174.239\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79161\nREMARK  deltaGligsolvnonpol: 12.7031\nREMARK  deltaGvdw: -23.1217\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.6373754\nREMARK  Cluster: 2\nREMARK  ClusterRank: 14\n', 31), ({'deltaGligsolvpol': -4.79161, 'surfFull': 174.239, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.239, 'SimpleFitness': 235.528, 'InterFull': -23.1217, 'extraFull': 0.0, 'Energy': 235.528, 'solvFull': -1262.59, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 2, 'deltaGligsolvnonpol': 12.7031, 'deltaGcompsolvpol': -1262.59, 'FullFitness': -842.42664, 'deltaG': -6.6373754, 'ClusterRank': 15, 'IntraFull': 269.046, 'deltaGvdw': -23.1217}, 'V', ['REMARK  Energy: 235.528\n', 'REMARK  SimpleFitness: 235.528\n', 'REMARK  FullFitness: -842.42664\n', 'REMARK  InterFull: -23.1217\n', 'REMARK  IntraFull: 269.046\n', 'REMARK  solvFull: -1262.59\n', 'REMARK  surfFull: 174.239\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.59\n', 'REMARK  deltaGcompsolvnonpol: 174.239\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79161\n', 'REMARK  deltaGligsolvnonpol: 12.7031\n', 'REMARK  deltaGvdw: -23.1217\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.6373754\n', 'REMARK  Cluster: 2\n', 'REMARK  ClusterRank: 15\n'], ['ATOM   3191 C1   LIG     1      83.018   5.893  28.802  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      81.726   6.511  28.304  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      82.903   4.375  28.725  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      84.171   6.356  27.929  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.499   6.110  29.089  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      81.674   8.011  28.254  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      84.173   3.687  29.276  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.608   3.873  29.364  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      85.395   5.528  28.103  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.440   6.993  28.408  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.375   4.613  28.878  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.596   6.438  30.583  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.190   8.310  28.224  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      85.414   4.342  28.724  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      84.136   2.220  28.844  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.230   3.749  30.805  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      78.067   7.156  29.108  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      86.702   3.597  28.879  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      85.431   1.476  29.094  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.096   8.118  28.405  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.337   5.824  29.142  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      86.569   2.172  28.381  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.263   9.615  28.647  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      87.777   1.470  28.644  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      77.255   9.995  30.095  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      77.377  11.416  30.493  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.099  10.742  30.535  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      77.486  12.483  29.458  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      77.956  11.726  31.826  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      83.212   6.206  29.830  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.580   6.164  27.276  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      82.829   4.129  27.661  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      84.412   7.395  28.168  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      83.879   6.325  26.876  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      82.182   8.409  27.371  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      82.134   8.449  29.143  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.649   3.952  30.451  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.474   2.813  29.139  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      86.319   5.931  27.708  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.259   6.579  27.412  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.235   4.420  27.813  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.509   4.209  29.401  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.908   8.788  27.282  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.961   9.006  29.035  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      83.919   2.167  27.774  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      83.330   1.692  29.361  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.206   7.481  30.138  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      86.996   3.590  29.932  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      87.525   4.089  28.349  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      85.345   0.445  28.738  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.643   1.410  30.164  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.079   7.873  28.722  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      77.128   7.931  27.332  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      86.395   2.162  27.301  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.451  10.128  28.124  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.182   9.975  28.185  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      77.684   9.268  30.767  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      76.751  12.361  28.657  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      78.486  12.477  29.016  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      77.324  13.463  29.915  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      87.591   0.530  28.481  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.777   5.158  29.886  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      77.378   5.338  28.164  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      76.288   5.950  29.411  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      80.614   7.514  30.774  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.486   6.017  31.053  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.734   6.027  31.114  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      84.121   4.774  31.169  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      85.173   3.365  31.203  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      83.438   3.144  31.253  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      79.038  11.851  31.744  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      77.756  10.927  32.547  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      77.530  12.654  32.215  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.32', True, 'REMARK  Energy: 235.528\nREMARK  SimpleFitness: 235.528\nREMARK  FullFitness: -842.42664\nREMARK  InterFull: -23.1217\nREMARK  IntraFull: 269.046\nREMARK  solvFull: -1262.59\nREMARK  surfFull: 174.239\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.59\nREMARK  deltaGcompsolvnonpol: 174.239\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79161\nREMARK  deltaGligsolvnonpol: 12.7031\nREMARK  deltaGvdw: -23.1217\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.6373754\nREMARK  Cluster: 2\nREMARK  ClusterRank: 15\n', 32), ({'deltaGligsolvpol': -4.81938, 'surfFull': 173.051, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.051, 'SimpleFitness': 227.075, 'InterFull': -28.4559, 'extraFull': 0.0, 'Energy': 227.075, 'solvFull': -1254.44, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 3, 'deltaGligsolvnonpol': 12.7181, 'deltaGcompsolvpol': -1254.44, 'FullFitness': -845.6278, 'deltaG': -6.755314, 'ClusterRank': 0, 'IntraFull': 264.217, 'deltaGvdw': -28.4559}, 'V', ['REMARK  Energy: 227.075\n', 'REMARK  SimpleFitness: 227.075\n', 'REMARK  FullFitness: -845.6278\n', 'REMARK  InterFull: -28.4559\n', 'REMARK  IntraFull: 264.217\n', 'REMARK  solvFull: -1254.44\n', 'REMARK  surfFull: 173.051\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1254.44\n', 'REMARK  deltaGcompsolvnonpol: 173.051\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.81938\n', 'REMARK  deltaGligsolvnonpol: 12.7181\n', 'REMARK  deltaGvdw: -28.4559\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.755314\n', 'REMARK  Cluster: 3\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      62.101  -3.818  27.031  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      63.489  -4.291  27.404  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      61.974  -3.836  25.511  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      61.077  -4.757  27.645  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.605  -3.442  26.848  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      63.787  -4.413  28.871  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      60.580  -3.340  25.061  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      63.143  -3.107  24.837  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      59.731  -4.629  27.031  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      65.805  -4.134  27.506  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      64.502  -3.575  25.338  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      64.525  -1.974  27.275  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.299  -4.460  28.911  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      59.490  -3.979  25.886  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      60.403  -3.735  23.596  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      60.455  -1.819  25.179  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      67.152  -3.385  27.579  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      58.091  -3.895  25.362  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      58.987  -3.578  23.081  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      68.205  -4.164  28.370  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      67.717  -3.056  26.209  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      58.029  -4.380  23.929  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      68.615  -5.474  27.714  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      56.710  -4.200  23.430  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      69.422  -6.305  28.650  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      68.930  -7.558  29.284  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.774  -7.602  28.110  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      67.543  -8.057  29.059  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      69.604  -8.023  30.525  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      61.928  -2.810  27.414  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      63.606  -5.296  26.984  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      62.062  -4.885  25.213  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      60.996  -4.554  28.717  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      61.407  -5.794  27.535  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.345  -5.311  29.311  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      63.414  -3.543  29.418  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      63.072  -2.030  24.992  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      63.105  -3.267  23.757  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      58.906  -5.095  27.556  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      65.946  -5.078  26.974  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.652  -4.619  25.052  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      65.282  -2.992  24.846  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.645  -5.450  29.218  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      65.664  -3.738  29.648  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      60.691  -4.782  23.473  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      61.068  -3.141  22.963  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.010  -2.445  28.117  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      57.741  -2.860  25.415  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      57.387  -4.475  25.970  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      58.929  -3.908  22.040  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      58.691  -2.526  23.080  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      67.866  -4.343  29.394  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      69.099  -3.542  28.468  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      58.276  -5.444  23.870  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      69.228  -5.262  26.834  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      67.740  -6.021  27.365  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      70.180  -5.737  29.168  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.248  -7.996  28.008  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      66.830  -7.478  29.654  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.472  -9.106  29.362  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      56.750  -4.375  22.474  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      67.131  -2.270  25.729  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      67.710  -3.931  25.553  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      68.746  -2.696  26.293  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.677  -1.854  28.349  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      63.567  -1.511  27.032  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      65.298  -1.390  26.769  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      60.697  -1.473  26.188  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      59.445  -1.468  24.951  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      61.122  -1.310  24.478  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      69.172  -7.528  31.399  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      70.677  -7.807  30.505  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      69.478  -9.103  30.638  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.33', True, 'REMARK  Energy: 227.075\nREMARK  SimpleFitness: 227.075\nREMARK  FullFitness: -845.6278\nREMARK  InterFull: -28.4559\nREMARK  IntraFull: 264.217\nREMARK  solvFull: -1254.44\nREMARK  surfFull: 173.051\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1254.44\nREMARK  deltaGcompsolvnonpol: 173.051\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.81938\nREMARK  deltaGligsolvnonpol: 12.7181\nREMARK  deltaGvdw: -28.4559\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.755314\nREMARK  Cluster: 3\nREMARK  ClusterRank: 0\n', 33), ({'deltaGligsolvpol': -4.81938, 'surfFull': 173.051, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.051, 'SimpleFitness': 227.075, 'InterFull': -28.4559, 'extraFull': 0.0, 'Energy': 227.075, 'solvFull': -1254.44, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 3, 'deltaGligsolvnonpol': 12.7181, 'deltaGcompsolvpol': -1254.44, 'FullFitness': -845.6278, 'deltaG': -6.755314, 'ClusterRank': 1, 'IntraFull': 264.217, 'deltaGvdw': -28.4559}, 'V', ['REMARK  Energy: 227.075\n', 'REMARK  SimpleFitness: 227.075\n', 'REMARK  FullFitness: -845.6278\n', 'REMARK  InterFull: -28.4559\n', 'REMARK  IntraFull: 264.217\n', 'REMARK  solvFull: -1254.44\n', 'REMARK  surfFull: 173.051\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1254.44\n', 'REMARK  deltaGcompsolvnonpol: 173.051\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.81938\n', 'REMARK  deltaGligsolvnonpol: 12.7181\n', 'REMARK  deltaGvdw: -28.4559\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.755314\n', 'REMARK  Cluster: 3\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      62.101  -3.818  27.031  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      63.489  -4.291  27.404  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      61.974  -3.836  25.511  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      61.077  -4.757  27.645  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.605  -3.442  26.848  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      63.787  -4.413  28.871  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      60.580  -3.340  25.061  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      63.143  -3.107  24.837  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      59.731  -4.629  27.031  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      65.805  -4.134  27.506  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      64.502  -3.575  25.338  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      64.525  -1.974  27.275  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.299  -4.460  28.911  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      59.490  -3.979  25.886  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      60.403  -3.735  23.596  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      60.455  -1.819  25.179  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      67.152  -3.385  27.579  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      58.091  -3.895  25.362  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      58.987  -3.578  23.081  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      68.205  -4.164  28.370  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      67.717  -3.056  26.209  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      58.029  -4.380  23.929  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      68.615  -5.474  27.714  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      56.710  -4.200  23.430  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      69.422  -6.305  28.650  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      68.930  -7.558  29.284  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.774  -7.602  28.110  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      67.543  -8.057  29.059  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      69.604  -8.023  30.525  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      61.928  -2.810  27.414  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      63.606  -5.296  26.984  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      62.062  -4.885  25.213  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      60.996  -4.554  28.717  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      61.407  -5.794  27.535  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.345  -5.311  29.311  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      63.414  -3.543  29.418  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      63.072  -2.030  24.992  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      63.105  -3.267  23.757  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      58.906  -5.095  27.556  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      65.946  -5.078  26.974  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.652  -4.619  25.052  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      65.282  -2.992  24.846  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.645  -5.450  29.218  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      65.664  -3.738  29.648  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      60.691  -4.782  23.473  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      61.068  -3.141  22.963  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.010  -2.445  28.117  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      57.741  -2.860  25.415  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      57.387  -4.475  25.970  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      58.929  -3.908  22.040  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      58.691  -2.526  23.080  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      67.866  -4.343  29.394  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      69.099  -3.542  28.468  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      58.276  -5.444  23.870  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      69.228  -5.262  26.834  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      67.740  -6.021  27.365  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      70.180  -5.737  29.168  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.248  -7.996  28.008  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      66.830  -7.478  29.654  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.472  -9.106  29.362  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      56.750  -4.375  22.474  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      67.131  -2.270  25.729  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      67.710  -3.931  25.553  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      68.746  -2.696  26.293  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.677  -1.854  28.349  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      63.567  -1.511  27.032  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      65.298  -1.390  26.769  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      60.697  -1.473  26.188  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      59.445  -1.468  24.951  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      61.122  -1.310  24.478  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      69.172  -7.528  31.399  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      70.677  -7.807  30.505  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      69.478  -9.103  30.638  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.34', True, 'REMARK  Energy: 227.075\nREMARK  SimpleFitness: 227.075\nREMARK  FullFitness: -845.6278\nREMARK  InterFull: -28.4559\nREMARK  IntraFull: 264.217\nREMARK  solvFull: -1254.44\nREMARK  surfFull: 173.051\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1254.44\nREMARK  deltaGcompsolvnonpol: 173.051\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.81938\nREMARK  deltaGligsolvnonpol: 12.7181\nREMARK  deltaGvdw: -28.4559\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.755314\nREMARK  Cluster: 3\nREMARK  ClusterRank: 1\n', 34), ({'deltaGligsolvpol': -4.81938, 'surfFull': 173.051, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.051, 'SimpleFitness': 227.075, 'InterFull': -28.4559, 'extraFull': 0.0, 'Energy': 227.075, 'solvFull': -1254.44, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 3, 'deltaGligsolvnonpol': 12.7181, 'deltaGcompsolvpol': -1254.44, 'FullFitness': -845.6278, 'deltaG': -6.755314, 'ClusterRank': 2, 'IntraFull': 264.217, 'deltaGvdw': -28.4559}, 'V', ['REMARK  Energy: 227.075\n', 'REMARK  SimpleFitness: 227.075\n', 'REMARK  FullFitness: -845.6278\n', 'REMARK  InterFull: -28.4559\n', 'REMARK  IntraFull: 264.217\n', 'REMARK  solvFull: -1254.44\n', 'REMARK  surfFull: 173.051\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1254.44\n', 'REMARK  deltaGcompsolvnonpol: 173.051\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.81938\n', 'REMARK  deltaGligsolvnonpol: 12.7181\n', 'REMARK  deltaGvdw: -28.4559\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.755314\n', 'REMARK  Cluster: 3\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      62.101  -3.818  27.031  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      63.489  -4.291  27.404  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      61.974  -3.836  25.511  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      61.077  -4.757  27.645  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.605  -3.442  26.848  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      63.787  -4.413  28.871  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      60.580  -3.340  25.061  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      63.143  -3.107  24.837  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      59.731  -4.629  27.031  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      65.805  -4.134  27.506  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      64.502  -3.575  25.338  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      64.525  -1.974  27.275  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.299  -4.460  28.911  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      59.490  -3.979  25.886  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      60.403  -3.735  23.596  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      60.455  -1.819  25.179  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      67.152  -3.385  27.579  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      58.091  -3.895  25.362  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      58.987  -3.578  23.081  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      68.205  -4.164  28.370  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      67.717  -3.056  26.209  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      58.029  -4.380  23.929  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      68.615  -5.474  27.714  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      56.710  -4.200  23.430  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      69.422  -6.305  28.650  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      68.930  -7.558  29.284  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.774  -7.602  28.110  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      67.543  -8.057  29.059  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      69.604  -8.023  30.525  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      61.928  -2.810  27.414  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      63.606  -5.296  26.984  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      62.062  -4.885  25.213  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      60.996  -4.554  28.717  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      61.407  -5.794  27.535  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.345  -5.311  29.311  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      63.414  -3.543  29.418  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      63.072  -2.030  24.992  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      63.105  -3.267  23.757  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      58.906  -5.095  27.556  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      65.946  -5.078  26.974  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.652  -4.619  25.052  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      65.282  -2.992  24.846  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.645  -5.450  29.218  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      65.664  -3.738  29.648  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      60.691  -4.782  23.473  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      61.068  -3.141  22.963  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.010  -2.445  28.117  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      57.741  -2.860  25.415  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      57.387  -4.475  25.970  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      58.929  -3.908  22.040  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      58.691  -2.526  23.080  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      67.866  -4.343  29.394  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      69.099  -3.542  28.468  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      58.276  -5.444  23.870  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      69.228  -5.262  26.834  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      67.740  -6.021  27.365  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      70.180  -5.737  29.168  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.248  -7.996  28.008  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      66.830  -7.478  29.654  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.472  -9.106  29.362  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      56.750  -4.375  22.474  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      67.131  -2.270  25.729  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      67.710  -3.931  25.553  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      68.746  -2.696  26.293  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.677  -1.854  28.349  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      63.567  -1.511  27.032  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      65.298  -1.390  26.769  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      60.697  -1.473  26.188  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      59.445  -1.468  24.951  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      61.122  -1.310  24.478  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      69.172  -7.528  31.399  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      70.677  -7.807  30.505  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      69.478  -9.103  30.638  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.35', True, 'REMARK  Energy: 227.075\nREMARK  SimpleFitness: 227.075\nREMARK  FullFitness: -845.6278\nREMARK  InterFull: -28.4559\nREMARK  IntraFull: 264.217\nREMARK  solvFull: -1254.44\nREMARK  surfFull: 173.051\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1254.44\nREMARK  deltaGcompsolvnonpol: 173.051\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.81938\nREMARK  deltaGligsolvnonpol: 12.7181\nREMARK  deltaGvdw: -28.4559\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.755314\nREMARK  Cluster: 3\nREMARK  ClusterRank: 2\n', 35), ({'deltaGligsolvpol': -4.81938, 'surfFull': 173.051, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.051, 'SimpleFitness': 227.075, 'InterFull': -28.4559, 'extraFull': 0.0, 'Energy': 227.075, 'solvFull': -1254.44, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 3, 'deltaGligsolvnonpol': 12.7181, 'deltaGcompsolvpol': -1254.44, 'FullFitness': -845.6278, 'deltaG': -6.755314, 'ClusterRank': 3, 'IntraFull': 264.217, 'deltaGvdw': -28.4559}, 'V', ['REMARK  Energy: 227.075\n', 'REMARK  SimpleFitness: 227.075\n', 'REMARK  FullFitness: -845.6278\n', 'REMARK  InterFull: -28.4559\n', 'REMARK  IntraFull: 264.217\n', 'REMARK  solvFull: -1254.44\n', 'REMARK  surfFull: 173.051\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1254.44\n', 'REMARK  deltaGcompsolvnonpol: 173.051\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.81938\n', 'REMARK  deltaGligsolvnonpol: 12.7181\n', 'REMARK  deltaGvdw: -28.4559\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.755314\n', 'REMARK  Cluster: 3\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      62.101  -3.818  27.031  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      63.489  -4.291  27.404  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      61.974  -3.836  25.511  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      61.077  -4.757  27.645  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.605  -3.442  26.848  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      63.787  -4.413  28.871  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      60.580  -3.340  25.061  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      63.143  -3.107  24.837  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      59.731  -4.629  27.031  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      65.805  -4.134  27.506  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      64.502  -3.575  25.338  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      64.525  -1.974  27.275  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.299  -4.460  28.911  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      59.490  -3.979  25.886  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      60.403  -3.735  23.596  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      60.455  -1.819  25.179  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      67.152  -3.385  27.579  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      58.091  -3.895  25.362  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      58.987  -3.578  23.081  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      68.205  -4.164  28.370  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      67.717  -3.056  26.209  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      58.029  -4.380  23.929  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      68.615  -5.474  27.714  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      56.710  -4.200  23.430  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      69.422  -6.305  28.650  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      68.930  -7.558  29.284  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.774  -7.602  28.110  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      67.543  -8.057  29.059  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      69.604  -8.023  30.525  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      61.928  -2.810  27.414  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      63.606  -5.296  26.984  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      62.062  -4.885  25.213  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      60.996  -4.554  28.717  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      61.407  -5.794  27.535  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.345  -5.311  29.311  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      63.414  -3.543  29.418  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      63.072  -2.030  24.992  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      63.105  -3.267  23.757  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      58.906  -5.095  27.556  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      65.946  -5.078  26.974  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.652  -4.619  25.052  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      65.282  -2.992  24.846  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.645  -5.450  29.218  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      65.664  -3.738  29.648  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      60.691  -4.782  23.473  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      61.068  -3.141  22.963  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.010  -2.445  28.117  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      57.741  -2.860  25.415  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      57.387  -4.475  25.970  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      58.929  -3.908  22.040  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      58.691  -2.526  23.080  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      67.866  -4.343  29.394  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      69.099  -3.542  28.468  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      58.276  -5.444  23.870  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      69.228  -5.262  26.834  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      67.740  -6.021  27.365  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      70.180  -5.737  29.168  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.248  -7.996  28.008  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      66.830  -7.478  29.654  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.472  -9.106  29.362  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      56.750  -4.375  22.474  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      67.131  -2.270  25.729  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      67.710  -3.931  25.553  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      68.746  -2.696  26.293  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.677  -1.854  28.349  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      63.567  -1.511  27.032  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      65.298  -1.390  26.769  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      60.697  -1.473  26.188  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      59.445  -1.468  24.951  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      61.122  -1.310  24.478  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      69.172  -7.528  31.399  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      70.677  -7.807  30.505  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      69.478  -9.103  30.638  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.36', True, 'REMARK  Energy: 227.075\nREMARK  SimpleFitness: 227.075\nREMARK  FullFitness: -845.6278\nREMARK  InterFull: -28.4559\nREMARK  IntraFull: 264.217\nREMARK  solvFull: -1254.44\nREMARK  surfFull: 173.051\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1254.44\nREMARK  deltaGcompsolvnonpol: 173.051\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.81938\nREMARK  deltaGligsolvnonpol: 12.7181\nREMARK  deltaGvdw: -28.4559\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.755314\nREMARK  Cluster: 3\nREMARK  ClusterRank: 3\n', 36), ({'deltaGligsolvpol': -4.78969, 'surfFull': 171.955, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.955, 'SimpleFitness': 227.582, 'InterFull': -33.3799, 'extraFull': 0.0, 'Energy': 227.582, 'solvFull': -1252.51, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 3, 'deltaGligsolvnonpol': 12.4884, 'deltaGcompsolvpol': -1252.51, 'FullFitness': -845.4699, 'deltaG': -7.186781, 'ClusterRank': 4, 'IntraFull': 268.465, 'deltaGvdw': -33.3799}, 'V', ['REMARK  Energy: 227.582\n', 'REMARK  SimpleFitness: 227.582\n', 'REMARK  FullFitness: -845.4699\n', 'REMARK  InterFull: -33.3799\n', 'REMARK  IntraFull: 268.465\n', 'REMARK  solvFull: -1252.51\n', 'REMARK  surfFull: 171.955\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.51\n', 'REMARK  deltaGcompsolvnonpol: 171.955\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.78969\n', 'REMARK  deltaGligsolvnonpol: 12.4884\n', 'REMARK  deltaGvdw: -33.3799\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.186781\n', 'REMARK  Cluster: 3\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      63.331  -4.248  27.732  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.448  -5.233  28.007  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      63.614  -3.595  26.385  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      62.014  -5.002  27.688  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      65.819  -4.612  28.099  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.323  -6.080  29.242  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      62.507  -2.599  25.982  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      65.023  -2.994  26.353  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      60.928  -4.230  27.035  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.636  -5.861  28.455  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      66.091  -4.003  26.734  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      65.927  -3.550  29.199  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.730  -6.604  29.436  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      61.134  -3.143  26.286  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      62.632  -2.386  24.474  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      62.673  -1.256  26.696  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      68.048  -5.682  29.040  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      59.973  -2.430  25.673  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      61.476  -1.624  23.867  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      68.686  -7.018  29.427  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      68.982  -4.940  28.101  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      60.159  -2.301  24.177  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      69.167  -7.843  28.233  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      59.101  -1.512  23.646  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      69.432  -9.289  28.535  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      70.662  -9.751  29.234  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.395  -9.687  29.926  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      71.680  -8.808  29.750  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      71.155 -11.130  28.997  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      63.278  -3.488  28.515  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.468  -5.930  27.163  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      63.609  -4.406  25.649  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      61.706  -5.248  28.708  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      62.139  -5.946  27.150  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.605  -6.895  29.116  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      64.015  -5.478  30.101  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      65.100  -2.140  27.028  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      65.249  -2.620  25.351  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      59.915  -4.585  27.185  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.709  -6.468  27.549  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      66.106  -4.793  25.982  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.066  -3.513  26.714  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.769  -7.681  29.251  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      66.039  -6.436  30.472  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      62.699  -3.357  23.974  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      63.555  -1.847  24.246  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.970  -5.105  29.965  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      59.868  -1.437  26.120  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      59.025  -2.940  25.874  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      61.609  -1.571  22.784  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      61.462  -0.591  24.226  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      68.008  -7.607  30.047  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      69.544  -6.801  30.065  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      60.128  -3.285  23.700  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      70.070  -7.400  27.804  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      68.407  -7.814  27.451  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.989  -9.950  27.800  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      71.242  -7.928  30.220  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      72.321  -8.480  28.929  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      72.303  -9.307  30.495  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      58.274  -1.910  23.968  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      68.723  -3.880  28.053  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      68.934  -5.347  27.088  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      70.012  -5.009  28.457  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      65.812  -3.973  30.199  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      65.181  -2.760  29.096  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      66.906  -3.065  29.161  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      62.745  -1.392  27.779  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      61.840  -0.573  26.509  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      63.573  -0.736  26.358  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      72.143 -11.103  28.531  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      70.485 -11.671  28.327  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      71.233 -11.679  29.939  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.37', True, 'REMARK  Energy: 227.582\nREMARK  SimpleFitness: 227.582\nREMARK  FullFitness: -845.4699\nREMARK  InterFull: -33.3799\nREMARK  IntraFull: 268.465\nREMARK  solvFull: -1252.51\nREMARK  surfFull: 171.955\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.51\nREMARK  deltaGcompsolvnonpol: 171.955\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.78969\nREMARK  deltaGligsolvnonpol: 12.4884\nREMARK  deltaGvdw: -33.3799\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.186781\nREMARK  Cluster: 3\nREMARK  ClusterRank: 4\n', 37), ({'deltaGligsolvpol': -4.78969, 'surfFull': 171.955, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.955, 'SimpleFitness': 227.582, 'InterFull': -33.3799, 'extraFull': 0.0, 'Energy': 227.582, 'solvFull': -1252.51, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 3, 'deltaGligsolvnonpol': 12.4884, 'deltaGcompsolvpol': -1252.51, 'FullFitness': -845.4699, 'deltaG': -7.186781, 'ClusterRank': 5, 'IntraFull': 268.465, 'deltaGvdw': -33.3799}, 'V', ['REMARK  Energy: 227.582\n', 'REMARK  SimpleFitness: 227.582\n', 'REMARK  FullFitness: -845.4699\n', 'REMARK  InterFull: -33.3799\n', 'REMARK  IntraFull: 268.465\n', 'REMARK  solvFull: -1252.51\n', 'REMARK  surfFull: 171.955\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.51\n', 'REMARK  deltaGcompsolvnonpol: 171.955\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.78969\n', 'REMARK  deltaGligsolvnonpol: 12.4884\n', 'REMARK  deltaGvdw: -33.3799\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.186781\n', 'REMARK  Cluster: 3\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      63.331  -4.248  27.732  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.448  -5.233  28.007  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      63.614  -3.595  26.385  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      62.014  -5.002  27.688  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      65.819  -4.612  28.099  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.323  -6.080  29.242  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      62.507  -2.599  25.982  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      65.023  -2.994  26.353  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      60.928  -4.230  27.035  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.636  -5.861  28.455  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      66.091  -4.003  26.734  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      65.927  -3.550  29.199  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.730  -6.604  29.436  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      61.134  -3.143  26.286  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      62.632  -2.386  24.474  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      62.673  -1.256  26.696  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      68.048  -5.682  29.040  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      59.973  -2.430  25.673  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      61.476  -1.624  23.867  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      68.686  -7.018  29.427  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      68.982  -4.940  28.101  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      60.159  -2.301  24.177  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      69.167  -7.843  28.233  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      59.101  -1.512  23.646  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      69.432  -9.289  28.535  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      70.662  -9.751  29.234  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.395  -9.687  29.926  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      71.680  -8.808  29.750  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      71.155 -11.130  28.997  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      63.278  -3.488  28.515  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.468  -5.930  27.163  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      63.609  -4.406  25.649  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      61.706  -5.248  28.708  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      62.139  -5.946  27.150  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.605  -6.895  29.116  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      64.015  -5.478  30.101  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      65.100  -2.140  27.028  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      65.249  -2.620  25.351  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      59.915  -4.585  27.185  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.709  -6.468  27.549  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      66.106  -4.793  25.982  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.066  -3.513  26.714  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.769  -7.681  29.251  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      66.039  -6.436  30.472  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      62.699  -3.357  23.974  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      63.555  -1.847  24.246  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.970  -5.105  29.965  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      59.868  -1.437  26.120  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      59.025  -2.940  25.874  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      61.609  -1.571  22.784  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      61.462  -0.591  24.226  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      68.008  -7.607  30.047  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      69.544  -6.801  30.065  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      60.128  -3.285  23.700  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      70.070  -7.400  27.804  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      68.407  -7.814  27.451  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.989  -9.950  27.800  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      71.242  -7.928  30.220  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      72.321  -8.480  28.929  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      72.303  -9.307  30.495  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      58.274  -1.910  23.968  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      68.723  -3.880  28.053  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      68.934  -5.347  27.088  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      70.012  -5.009  28.457  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      65.812  -3.973  30.199  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      65.181  -2.760  29.096  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      66.906  -3.065  29.161  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      62.745  -1.392  27.779  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      61.840  -0.573  26.509  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      63.573  -0.736  26.358  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      72.143 -11.103  28.531  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      70.485 -11.671  28.327  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      71.233 -11.679  29.939  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.38', True, 'REMARK  Energy: 227.582\nREMARK  SimpleFitness: 227.582\nREMARK  FullFitness: -845.4699\nREMARK  InterFull: -33.3799\nREMARK  IntraFull: 268.465\nREMARK  solvFull: -1252.51\nREMARK  surfFull: 171.955\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.51\nREMARK  deltaGcompsolvnonpol: 171.955\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.78969\nREMARK  deltaGligsolvnonpol: 12.4884\nREMARK  deltaGvdw: -33.3799\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.186781\nREMARK  Cluster: 3\nREMARK  ClusterRank: 5\n', 38), ({'deltaGligsolvpol': -4.78969, 'surfFull': 171.955, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.955, 'SimpleFitness': 227.582, 'InterFull': -33.3799, 'extraFull': 0.0, 'Energy': 227.582, 'solvFull': -1252.51, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 3, 'deltaGligsolvnonpol': 12.4884, 'deltaGcompsolvpol': -1252.51, 'FullFitness': -845.4699, 'deltaG': -7.186781, 'ClusterRank': 6, 'IntraFull': 268.465, 'deltaGvdw': -33.3799}, 'V', ['REMARK  Energy: 227.582\n', 'REMARK  SimpleFitness: 227.582\n', 'REMARK  FullFitness: -845.4699\n', 'REMARK  InterFull: -33.3799\n', 'REMARK  IntraFull: 268.465\n', 'REMARK  solvFull: -1252.51\n', 'REMARK  surfFull: 171.955\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.51\n', 'REMARK  deltaGcompsolvnonpol: 171.955\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.78969\n', 'REMARK  deltaGligsolvnonpol: 12.4884\n', 'REMARK  deltaGvdw: -33.3799\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.186781\n', 'REMARK  Cluster: 3\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      63.331  -4.248  27.732  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.448  -5.233  28.007  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      63.614  -3.595  26.385  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      62.014  -5.002  27.688  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      65.819  -4.612  28.099  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.323  -6.080  29.242  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      62.507  -2.599  25.982  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      65.023  -2.994  26.353  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      60.928  -4.230  27.035  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.636  -5.861  28.455  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      66.091  -4.003  26.734  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      65.927  -3.550  29.199  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.730  -6.604  29.436  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      61.134  -3.143  26.286  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      62.632  -2.386  24.474  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      62.673  -1.256  26.696  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      68.048  -5.682  29.040  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      59.973  -2.430  25.673  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      61.476  -1.624  23.867  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      68.686  -7.018  29.427  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      68.982  -4.940  28.101  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      60.159  -2.301  24.177  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      69.167  -7.843  28.233  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      59.101  -1.512  23.646  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      69.432  -9.289  28.535  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      70.662  -9.751  29.234  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.395  -9.687  29.926  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      71.680  -8.808  29.750  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      71.155 -11.130  28.997  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      63.278  -3.488  28.515  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.468  -5.930  27.163  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      63.609  -4.406  25.649  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      61.706  -5.248  28.708  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      62.139  -5.946  27.150  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.605  -6.895  29.116  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      64.015  -5.478  30.101  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      65.100  -2.140  27.028  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      65.249  -2.620  25.351  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      59.915  -4.585  27.185  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.709  -6.468  27.549  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      66.106  -4.793  25.982  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.066  -3.513  26.714  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.769  -7.681  29.251  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      66.039  -6.436  30.472  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      62.699  -3.357  23.974  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      63.555  -1.847  24.246  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.970  -5.105  29.965  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      59.868  -1.437  26.120  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      59.025  -2.940  25.874  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      61.609  -1.571  22.784  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      61.462  -0.591  24.226  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      68.008  -7.607  30.047  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      69.544  -6.801  30.065  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      60.128  -3.285  23.700  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      70.070  -7.400  27.804  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      68.407  -7.814  27.451  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.989  -9.950  27.800  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      71.242  -7.928  30.220  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      72.321  -8.480  28.929  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      72.303  -9.307  30.495  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      58.274  -1.910  23.968  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      68.723  -3.880  28.053  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      68.934  -5.347  27.088  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      70.012  -5.009  28.457  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      65.812  -3.973  30.199  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      65.181  -2.760  29.096  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      66.906  -3.065  29.161  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      62.745  -1.392  27.779  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      61.840  -0.573  26.509  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      63.573  -0.736  26.358  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      72.143 -11.103  28.531  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      70.485 -11.671  28.327  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      71.233 -11.679  29.939  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.39', True, 'REMARK  Energy: 227.582\nREMARK  SimpleFitness: 227.582\nREMARK  FullFitness: -845.4699\nREMARK  InterFull: -33.3799\nREMARK  IntraFull: 268.465\nREMARK  solvFull: -1252.51\nREMARK  surfFull: 171.955\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.51\nREMARK  deltaGcompsolvnonpol: 171.955\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.78969\nREMARK  deltaGligsolvnonpol: 12.4884\nREMARK  deltaGvdw: -33.3799\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.186781\nREMARK  Cluster: 3\nREMARK  ClusterRank: 6\n', 39), ({'deltaGligsolvpol': -4.78488, 'surfFull': 171.962, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.962, 'SimpleFitness': 227.632, 'InterFull': -33.3931, 'extraFull': 0.0, 'Energy': 227.632, 'solvFull': -1252.52, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 3, 'deltaGligsolvnonpol': 12.487, 'deltaGcompsolvpol': -1252.52, 'FullFitness': -845.4531, 'deltaG': -7.1881413, 'ClusterRank': 7, 'IntraFull': 268.498, 'deltaGvdw': -33.3931}, 'V', ['REMARK  Energy: 227.632\n', 'REMARK  SimpleFitness: 227.632\n', 'REMARK  FullFitness: -845.4531\n', 'REMARK  InterFull: -33.3931\n', 'REMARK  IntraFull: 268.498\n', 'REMARK  solvFull: -1252.52\n', 'REMARK  surfFull: 171.962\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.52\n', 'REMARK  deltaGcompsolvnonpol: 171.962\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.78488\n', 'REMARK  deltaGligsolvnonpol: 12.487\n', 'REMARK  deltaGvdw: -33.3931\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.1881413\n', 'REMARK  Cluster: 3\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      63.309  -4.292  27.683  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.441  -5.260  27.957  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      63.592  -3.614  26.349  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      62.006  -5.068  27.614  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      65.800  -4.615  28.070  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.318  -6.123  29.180  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      62.472  -2.628  25.955  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      64.993  -2.992  26.333  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      60.911  -4.300  26.971  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.635  -5.853  28.424  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      66.075  -3.987  26.714  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      65.878  -3.561  29.180  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.732  -6.618  29.391  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      61.105  -3.195  26.244  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      62.599  -2.394  24.452  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      62.616  -1.292  26.689  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      68.039  -5.656  29.025  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      59.936  -2.485  25.642  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      61.440  -1.630  23.854  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      68.692  -6.985  29.416  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      68.972  -4.901  28.095  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      60.126  -2.319  24.149  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      69.193  -7.803  28.226  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      59.066  -1.522  23.634  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      69.437  -9.255  28.515  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      70.648  -9.738  29.232  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.369  -9.670  29.900  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      71.665  -8.810  29.779  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      71.133 -11.118  28.988  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      63.233  -3.544  28.476  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.482  -5.946  27.104  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      63.602  -4.413  25.600  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      61.695  -5.343  28.625  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      62.150  -5.997  27.055  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.620  -6.953  29.033  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      63.982  -5.538  30.040  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      65.051  -2.143  27.016  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      65.220  -2.605  25.337  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      59.902  -4.671  27.110  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.727  -6.452  27.515  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      66.113  -4.768  25.953  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.041  -3.478  26.711  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.797  -7.694  29.204  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      66.025  -6.445  30.431  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      62.672  -3.357  23.938  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      63.520  -1.847  24.232  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.945  -5.081  29.949  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      59.815  -1.505  26.111  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      58.995  -3.013  25.827  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      61.576  -1.563  22.772  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      61.419  -0.602  24.226  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      68.017  -7.580  30.034  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      69.545  -6.757  30.059  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      60.098  -3.292  23.648  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      70.109  -7.363  27.822  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      68.452  -7.758  27.426  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      69.003  -9.903  27.764  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      71.224  -7.934  30.254  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      72.321  -8.475  28.973  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      72.273  -9.325  30.527  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      58.238  -1.941  23.927  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      68.698  -3.845  28.044  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      68.941  -5.309  27.082  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      70.000  -4.954  28.462  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      65.755  -3.995  30.176  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      65.121  -2.782  29.074  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      66.850  -3.062  29.160  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      62.689  -1.442  27.770  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      61.772  -0.620  26.510  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      63.508  -0.754  26.359  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      72.125 -11.093  28.530  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      70.465 -11.650  28.310  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      71.202 -11.675  29.927  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.40', True, 'REMARK  Energy: 227.632\nREMARK  SimpleFitness: 227.632\nREMARK  FullFitness: -845.4531\nREMARK  InterFull: -33.3931\nREMARK  IntraFull: 268.498\nREMARK  solvFull: -1252.52\nREMARK  surfFull: 171.962\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.52\nREMARK  deltaGcompsolvnonpol: 171.962\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.78488\nREMARK  deltaGligsolvnonpol: 12.487\nREMARK  deltaGvdw: -33.3931\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.1881413\nREMARK  Cluster: 3\nREMARK  ClusterRank: 7\n', 40), ({'deltaGligsolvpol': -4.80756, 'surfFull': 172.667, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.667, 'SimpleFitness': 227.174, 'InterFull': -30.3421, 'extraFull': 0.0, 'Energy': 227.174, 'solvFull': -1252.34, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 3, 'deltaGligsolvnonpol': 12.7108, 'deltaGcompsolvpol': -1252.34, 'FullFitness': -845.3791, 'deltaG': -6.841588, 'ClusterRank': 8, 'IntraFull': 264.636, 'deltaGvdw': -30.3421}, 'V', ['REMARK  Energy: 227.174\n', 'REMARK  SimpleFitness: 227.174\n', 'REMARK  FullFitness: -845.3791\n', 'REMARK  InterFull: -30.3421\n', 'REMARK  IntraFull: 264.636\n', 'REMARK  solvFull: -1252.34\n', 'REMARK  surfFull: 172.667\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.34\n', 'REMARK  deltaGcompsolvnonpol: 172.667\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.80756\n', 'REMARK  deltaGligsolvnonpol: 12.7108\n', 'REMARK  deltaGvdw: -30.3421\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.841588\n', 'REMARK  Cluster: 3\n', 'REMARK  ClusterRank: 8\n'], ['ATOM   3191 C1   LIG     1      62.911  -3.646  27.505  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.235  -4.300  27.835  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      62.744  -3.681  25.989  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      61.797  -4.433  28.179  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      65.447  -3.629  27.233  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.574  -4.480  29.290  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      61.395  -3.078  25.539  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      63.962  -3.066  25.290  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      60.463  -4.216  27.561  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.528  -4.538  27.816  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      65.270  -3.703  25.724  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      65.637  -2.179  27.694  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      66.061  -4.765  29.254  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      60.265  -3.605  26.395  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      61.178  -3.490  24.080  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      61.401  -1.549  25.625  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      68.000  -4.084  27.798  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      58.873  -3.442  25.868  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      59.772  -3.254  23.570  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      68.925  -5.141  28.407  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      68.520  -3.734  26.416  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      58.767  -3.963  24.450  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      68.900  -6.473  27.674  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      57.457  -3.710  23.957  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      69.812  -7.478  28.287  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      69.452  -8.311  29.460  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.375  -8.845  28.120  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      68.128  -8.190  30.137  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      70.556  -8.893  30.274  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      62.890  -2.614  27.864  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.190  -5.311  27.415  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      62.736  -4.739  25.709  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      61.749  -4.161  29.237  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      62.017  -5.504  28.137  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      64.018  -5.304  29.747  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      64.369  -3.570  29.860  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      64.018  -1.993  25.479  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      63.873  -3.190  24.210  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      59.608  -4.596  28.114  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.436  -5.484  27.278  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      65.282  -4.749  25.404  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      66.095  -3.202  25.213  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      66.267  -5.789  29.576  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      66.575  -4.093  29.946  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      61.406  -4.554  23.968  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      61.871  -2.949  23.430  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      68.095  -3.188  28.417  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      58.589  -2.386  25.895  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      58.135  -3.957  26.495  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      59.683  -3.617  22.542  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      59.549  -2.184  23.534  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      68.675  -5.305  29.458  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      69.948  -4.755  28.404  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      58.939  -5.043  24.425  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      69.224  -6.329  26.642  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      67.884  -6.871  27.640  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      70.850  -7.269  28.084  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.308  -8.050  29.426  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      68.132  -7.340  30.825  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.917  -9.092  30.716  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      57.467  -3.936  23.011  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      68.110  -2.783  26.069  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      68.263  -4.499  25.684  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      69.606  -3.641  26.437  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      65.861  -2.107  28.761  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      64.757  -1.561  27.506  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      66.471  -1.717  27.162  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      61.680  -1.205  26.625  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      60.423  -1.118  25.396  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      62.105  -1.115  24.911  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      70.585  -8.420  31.257  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      71.529  -8.747  29.797  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      70.402  -9.966  30.415  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.41', True, 'REMARK  Energy: 227.174\nREMARK  SimpleFitness: 227.174\nREMARK  FullFitness: -845.3791\nREMARK  InterFull: -30.3421\nREMARK  IntraFull: 264.636\nREMARK  solvFull: -1252.34\nREMARK  surfFull: 172.667\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.34\nREMARK  deltaGcompsolvnonpol: 172.667\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.80756\nREMARK  deltaGligsolvnonpol: 12.7108\nREMARK  deltaGvdw: -30.3421\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.841588\nREMARK  Cluster: 3\nREMARK  ClusterRank: 8\n', 41), ({'deltaGligsolvpol': -4.80756, 'surfFull': 172.667, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.667, 'SimpleFitness': 227.174, 'InterFull': -30.3421, 'extraFull': 0.0, 'Energy': 227.174, 'solvFull': -1252.34, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 3, 'deltaGligsolvnonpol': 12.7108, 'deltaGcompsolvpol': -1252.34, 'FullFitness': -845.3791, 'deltaG': -6.841588, 'ClusterRank': 9, 'IntraFull': 264.636, 'deltaGvdw': -30.3421}, 'V', ['REMARK  Energy: 227.174\n', 'REMARK  SimpleFitness: 227.174\n', 'REMARK  FullFitness: -845.3791\n', 'REMARK  InterFull: -30.3421\n', 'REMARK  IntraFull: 264.636\n', 'REMARK  solvFull: -1252.34\n', 'REMARK  surfFull: 172.667\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.34\n', 'REMARK  deltaGcompsolvnonpol: 172.667\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.80756\n', 'REMARK  deltaGligsolvnonpol: 12.7108\n', 'REMARK  deltaGvdw: -30.3421\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.841588\n', 'REMARK  Cluster: 3\n', 'REMARK  ClusterRank: 9\n'], ['ATOM   3191 C1   LIG     1      62.911  -3.646  27.505  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.235  -4.300  27.835  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      62.744  -3.681  25.989  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      61.797  -4.433  28.179  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      65.447  -3.629  27.233  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.574  -4.480  29.290  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      61.395  -3.078  25.539  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      63.962  -3.066  25.290  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      60.463  -4.216  27.561  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.528  -4.538  27.816  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      65.270  -3.703  25.724  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      65.637  -2.179  27.694  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      66.061  -4.765  29.254  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      60.265  -3.605  26.395  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      61.178  -3.490  24.080  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      61.401  -1.549  25.625  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      68.000  -4.084  27.798  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      58.873  -3.442  25.868  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      59.772  -3.254  23.570  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      68.925  -5.141  28.407  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      68.520  -3.734  26.416  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      58.767  -3.963  24.450  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      68.900  -6.473  27.674  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      57.457  -3.710  23.957  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      69.812  -7.478  28.287  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      69.452  -8.311  29.460  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.375  -8.845  28.120  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      68.128  -8.190  30.137  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      70.556  -8.893  30.274  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      62.890  -2.614  27.864  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.190  -5.311  27.415  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      62.736  -4.739  25.709  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      61.749  -4.161  29.237  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      62.017  -5.504  28.137  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      64.018  -5.304  29.747  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      64.369  -3.570  29.860  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      64.018  -1.993  25.479  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      63.873  -3.190  24.210  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      59.608  -4.596  28.114  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.436  -5.484  27.278  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      65.282  -4.749  25.404  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      66.095  -3.202  25.213  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      66.267  -5.789  29.576  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      66.575  -4.093  29.946  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      61.406  -4.554  23.968  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      61.871  -2.949  23.430  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      68.095  -3.188  28.417  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      58.589  -2.386  25.895  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      58.135  -3.957  26.495  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      59.683  -3.617  22.542  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      59.549  -2.184  23.534  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      68.675  -5.305  29.458  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      69.948  -4.755  28.404  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      58.939  -5.043  24.425  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      69.224  -6.329  26.642  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      67.884  -6.871  27.640  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      70.850  -7.269  28.084  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.308  -8.050  29.426  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      68.132  -7.340  30.825  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.917  -9.092  30.716  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      57.467  -3.936  23.011  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      68.110  -2.783  26.069  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      68.263  -4.499  25.684  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      69.606  -3.641  26.437  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      65.861  -2.107  28.761  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      64.757  -1.561  27.506  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      66.471  -1.717  27.162  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      61.680  -1.205  26.625  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      60.423  -1.118  25.396  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      62.105  -1.115  24.911  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      70.585  -8.420  31.257  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      71.529  -8.747  29.797  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      70.402  -9.966  30.415  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.42', True, 'REMARK  Energy: 227.174\nREMARK  SimpleFitness: 227.174\nREMARK  FullFitness: -845.3791\nREMARK  InterFull: -30.3421\nREMARK  IntraFull: 264.636\nREMARK  solvFull: -1252.34\nREMARK  surfFull: 172.667\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.34\nREMARK  deltaGcompsolvnonpol: 172.667\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.80756\nREMARK  deltaGligsolvnonpol: 12.7108\nREMARK  deltaGvdw: -30.3421\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.841588\nREMARK  Cluster: 3\nREMARK  ClusterRank: 9\n', 42), ({'deltaGligsolvpol': -4.76728, 'surfFull': 172.637, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.637, 'SimpleFitness': 227.68, 'InterFull': -30.3857, 'extraFull': 0.0, 'Energy': 227.68, 'solvFull': -1252.34, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 3, 'deltaGligsolvnonpol': 12.6974, 'deltaGcompsolvpol': -1252.34, 'FullFitness': -844.9227, 'deltaG': -6.849749, 'ClusterRank': 10, 'IntraFull': 265.166, 'deltaGvdw': -30.3857}, 'V', ['REMARK  Energy: 227.68\n', 'REMARK  SimpleFitness: 227.68\n', 'REMARK  FullFitness: -844.9227\n', 'REMARK  InterFull: -30.3857\n', 'REMARK  IntraFull: 265.166\n', 'REMARK  solvFull: -1252.34\n', 'REMARK  surfFull: 172.637\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.34\n', 'REMARK  deltaGcompsolvnonpol: 172.637\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.76728\n', 'REMARK  deltaGligsolvnonpol: 12.6974\n', 'REMARK  deltaGvdw: -30.3857\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.849749\n', 'REMARK  Cluster: 3\n', 'REMARK  ClusterRank: 10\n'], ['ATOM   3191 C1   LIG     1      62.859  -3.666  27.399  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.195  -4.303  27.728  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      62.712  -3.669  25.884  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      61.753  -4.487  28.041  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      65.396  -3.579  27.170  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.521  -4.525  29.179  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      61.354  -3.086  25.430  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      63.919  -3.000  25.225  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      60.420  -4.279  27.417  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.498  -4.479  27.737  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      65.240  -3.613  25.659  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      65.526  -2.139  27.676  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      66.008  -4.808  29.145  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      60.225  -3.643  26.259  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      61.160  -3.482  23.966  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      61.324  -1.560  25.542  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      67.956  -3.984  27.784  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      58.836  -3.486  25.722  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      59.758  -3.254  23.440  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      68.908  -5.041  28.362  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      68.480  -3.555  26.427  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      58.755  -3.992  24.297  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      68.922  -6.346  27.581  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      57.445  -3.760  23.792  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      69.844  -7.368  28.144  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      69.519  -8.252  29.295  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.383  -8.725  27.938  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      68.223  -8.141  30.018  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      70.630  -8.917  30.025  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      62.811  -2.643  27.779  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.182  -5.296  27.268  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      62.734  -4.720  25.575  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      61.687  -4.232  29.102  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      61.993  -5.552  27.981  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.966  -5.364  29.606  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      64.312  -3.628  29.771  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      63.940  -1.932  25.449  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      63.845  -3.094  24.141  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      59.564  -4.678  27.946  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.452  -5.395  27.146  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      65.284  -4.649  25.312  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      66.055  -3.073  25.175  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      66.207  -5.857  29.376  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      66.517  -4.202  29.898  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      61.392  -4.544  23.853  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      61.860  -2.932  23.332  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      68.011  -3.115  28.446  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      58.546  -2.431  25.759  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      58.097  -4.017  26.333  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      59.686  -3.600  22.405  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      59.521  -2.186  23.420  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      68.658  -5.247  29.406  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      69.923  -4.633  28.372  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      58.951  -5.068  24.259  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      69.254  -6.149  26.558  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      67.916  -6.764  27.519  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      70.874  -7.169  27.902  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.385  -7.952  29.341  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      68.272  -7.324  30.743  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      68.018  -9.071  30.555  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      57.419  -4.121  22.890  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      68.008  -2.627  26.098  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      68.302  -4.318  25.665  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      69.553  -3.374  26.488  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      65.710  -2.091  28.751  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      64.632  -1.546  27.474  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      66.358  -1.635  27.180  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      61.559  -1.231  26.558  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      60.345  -1.147  25.284  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      62.045  -1.098  24.864  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      70.709  -8.515  31.037  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      71.589  -8.771  29.519  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      70.443  -9.993  30.096  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.43', True, 'REMARK  Energy: 227.68\nREMARK  SimpleFitness: 227.68\nREMARK  FullFitness: -844.9227\nREMARK  InterFull: -30.3857\nREMARK  IntraFull: 265.166\nREMARK  solvFull: -1252.34\nREMARK  surfFull: 172.637\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.34\nREMARK  deltaGcompsolvnonpol: 172.637\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.76728\nREMARK  deltaGligsolvnonpol: 12.6974\nREMARK  deltaGvdw: -30.3857\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.849749\nREMARK  Cluster: 3\nREMARK  ClusterRank: 10\n', 43), ({'deltaGligsolvpol': -4.76728, 'surfFull': 172.637, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.637, 'SimpleFitness': 227.68, 'InterFull': -30.3857, 'extraFull': 0.0, 'Energy': 227.68, 'solvFull': -1252.34, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 3, 'deltaGligsolvnonpol': 12.6974, 'deltaGcompsolvpol': -1252.34, 'FullFitness': -844.9227, 'deltaG': -6.849749, 'ClusterRank': 11, 'IntraFull': 265.166, 'deltaGvdw': -30.3857}, 'V', ['REMARK  Energy: 227.68\n', 'REMARK  SimpleFitness: 227.68\n', 'REMARK  FullFitness: -844.9227\n', 'REMARK  InterFull: -30.3857\n', 'REMARK  IntraFull: 265.166\n', 'REMARK  solvFull: -1252.34\n', 'REMARK  surfFull: 172.637\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.34\n', 'REMARK  deltaGcompsolvnonpol: 172.637\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.76728\n', 'REMARK  deltaGligsolvnonpol: 12.6974\n', 'REMARK  deltaGvdw: -30.3857\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.849749\n', 'REMARK  Cluster: 3\n', 'REMARK  ClusterRank: 11\n'], ['ATOM   3191 C1   LIG     1      62.859  -3.666  27.399  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.195  -4.303  27.728  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      62.712  -3.669  25.884  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      61.753  -4.487  28.041  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      65.396  -3.579  27.170  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.521  -4.525  29.179  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      61.354  -3.086  25.430  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      63.919  -3.000  25.225  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      60.420  -4.279  27.417  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.498  -4.479  27.737  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      65.240  -3.613  25.659  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      65.526  -2.139  27.676  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      66.008  -4.808  29.145  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      60.225  -3.643  26.259  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      61.160  -3.482  23.966  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      61.324  -1.560  25.542  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      67.956  -3.984  27.784  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      58.836  -3.486  25.722  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      59.758  -3.254  23.440  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      68.908  -5.041  28.362  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      68.480  -3.555  26.427  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      58.755  -3.992  24.297  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      68.922  -6.346  27.581  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      57.445  -3.760  23.792  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      69.844  -7.368  28.144  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      69.519  -8.252  29.295  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.383  -8.725  27.938  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      68.223  -8.141  30.018  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      70.630  -8.917  30.025  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      62.811  -2.643  27.779  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.182  -5.296  27.268  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      62.734  -4.720  25.575  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      61.687  -4.232  29.102  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      61.993  -5.552  27.981  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.966  -5.364  29.606  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      64.312  -3.628  29.771  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      63.940  -1.932  25.449  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      63.845  -3.094  24.141  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      59.564  -4.678  27.946  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.452  -5.395  27.146  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      65.284  -4.649  25.312  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      66.055  -3.073  25.175  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      66.207  -5.857  29.376  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      66.517  -4.202  29.898  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      61.392  -4.544  23.853  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      61.860  -2.932  23.332  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      68.011  -3.115  28.446  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      58.546  -2.431  25.759  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      58.097  -4.017  26.333  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      59.686  -3.600  22.405  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      59.521  -2.186  23.420  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      68.658  -5.247  29.406  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      69.923  -4.633  28.372  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      58.951  -5.068  24.259  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      69.254  -6.149  26.558  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      67.916  -6.764  27.519  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      70.874  -7.169  27.902  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.385  -7.952  29.341  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      68.272  -7.324  30.743  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      68.018  -9.071  30.555  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      57.419  -4.121  22.890  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      68.008  -2.627  26.098  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      68.302  -4.318  25.665  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      69.553  -3.374  26.488  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      65.710  -2.091  28.751  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      64.632  -1.546  27.474  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      66.358  -1.635  27.180  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      61.559  -1.231  26.558  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      60.345  -1.147  25.284  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      62.045  -1.098  24.864  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      70.709  -8.515  31.037  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      71.589  -8.771  29.519  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      70.443  -9.993  30.096  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.44', True, 'REMARK  Energy: 227.68\nREMARK  SimpleFitness: 227.68\nREMARK  FullFitness: -844.9227\nREMARK  InterFull: -30.3857\nREMARK  IntraFull: 265.166\nREMARK  solvFull: -1252.34\nREMARK  surfFull: 172.637\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.34\nREMARK  deltaGcompsolvnonpol: 172.637\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.76728\nREMARK  deltaGligsolvnonpol: 12.6974\nREMARK  deltaGvdw: -30.3857\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.849749\nREMARK  Cluster: 3\nREMARK  ClusterRank: 11\n', 44), ({'deltaGligsolvpol': -4.70041, 'surfFull': 172.029, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.029, 'SimpleFitness': 229.208, 'InterFull': -29.6841, 'extraFull': 0.0, 'Energy': 229.208, 'solvFull': -1252.99, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 3, 'deltaGligsolvnonpol': 12.4992, 'deltaGcompsolvpol': -1252.99, 'FullFitness': -842.0251, 'deltaG': -6.8660173, 'ClusterRank': 12, 'IntraFull': 268.62, 'deltaGvdw': -29.6841}, 'V', ['REMARK  Energy: 229.208\n', 'REMARK  SimpleFitness: 229.208\n', 'REMARK  FullFitness: -842.0251\n', 'REMARK  InterFull: -29.6841\n', 'REMARK  IntraFull: 268.62\n', 'REMARK  solvFull: -1252.99\n', 'REMARK  surfFull: 172.029\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.99\n', 'REMARK  deltaGcompsolvnonpol: 172.029\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.70041\n', 'REMARK  deltaGligsolvnonpol: 12.4992\n', 'REMARK  deltaGvdw: -29.6841\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.8660173\n', 'REMARK  Cluster: 3\n', 'REMARK  ClusterRank: 12\n'], ['ATOM   3191 C1   LIG     1      63.273  -4.322  27.618  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.440  -5.246  27.885  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      63.506  -3.657  26.269  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      61.996  -5.142  27.591  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      65.777  -4.552  27.963  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.369  -6.094  29.122  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      62.346  -2.714  25.887  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      64.886  -2.993  26.209  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      60.864  -4.432  26.945  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.662  -5.751  28.326  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      66.007  -3.944  26.589  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      65.836  -3.473  29.049  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.801  -6.544  29.308  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      61.006  -3.333  26.198  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      62.446  -2.474  24.382  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      62.445  -1.374  26.622  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      68.064  -5.489  28.904  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      59.802  -2.678  25.602  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      61.244  -1.768  23.795  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      68.761  -6.783  29.330  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      68.965  -4.729  27.945  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      59.967  -2.518  24.107  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      69.251  -7.632  28.157  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      58.864  -1.779  23.598  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      69.415  -9.095  28.453  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      70.573  -9.635  29.214  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.273  -9.510  29.832  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      71.609  -8.757  29.805  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      70.999 -11.036  28.974  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      63.189  -3.563  28.399  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.488  -5.944  27.043  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      63.524  -4.467  25.534  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      61.710  -5.398  28.615  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      62.167  -6.080  27.055  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.692  -6.944  29.007  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      64.035  -5.506  29.981  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      64.929  -2.127  26.872  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      65.081  -2.620  25.202  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      59.873  -4.842  27.100  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.766  -6.357  27.425  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      66.056  -4.740  25.842  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      66.956  -3.406  26.558  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.894  -7.617  29.116  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      66.105  -6.365  30.343  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      62.562  -3.433  23.867  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      63.336  -1.881  24.154  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.959  -4.891  29.812  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      59.642  -1.700  26.062  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      58.885  -3.243  25.802  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      61.364  -1.687  22.712  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      61.178  -0.744  24.172  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      68.117  -7.364  29.991  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      69.628  -6.510  29.936  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      59.978  -3.497  23.621  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      70.195  -7.232  27.778  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      68.539  -7.556  27.334  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.977  -9.719  27.684  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      71.189  -7.853  30.246  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      72.322  -8.464  29.031  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      72.151  -9.289  30.590  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      58.953  -1.786  22.630  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      68.645  -3.689  27.852  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      68.954  -5.177  26.948  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      69.993  -4.724  28.313  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      65.748  -3.893  30.054  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      65.049  -2.725  28.942  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      66.788  -2.940  28.997  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      62.521  -1.522  27.703  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      61.579  -0.732  26.442  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      63.319  -0.806  26.293  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      71.998 -11.057  28.531  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      70.316 -11.537  28.286  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      71.028 -11.596  29.913  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.45', True, 'REMARK  Energy: 229.208\nREMARK  SimpleFitness: 229.208\nREMARK  FullFitness: -842.0251\nREMARK  InterFull: -29.6841\nREMARK  IntraFull: 268.62\nREMARK  solvFull: -1252.99\nREMARK  surfFull: 172.029\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.99\nREMARK  deltaGcompsolvnonpol: 172.029\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.70041\nREMARK  deltaGligsolvnonpol: 12.4992\nREMARK  deltaGvdw: -29.6841\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.8660173\nREMARK  Cluster: 3\nREMARK  ClusterRank: 12\n', 45), ({'deltaGligsolvpol': -4.70041, 'surfFull': 172.029, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.029, 'SimpleFitness': 229.208, 'InterFull': -29.6841, 'extraFull': 0.0, 'Energy': 229.208, 'solvFull': -1252.99, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 3, 'deltaGligsolvnonpol': 12.4992, 'deltaGcompsolvpol': -1252.99, 'FullFitness': -842.0251, 'deltaG': -6.8660173, 'ClusterRank': 13, 'IntraFull': 268.62, 'deltaGvdw': -29.6841}, 'V', ['REMARK  Energy: 229.208\n', 'REMARK  SimpleFitness: 229.208\n', 'REMARK  FullFitness: -842.0251\n', 'REMARK  InterFull: -29.6841\n', 'REMARK  IntraFull: 268.62\n', 'REMARK  solvFull: -1252.99\n', 'REMARK  surfFull: 172.029\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.99\n', 'REMARK  deltaGcompsolvnonpol: 172.029\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.70041\n', 'REMARK  deltaGligsolvnonpol: 12.4992\n', 'REMARK  deltaGvdw: -29.6841\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.8660173\n', 'REMARK  Cluster: 3\n', 'REMARK  ClusterRank: 13\n'], ['ATOM   3191 C1   LIG     1      63.273  -4.322  27.618  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.440  -5.246  27.885  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      63.506  -3.657  26.269  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      61.996  -5.142  27.591  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      65.777  -4.552  27.963  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.369  -6.094  29.122  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      62.346  -2.714  25.887  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      64.886  -2.993  26.209  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      60.864  -4.432  26.945  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.662  -5.751  28.326  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      66.007  -3.944  26.589  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      65.836  -3.473  29.049  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.801  -6.544  29.308  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      61.006  -3.333  26.198  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      62.446  -2.474  24.382  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      62.445  -1.374  26.622  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      68.064  -5.489  28.904  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      59.802  -2.678  25.602  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      61.244  -1.768  23.795  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      68.761  -6.783  29.330  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      68.965  -4.729  27.945  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      59.967  -2.518  24.107  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      69.251  -7.632  28.157  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      58.864  -1.779  23.598  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      69.415  -9.095  28.453  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      70.573  -9.635  29.214  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.273  -9.510  29.832  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      71.609  -8.757  29.805  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      70.999 -11.036  28.974  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      63.189  -3.563  28.399  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.488  -5.944  27.043  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      63.524  -4.467  25.534  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      61.710  -5.398  28.615  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      62.167  -6.080  27.055  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.692  -6.944  29.007  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      64.035  -5.506  29.981  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      64.929  -2.127  26.872  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      65.081  -2.620  25.202  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      59.873  -4.842  27.100  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.766  -6.357  27.425  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      66.056  -4.740  25.842  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      66.956  -3.406  26.558  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.894  -7.617  29.116  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      66.105  -6.365  30.343  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      62.562  -3.433  23.867  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      63.336  -1.881  24.154  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.959  -4.891  29.812  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      59.642  -1.700  26.062  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      58.885  -3.243  25.802  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      61.364  -1.687  22.712  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      61.178  -0.744  24.172  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      68.117  -7.364  29.991  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      69.628  -6.510  29.936  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      59.978  -3.497  23.621  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      70.195  -7.232  27.778  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      68.539  -7.556  27.334  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.977  -9.719  27.684  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      71.189  -7.853  30.246  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      72.322  -8.464  29.031  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      72.151  -9.289  30.590  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      58.953  -1.786  22.630  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      68.645  -3.689  27.852  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      68.954  -5.177  26.948  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      69.993  -4.724  28.313  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      65.748  -3.893  30.054  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      65.049  -2.725  28.942  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      66.788  -2.940  28.997  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      62.521  -1.522  27.703  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      61.579  -0.732  26.442  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      63.319  -0.806  26.293  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      71.998 -11.057  28.531  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      70.316 -11.537  28.286  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      71.028 -11.596  29.913  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.46', True, 'REMARK  Energy: 229.208\nREMARK  SimpleFitness: 229.208\nREMARK  FullFitness: -842.0251\nREMARK  InterFull: -29.6841\nREMARK  IntraFull: 268.62\nREMARK  solvFull: -1252.99\nREMARK  surfFull: 172.029\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.99\nREMARK  deltaGcompsolvnonpol: 172.029\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.70041\nREMARK  deltaGligsolvnonpol: 12.4992\nREMARK  deltaGvdw: -29.6841\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.8660173\nREMARK  Cluster: 3\nREMARK  ClusterRank: 13\n', 46), ({'deltaGligsolvpol': -4.70041, 'surfFull': 172.029, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.029, 'SimpleFitness': 229.208, 'InterFull': -29.6841, 'extraFull': 0.0, 'Energy': 229.208, 'solvFull': -1252.99, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 3, 'deltaGligsolvnonpol': 12.4992, 'deltaGcompsolvpol': -1252.99, 'FullFitness': -842.0251, 'deltaG': -6.8660173, 'ClusterRank': 14, 'IntraFull': 268.62, 'deltaGvdw': -29.6841}, 'V', ['REMARK  Energy: 229.208\n', 'REMARK  SimpleFitness: 229.208\n', 'REMARK  FullFitness: -842.0251\n', 'REMARK  InterFull: -29.6841\n', 'REMARK  IntraFull: 268.62\n', 'REMARK  solvFull: -1252.99\n', 'REMARK  surfFull: 172.029\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.99\n', 'REMARK  deltaGcompsolvnonpol: 172.029\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.70041\n', 'REMARK  deltaGligsolvnonpol: 12.4992\n', 'REMARK  deltaGvdw: -29.6841\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.8660173\n', 'REMARK  Cluster: 3\n', 'REMARK  ClusterRank: 14\n'], ['ATOM   3191 C1   LIG     1      63.273  -4.322  27.618  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.440  -5.246  27.885  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      63.506  -3.657  26.269  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      61.996  -5.142  27.591  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      65.777  -4.552  27.963  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.369  -6.094  29.122  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      62.346  -2.714  25.887  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      64.886  -2.993  26.209  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      60.864  -4.432  26.945  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.662  -5.751  28.326  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      66.007  -3.944  26.589  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      65.836  -3.473  29.049  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.801  -6.544  29.308  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      61.006  -3.333  26.198  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      62.446  -2.474  24.382  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      62.445  -1.374  26.622  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      68.064  -5.489  28.904  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      59.802  -2.678  25.602  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      61.244  -1.768  23.795  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      68.761  -6.783  29.330  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      68.965  -4.729  27.945  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      59.967  -2.518  24.107  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      69.251  -7.632  28.157  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      58.864  -1.779  23.598  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      69.415  -9.095  28.453  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      70.573  -9.635  29.214  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.273  -9.510  29.832  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      71.609  -8.757  29.805  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      70.999 -11.036  28.974  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      63.189  -3.563  28.399  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.488  -5.944  27.043  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      63.524  -4.467  25.534  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      61.710  -5.398  28.615  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      62.167  -6.080  27.055  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.692  -6.944  29.007  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      64.035  -5.506  29.981  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      64.929  -2.127  26.872  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      65.081  -2.620  25.202  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      59.873  -4.842  27.100  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.766  -6.357  27.425  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      66.056  -4.740  25.842  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      66.956  -3.406  26.558  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.894  -7.617  29.116  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      66.105  -6.365  30.343  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      62.562  -3.433  23.867  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      63.336  -1.881  24.154  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.959  -4.891  29.812  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      59.642  -1.700  26.062  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      58.885  -3.243  25.802  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      61.364  -1.687  22.712  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      61.178  -0.744  24.172  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      68.117  -7.364  29.991  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      69.628  -6.510  29.936  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      59.978  -3.497  23.621  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      70.195  -7.232  27.778  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      68.539  -7.556  27.334  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.977  -9.719  27.684  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      71.189  -7.853  30.246  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      72.322  -8.464  29.031  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      72.151  -9.289  30.590  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      58.953  -1.786  22.630  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      68.645  -3.689  27.852  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      68.954  -5.177  26.948  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      69.993  -4.724  28.313  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      65.748  -3.893  30.054  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      65.049  -2.725  28.942  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      66.788  -2.940  28.997  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      62.521  -1.522  27.703  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      61.579  -0.732  26.442  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      63.319  -0.806  26.293  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      71.998 -11.057  28.531  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      70.316 -11.537  28.286  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      71.028 -11.596  29.913  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.47', True, 'REMARK  Energy: 229.208\nREMARK  SimpleFitness: 229.208\nREMARK  FullFitness: -842.0251\nREMARK  InterFull: -29.6841\nREMARK  IntraFull: 268.62\nREMARK  solvFull: -1252.99\nREMARK  surfFull: 172.029\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.99\nREMARK  deltaGcompsolvnonpol: 172.029\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.70041\nREMARK  deltaGligsolvnonpol: 12.4992\nREMARK  deltaGvdw: -29.6841\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.8660173\nREMARK  Cluster: 3\nREMARK  ClusterRank: 14\n', 47), ({'deltaGligsolvpol': -4.70041, 'surfFull': 172.029, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.029, 'SimpleFitness': 229.208, 'InterFull': -29.6841, 'extraFull': 0.0, 'Energy': 229.208, 'solvFull': -1252.99, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 3, 'deltaGligsolvnonpol': 12.4992, 'deltaGcompsolvpol': -1252.99, 'FullFitness': -842.0251, 'deltaG': -6.8660173, 'ClusterRank': 15, 'IntraFull': 268.62, 'deltaGvdw': -29.6841}, 'V', ['REMARK  Energy: 229.208\n', 'REMARK  SimpleFitness: 229.208\n', 'REMARK  FullFitness: -842.0251\n', 'REMARK  InterFull: -29.6841\n', 'REMARK  IntraFull: 268.62\n', 'REMARK  solvFull: -1252.99\n', 'REMARK  surfFull: 172.029\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.99\n', 'REMARK  deltaGcompsolvnonpol: 172.029\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.70041\n', 'REMARK  deltaGligsolvnonpol: 12.4992\n', 'REMARK  deltaGvdw: -29.6841\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.8660173\n', 'REMARK  Cluster: 3\n', 'REMARK  ClusterRank: 15\n'], ['ATOM   3191 C1   LIG     1      63.273  -4.322  27.618  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.440  -5.246  27.885  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      63.506  -3.657  26.269  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      61.996  -5.142  27.591  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      65.777  -4.552  27.963  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.369  -6.094  29.122  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      62.346  -2.714  25.887  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      64.886  -2.993  26.209  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      60.864  -4.432  26.945  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.662  -5.751  28.326  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      66.007  -3.944  26.589  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      65.836  -3.473  29.049  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.801  -6.544  29.308  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      61.006  -3.333  26.198  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      62.446  -2.474  24.382  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      62.445  -1.374  26.622  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      68.064  -5.489  28.904  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      59.802  -2.678  25.602  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      61.244  -1.768  23.795  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      68.761  -6.783  29.330  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      68.965  -4.729  27.945  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      59.967  -2.518  24.107  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      69.251  -7.632  28.157  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      58.864  -1.779  23.598  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      69.415  -9.095  28.453  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      70.573  -9.635  29.214  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.273  -9.510  29.832  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      71.609  -8.757  29.805  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      70.999 -11.036  28.974  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      63.189  -3.563  28.399  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.488  -5.944  27.043  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      63.524  -4.467  25.534  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      61.710  -5.398  28.615  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      62.167  -6.080  27.055  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.692  -6.944  29.007  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      64.035  -5.506  29.981  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      64.929  -2.127  26.872  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      65.081  -2.620  25.202  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      59.873  -4.842  27.100  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.766  -6.357  27.425  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      66.056  -4.740  25.842  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      66.956  -3.406  26.558  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.894  -7.617  29.116  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      66.105  -6.365  30.343  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      62.562  -3.433  23.867  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      63.336  -1.881  24.154  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.959  -4.891  29.812  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      59.642  -1.700  26.062  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      58.885  -3.243  25.802  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      61.364  -1.687  22.712  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      61.178  -0.744  24.172  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      68.117  -7.364  29.991  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      69.628  -6.510  29.936  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      59.978  -3.497  23.621  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      70.195  -7.232  27.778  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      68.539  -7.556  27.334  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.977  -9.719  27.684  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      71.189  -7.853  30.246  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      72.322  -8.464  29.031  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      72.151  -9.289  30.590  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      58.953  -1.786  22.630  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      68.645  -3.689  27.852  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      68.954  -5.177  26.948  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      69.993  -4.724  28.313  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      65.748  -3.893  30.054  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      65.049  -2.725  28.942  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      66.788  -2.940  28.997  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      62.521  -1.522  27.703  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      61.579  -0.732  26.442  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      63.319  -0.806  26.293  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      71.998 -11.057  28.531  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      70.316 -11.537  28.286  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      71.028 -11.596  29.913  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.48', True, 'REMARK  Energy: 229.208\nREMARK  SimpleFitness: 229.208\nREMARK  FullFitness: -842.0251\nREMARK  InterFull: -29.6841\nREMARK  IntraFull: 268.62\nREMARK  solvFull: -1252.99\nREMARK  surfFull: 172.029\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.99\nREMARK  deltaGcompsolvnonpol: 172.029\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.70041\nREMARK  deltaGligsolvnonpol: 12.4992\nREMARK  deltaGvdw: -29.6841\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.8660173\nREMARK  Cluster: 3\nREMARK  ClusterRank: 15\n', 48), ({'deltaGligsolvpol': -4.81678, 'surfFull': 172.885, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.885, 'SimpleFitness': 235.809, 'InterFull': -25.478, 'extraFull': 0.0, 'Energy': 235.809, 'solvFull': -1262.77, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 4, 'deltaGligsolvnonpol': 13.5457, 'deltaGcompsolvpol': -1262.77, 'FullFitness': -844.56604, 'deltaG': -7.077559, 'ClusterRank': 0, 'IntraFull': 270.797, 'deltaGvdw': -25.478}, 'V', ['REMARK  Energy: 235.809\n', 'REMARK  SimpleFitness: 235.809\n', 'REMARK  FullFitness: -844.56604\n', 'REMARK  InterFull: -25.478\n', 'REMARK  IntraFull: 270.797\n', 'REMARK  solvFull: -1262.77\n', 'REMARK  surfFull: 172.885\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.77\n', 'REMARK  deltaGcompsolvnonpol: 172.885\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.81678\n', 'REMARK  deltaGligsolvnonpol: 13.5457\n', 'REMARK  deltaGvdw: -25.478\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.077559\n', 'REMARK  Cluster: 4\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      78.189   9.866  29.639  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.524   8.626  28.839  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.491  10.570  30.007  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.332  10.786  28.783  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.410   7.626  29.547  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      77.360   7.832  28.313  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.223  11.840  30.844  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      80.495   9.607  30.646  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.311  12.189  29.271  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.423   6.541  28.460  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.713   8.354  29.814  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.826   7.118  30.861  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      77.956   6.467  28.038  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.134  12.669  30.211  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      80.523  12.645  30.891  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      78.799  11.497  32.275  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      80.048   5.139  28.645  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      78.007  14.089  30.664  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      80.358  14.050  31.434  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      81.485   5.081  29.160  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      79.245   4.154  29.472  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      79.341  14.801  30.607  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      82.525   5.776  28.294  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      79.193  16.114  31.133  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.417   5.384  26.858  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      82.252   6.390  25.776  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.535   5.775  26.027  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.253   7.862  26.020  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      81.574   5.947  24.537  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      77.632   9.594  30.538  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      79.075   8.968  27.957  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.942  10.889  29.062  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      76.307  10.407  28.759  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.700  10.788  27.753  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.943   8.279  27.407  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.563   7.759  29.058  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.175   9.317  31.648  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.462  10.099  30.766  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      76.567  12.845  28.835  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.958   6.986  27.618  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.171   8.637  28.862  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.413   7.698  30.335  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      77.864   6.176  26.990  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      77.377   5.746  28.615  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      80.938  12.718  29.881  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      81.265  12.128  31.505  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      80.053   4.706  27.642  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      77.621  14.115  31.688  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      77.282  14.647  30.063  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      81.316  14.577  31.414  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      80.046  14.028  32.482  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.769   4.027  29.228  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      81.534   5.474  30.178  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      79.685  14.882  29.572  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      83.516   5.498  28.664  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      82.446   6.853  28.423  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.048   4.376  26.718  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      82.956   8.153  26.805  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.253   8.197  26.307  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.538   8.391  25.107  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      80.091  16.456  31.282  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      78.239   3.995  29.079  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      79.177   4.466  30.514  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      79.741   3.182  29.453  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.917   6.530  30.716  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      78.574   7.928  31.547  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.555   6.482  31.369  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      77.938  10.824  32.290  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      78.523  12.385  32.849  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      79.614  11.016  32.822  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      81.755   6.678  23.749  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      80.495   5.875  24.699  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      81.942   4.977  24.194  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.49', True, 'REMARK  Energy: 235.809\nREMARK  SimpleFitness: 235.809\nREMARK  FullFitness: -844.56604\nREMARK  InterFull: -25.478\nREMARK  IntraFull: 270.797\nREMARK  solvFull: -1262.77\nREMARK  surfFull: 172.885\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.77\nREMARK  deltaGcompsolvnonpol: 172.885\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.81678\nREMARK  deltaGligsolvnonpol: 13.5457\nREMARK  deltaGvdw: -25.478\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.077559\nREMARK  Cluster: 4\nREMARK  ClusterRank: 0\n', 49), ({'deltaGligsolvpol': -4.81678, 'surfFull': 172.885, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.885, 'SimpleFitness': 235.809, 'InterFull': -25.478, 'extraFull': 0.0, 'Energy': 235.809, 'solvFull': -1262.77, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 4, 'deltaGligsolvnonpol': 13.5457, 'deltaGcompsolvpol': -1262.77, 'FullFitness': -844.56604, 'deltaG': -7.077559, 'ClusterRank': 1, 'IntraFull': 270.797, 'deltaGvdw': -25.478}, 'V', ['REMARK  Energy: 235.809\n', 'REMARK  SimpleFitness: 235.809\n', 'REMARK  FullFitness: -844.56604\n', 'REMARK  InterFull: -25.478\n', 'REMARK  IntraFull: 270.797\n', 'REMARK  solvFull: -1262.77\n', 'REMARK  surfFull: 172.885\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.77\n', 'REMARK  deltaGcompsolvnonpol: 172.885\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.81678\n', 'REMARK  deltaGligsolvnonpol: 13.5457\n', 'REMARK  deltaGvdw: -25.478\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.077559\n', 'REMARK  Cluster: 4\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      78.189   9.866  29.639  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.524   8.626  28.839  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.491  10.570  30.007  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.332  10.786  28.783  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.410   7.626  29.547  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      77.360   7.832  28.313  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.223  11.840  30.844  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      80.495   9.607  30.646  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.311  12.189  29.271  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.423   6.541  28.460  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.713   8.354  29.814  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.826   7.118  30.861  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      77.956   6.467  28.038  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.134  12.669  30.211  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      80.523  12.645  30.891  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      78.799  11.497  32.275  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      80.048   5.139  28.645  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      78.007  14.089  30.664  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      80.358  14.050  31.434  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      81.485   5.081  29.160  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      79.245   4.154  29.472  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      79.341  14.801  30.607  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      82.525   5.776  28.294  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      79.193  16.114  31.133  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.417   5.384  26.858  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      82.252   6.390  25.776  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.535   5.775  26.027  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.253   7.862  26.020  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      81.574   5.947  24.537  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      77.632   9.594  30.538  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      79.075   8.968  27.957  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.942  10.889  29.062  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      76.307  10.407  28.759  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.700  10.788  27.753  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.943   8.279  27.407  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.563   7.759  29.058  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.175   9.317  31.648  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.462  10.099  30.766  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      76.567  12.845  28.835  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.958   6.986  27.618  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.171   8.637  28.862  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.413   7.698  30.335  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      77.864   6.176  26.990  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      77.377   5.746  28.615  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      80.938  12.718  29.881  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      81.265  12.128  31.505  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      80.053   4.706  27.642  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      77.621  14.115  31.688  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      77.282  14.647  30.063  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      81.316  14.577  31.414  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      80.046  14.028  32.482  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.769   4.027  29.228  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      81.534   5.474  30.178  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      79.685  14.882  29.572  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      83.516   5.498  28.664  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      82.446   6.853  28.423  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.048   4.376  26.718  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      82.956   8.153  26.805  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.253   8.197  26.307  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.538   8.391  25.107  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      80.091  16.456  31.282  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      78.239   3.995  29.079  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      79.177   4.466  30.514  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      79.741   3.182  29.453  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.917   6.530  30.716  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      78.574   7.928  31.547  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.555   6.482  31.369  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      77.938  10.824  32.290  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      78.523  12.385  32.849  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      79.614  11.016  32.822  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      81.755   6.678  23.749  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      80.495   5.875  24.699  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      81.942   4.977  24.194  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.50', True, 'REMARK  Energy: 235.809\nREMARK  SimpleFitness: 235.809\nREMARK  FullFitness: -844.56604\nREMARK  InterFull: -25.478\nREMARK  IntraFull: 270.797\nREMARK  solvFull: -1262.77\nREMARK  surfFull: 172.885\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.77\nREMARK  deltaGcompsolvnonpol: 172.885\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.81678\nREMARK  deltaGligsolvnonpol: 13.5457\nREMARK  deltaGvdw: -25.478\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.077559\nREMARK  Cluster: 4\nREMARK  ClusterRank: 1\n', 50), ({'deltaGligsolvpol': -4.81678, 'surfFull': 172.885, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.885, 'SimpleFitness': 235.809, 'InterFull': -25.478, 'extraFull': 0.0, 'Energy': 235.809, 'solvFull': -1262.77, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 4, 'deltaGligsolvnonpol': 13.5457, 'deltaGcompsolvpol': -1262.77, 'FullFitness': -844.56604, 'deltaG': -7.077559, 'ClusterRank': 2, 'IntraFull': 270.797, 'deltaGvdw': -25.478}, 'V', ['REMARK  Energy: 235.809\n', 'REMARK  SimpleFitness: 235.809\n', 'REMARK  FullFitness: -844.56604\n', 'REMARK  InterFull: -25.478\n', 'REMARK  IntraFull: 270.797\n', 'REMARK  solvFull: -1262.77\n', 'REMARK  surfFull: 172.885\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.77\n', 'REMARK  deltaGcompsolvnonpol: 172.885\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.81678\n', 'REMARK  deltaGligsolvnonpol: 13.5457\n', 'REMARK  deltaGvdw: -25.478\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.077559\n', 'REMARK  Cluster: 4\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      78.189   9.866  29.639  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.524   8.626  28.839  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.491  10.570  30.007  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.332  10.786  28.783  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.410   7.626  29.547  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      77.360   7.832  28.313  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.223  11.840  30.844  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      80.495   9.607  30.646  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.311  12.189  29.271  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.423   6.541  28.460  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.713   8.354  29.814  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.826   7.118  30.861  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      77.956   6.467  28.038  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.134  12.669  30.211  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      80.523  12.645  30.891  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      78.799  11.497  32.275  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      80.048   5.139  28.645  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      78.007  14.089  30.664  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      80.358  14.050  31.434  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      81.485   5.081  29.160  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      79.245   4.154  29.472  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      79.341  14.801  30.607  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      82.525   5.776  28.294  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      79.193  16.114  31.133  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.417   5.384  26.858  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      82.252   6.390  25.776  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.535   5.775  26.027  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.253   7.862  26.020  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      81.574   5.947  24.537  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      77.632   9.594  30.538  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      79.075   8.968  27.957  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.942  10.889  29.062  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      76.307  10.407  28.759  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.700  10.788  27.753  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.943   8.279  27.407  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.563   7.759  29.058  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.175   9.317  31.648  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.462  10.099  30.766  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      76.567  12.845  28.835  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.958   6.986  27.618  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.171   8.637  28.862  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.413   7.698  30.335  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      77.864   6.176  26.990  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      77.377   5.746  28.615  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      80.938  12.718  29.881  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      81.265  12.128  31.505  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      80.053   4.706  27.642  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      77.621  14.115  31.688  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      77.282  14.647  30.063  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      81.316  14.577  31.414  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      80.046  14.028  32.482  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.769   4.027  29.228  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      81.534   5.474  30.178  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      79.685  14.882  29.572  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      83.516   5.498  28.664  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      82.446   6.853  28.423  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.048   4.376  26.718  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      82.956   8.153  26.805  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.253   8.197  26.307  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.538   8.391  25.107  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      80.091  16.456  31.282  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      78.239   3.995  29.079  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      79.177   4.466  30.514  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      79.741   3.182  29.453  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.917   6.530  30.716  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      78.574   7.928  31.547  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.555   6.482  31.369  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      77.938  10.824  32.290  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      78.523  12.385  32.849  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      79.614  11.016  32.822  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      81.755   6.678  23.749  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      80.495   5.875  24.699  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      81.942   4.977  24.194  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.51', True, 'REMARK  Energy: 235.809\nREMARK  SimpleFitness: 235.809\nREMARK  FullFitness: -844.56604\nREMARK  InterFull: -25.478\nREMARK  IntraFull: 270.797\nREMARK  solvFull: -1262.77\nREMARK  surfFull: 172.885\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.77\nREMARK  deltaGcompsolvnonpol: 172.885\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.81678\nREMARK  deltaGligsolvnonpol: 13.5457\nREMARK  deltaGvdw: -25.478\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.077559\nREMARK  Cluster: 4\nREMARK  ClusterRank: 2\n', 51), ({'deltaGligsolvpol': -4.82038, 'surfFull': 172.98, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.98, 'SimpleFitness': 235.499, 'InterFull': -24.8434, 'extraFull': 0.0, 'Energy': 235.499, 'solvFull': -1262.84, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 4, 'deltaGligsolvnonpol': 13.5922, 'deltaGcompsolvpol': -1262.84, 'FullFitness': -844.4974, 'deltaG': -7.016998, 'ClusterRank': 3, 'IntraFull': 270.206, 'deltaGvdw': -24.8434}, 'V', ['REMARK  Energy: 235.499\n', 'REMARK  SimpleFitness: 235.499\n', 'REMARK  FullFitness: -844.4974\n', 'REMARK  InterFull: -24.8434\n', 'REMARK  IntraFull: 270.206\n', 'REMARK  solvFull: -1262.84\n', 'REMARK  surfFull: 172.98\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.84\n', 'REMARK  deltaGcompsolvnonpol: 172.98\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82038\n', 'REMARK  deltaGligsolvnonpol: 13.5922\n', 'REMARK  deltaGvdw: -24.8434\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.016998\n', 'REMARK  Cluster: 4\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      78.309  10.048  29.539  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.716   8.783  28.816  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.571  10.809  29.932  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.465  10.900  28.603  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.612   7.852  29.602  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      77.604   7.909  28.301  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.229  12.108  30.692  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      80.570   9.910  30.666  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.392  12.328  29.012  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.723   6.735  28.554  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.874   8.637  29.896  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.983   7.376  30.910  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      78.284   6.573  28.069  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.161  12.877  29.957  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      80.507  12.943  30.781  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      78.723  11.824  32.107  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      80.416   5.375  28.801  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      77.985  14.316  30.324  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      80.281  14.371  31.232  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      81.875   5.427  29.249  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      79.704   4.419  29.735  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      79.306  15.051  30.300  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      82.824   6.139  28.296  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      79.105  16.390  30.735  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.668   5.654  26.891  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      82.383   6.579  25.764  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.711   6.052  25.971  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.317   8.062  25.918  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      81.647   6.017  24.607  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      77.718   9.801  30.425  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      79.283   9.102  27.935  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      80.059  11.096  28.995  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      76.451  10.493  28.562  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.871  10.856  27.589  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      77.167   8.306  27.382  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.807   7.810  29.044  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.204   9.651  31.661  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.514  10.440  30.814  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      76.652  12.944  28.513  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      80.264   7.183  27.720  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.362   8.903  28.954  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.574   8.028  30.471  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.266   6.282  27.018  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      77.730   5.814  28.622  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      80.990  12.967  29.799  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      81.213  12.476  31.473  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      80.398   4.872  27.831  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      77.541  14.389  31.321  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      77.284  14.821  29.653  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      81.229  14.915  31.243  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      79.899  14.399  32.256  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      82.225   4.396  29.356  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      81.946   5.877  30.242  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      79.711  15.078  29.284  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      83.848   5.948  28.627  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      82.673   7.215  28.371  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.352   4.620  26.831  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      83.042   8.437  26.646  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.317   8.366  26.238  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.526   8.546  24.961  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      79.986  16.757  30.921  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      78.669   4.237  29.444  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      79.727   4.773  30.767  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      80.216   3.455  29.712  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      78.128   6.716  30.749  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      78.635   8.200  31.533  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.721   6.822  31.496  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      77.864  11.147  32.099  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      78.409  12.734  32.624  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      79.506  11.372  32.722  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      81.774   6.672  23.745  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      80.580   5.951  24.834  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      82.008   5.021  24.339  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.52', True, 'REMARK  Energy: 235.499\nREMARK  SimpleFitness: 235.499\nREMARK  FullFitness: -844.4974\nREMARK  InterFull: -24.8434\nREMARK  IntraFull: 270.206\nREMARK  solvFull: -1262.84\nREMARK  surfFull: 172.98\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.84\nREMARK  deltaGcompsolvnonpol: 172.98\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82038\nREMARK  deltaGligsolvnonpol: 13.5922\nREMARK  deltaGvdw: -24.8434\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.016998\nREMARK  Cluster: 4\nREMARK  ClusterRank: 3\n', 52), ({'deltaGligsolvpol': -4.82658, 'surfFull': 173.098, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.098, 'SimpleFitness': 236.302, 'InterFull': -24.6333, 'extraFull': 0.0, 'Energy': 236.302, 'solvFull': -1262.65, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 4, 'deltaGligsolvnonpol': 13.5447, 'deltaGcompsolvpol': -1262.65, 'FullFitness': -844.1443, 'deltaG': -6.9694614, 'ClusterRank': 4, 'IntraFull': 270.041, 'deltaGvdw': -24.6333}, 'V', ['REMARK  Energy: 236.302\n', 'REMARK  SimpleFitness: 236.302\n', 'REMARK  FullFitness: -844.1443\n', 'REMARK  InterFull: -24.6333\n', 'REMARK  IntraFull: 270.041\n', 'REMARK  solvFull: -1262.65\n', 'REMARK  surfFull: 173.098\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.65\n', 'REMARK  deltaGcompsolvnonpol: 173.098\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82658\n', 'REMARK  deltaGligsolvnonpol: 13.5447\n', 'REMARK  deltaGvdw: -24.6333\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9694614\n', 'REMARK  Cluster: 4\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      78.277   9.733  29.914  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.679   8.565  29.041  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.540  10.455  30.373  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.412  10.680  29.099  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.576   7.551  29.713  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      77.560   7.765  28.428  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.195  11.643  31.298  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      80.571   9.487  30.965  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.322  12.039  29.692  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.660   6.540  28.561  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.850   8.300  30.057  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.967   6.951  30.979  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      78.218   6.447  28.071  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.093  12.477  30.694  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      80.459  12.492  31.452  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      78.743  11.173  32.682  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      80.328   5.151  28.675  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      77.891  13.849  31.254  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      80.218  13.840  32.098  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      81.779   5.130  29.149  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      79.584   4.115  29.491  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      79.195  14.617  31.302  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      82.757   5.893  28.268  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      78.974  15.873  31.930  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.623   5.500  26.833  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      82.343   6.495  25.766  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.674   5.963  25.954  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.269   7.966  26.008  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      81.626   6.003  24.567  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      77.703   9.381  30.774  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      79.244   8.985  28.203  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      80.000  10.866  29.469  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      76.404  10.265  29.011  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.812  10.774  28.086  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      77.141   8.258  27.547  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.754   7.605  29.148  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.247   9.119  31.939  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.516  10.008  31.134  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      76.570  12.698  29.278  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      80.208   7.057  27.772  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.319   8.660  29.137  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.562   7.634  30.549  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.190   6.252  26.998  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      77.650   5.652  28.554  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      80.903  12.660  30.466  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      81.201  11.955  32.049  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      80.316   4.752  27.658  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      77.471  13.776  32.261  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      77.164  14.426  30.674  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      81.154  14.404  32.151  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      79.877  13.721  33.131  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      82.105   4.087  29.179  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      81.843   5.499  30.175  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      79.567  14.801  30.289  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      83.772   5.667  28.605  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      82.617   6.963  28.409  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.314   4.471  26.703  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      82.967   8.297  26.782  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.258   8.251  26.308  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.513   8.505  25.089  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      79.851  16.253  32.105  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      78.555   3.970  29.159  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      79.585   4.366  30.552  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      80.087   3.152  29.386  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      78.080   6.349  30.771  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      78.673   7.710  31.706  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.698   6.307  31.474  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      77.904  10.474  32.617  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      78.420  12.003  33.315  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      79.557  10.676  33.215  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      81.772   6.707  23.747  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      80.554   5.931  24.772  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      81.987   5.022  24.249  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.53', True, 'REMARK  Energy: 236.302\nREMARK  SimpleFitness: 236.302\nREMARK  FullFitness: -844.1443\nREMARK  InterFull: -24.6333\nREMARK  IntraFull: 270.041\nREMARK  solvFull: -1262.65\nREMARK  surfFull: 173.098\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.65\nREMARK  deltaGcompsolvnonpol: 173.098\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82658\nREMARK  deltaGligsolvnonpol: 13.5447\nREMARK  deltaGvdw: -24.6333\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9694614\nREMARK  Cluster: 4\nREMARK  ClusterRank: 4\n', 53), ({'deltaGligsolvpol': -4.82658, 'surfFull': 173.098, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.098, 'SimpleFitness': 236.302, 'InterFull': -24.6333, 'extraFull': 0.0, 'Energy': 236.302, 'solvFull': -1262.65, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 4, 'deltaGligsolvnonpol': 13.5447, 'deltaGcompsolvpol': -1262.65, 'FullFitness': -844.1443, 'deltaG': -6.9694614, 'ClusterRank': 5, 'IntraFull': 270.041, 'deltaGvdw': -24.6333}, 'V', ['REMARK  Energy: 236.302\n', 'REMARK  SimpleFitness: 236.302\n', 'REMARK  FullFitness: -844.1443\n', 'REMARK  InterFull: -24.6333\n', 'REMARK  IntraFull: 270.041\n', 'REMARK  solvFull: -1262.65\n', 'REMARK  surfFull: 173.098\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.65\n', 'REMARK  deltaGcompsolvnonpol: 173.098\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82658\n', 'REMARK  deltaGligsolvnonpol: 13.5447\n', 'REMARK  deltaGvdw: -24.6333\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9694614\n', 'REMARK  Cluster: 4\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      78.277   9.733  29.914  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.679   8.565  29.041  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.540  10.455  30.373  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.412  10.680  29.099  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.576   7.551  29.713  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      77.560   7.765  28.428  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.195  11.643  31.298  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      80.571   9.487  30.965  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.322  12.039  29.692  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.660   6.540  28.561  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.850   8.300  30.057  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.967   6.951  30.979  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      78.218   6.447  28.071  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.093  12.477  30.694  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      80.459  12.492  31.452  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      78.743  11.173  32.682  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      80.328   5.151  28.675  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      77.891  13.849  31.254  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      80.218  13.840  32.098  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      81.779   5.130  29.149  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      79.584   4.115  29.491  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      79.195  14.617  31.302  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      82.757   5.893  28.268  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      78.974  15.873  31.930  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.623   5.500  26.833  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      82.343   6.495  25.766  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.674   5.963  25.954  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.269   7.966  26.008  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      81.626   6.003  24.567  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      77.703   9.381  30.774  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      79.244   8.985  28.203  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      80.000  10.866  29.469  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      76.404  10.265  29.011  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.812  10.774  28.086  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      77.141   8.258  27.547  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.754   7.605  29.148  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.247   9.119  31.939  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.516  10.008  31.134  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      76.570  12.698  29.278  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      80.208   7.057  27.772  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.319   8.660  29.137  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.562   7.634  30.549  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.190   6.252  26.998  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      77.650   5.652  28.554  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      80.903  12.660  30.466  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      81.201  11.955  32.049  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      80.316   4.752  27.658  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      77.471  13.776  32.261  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      77.164  14.426  30.674  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      81.154  14.404  32.151  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      79.877  13.721  33.131  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      82.105   4.087  29.179  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      81.843   5.499  30.175  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      79.567  14.801  30.289  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      83.772   5.667  28.605  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      82.617   6.963  28.409  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.314   4.471  26.703  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      82.967   8.297  26.782  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.258   8.251  26.308  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.513   8.505  25.089  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      79.851  16.253  32.105  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      78.555   3.970  29.159  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      79.585   4.366  30.552  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      80.087   3.152  29.386  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      78.080   6.349  30.771  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      78.673   7.710  31.706  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.698   6.307  31.474  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      77.904  10.474  32.617  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      78.420  12.003  33.315  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      79.557  10.676  33.215  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      81.772   6.707  23.747  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      80.554   5.931  24.772  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      81.987   5.022  24.249  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.54', True, 'REMARK  Energy: 236.302\nREMARK  SimpleFitness: 236.302\nREMARK  FullFitness: -844.1443\nREMARK  InterFull: -24.6333\nREMARK  IntraFull: 270.041\nREMARK  solvFull: -1262.65\nREMARK  surfFull: 173.098\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.65\nREMARK  deltaGcompsolvnonpol: 173.098\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82658\nREMARK  deltaGligsolvnonpol: 13.5447\nREMARK  deltaGvdw: -24.6333\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9694614\nREMARK  Cluster: 4\nREMARK  ClusterRank: 5\n', 54), ({'deltaGligsolvpol': -4.82658, 'surfFull': 173.098, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.098, 'SimpleFitness': 236.302, 'InterFull': -24.6333, 'extraFull': 0.0, 'Energy': 236.302, 'solvFull': -1262.65, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 4, 'deltaGligsolvnonpol': 13.5447, 'deltaGcompsolvpol': -1262.65, 'FullFitness': -844.1443, 'deltaG': -6.9694614, 'ClusterRank': 6, 'IntraFull': 270.041, 'deltaGvdw': -24.6333}, 'V', ['REMARK  Energy: 236.302\n', 'REMARK  SimpleFitness: 236.302\n', 'REMARK  FullFitness: -844.1443\n', 'REMARK  InterFull: -24.6333\n', 'REMARK  IntraFull: 270.041\n', 'REMARK  solvFull: -1262.65\n', 'REMARK  surfFull: 173.098\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.65\n', 'REMARK  deltaGcompsolvnonpol: 173.098\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82658\n', 'REMARK  deltaGligsolvnonpol: 13.5447\n', 'REMARK  deltaGvdw: -24.6333\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9694614\n', 'REMARK  Cluster: 4\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      78.277   9.733  29.914  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.679   8.565  29.041  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.540  10.455  30.373  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.412  10.680  29.099  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.576   7.551  29.713  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      77.560   7.765  28.428  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.195  11.643  31.298  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      80.571   9.487  30.965  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.322  12.039  29.692  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.660   6.540  28.561  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.850   8.300  30.057  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.967   6.951  30.979  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      78.218   6.447  28.071  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.093  12.477  30.694  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      80.459  12.492  31.452  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      78.743  11.173  32.682  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      80.328   5.151  28.675  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      77.891  13.849  31.254  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      80.218  13.840  32.098  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      81.779   5.130  29.149  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      79.584   4.115  29.491  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      79.195  14.617  31.302  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      82.757   5.893  28.268  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      78.974  15.873  31.930  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.623   5.500  26.833  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      82.343   6.495  25.766  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.674   5.963  25.954  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.269   7.966  26.008  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      81.626   6.003  24.567  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      77.703   9.381  30.774  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      79.244   8.985  28.203  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      80.000  10.866  29.469  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      76.404  10.265  29.011  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.812  10.774  28.086  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      77.141   8.258  27.547  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.754   7.605  29.148  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.247   9.119  31.939  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.516  10.008  31.134  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      76.570  12.698  29.278  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      80.208   7.057  27.772  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.319   8.660  29.137  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.562   7.634  30.549  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.190   6.252  26.998  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      77.650   5.652  28.554  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      80.903  12.660  30.466  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      81.201  11.955  32.049  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      80.316   4.752  27.658  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      77.471  13.776  32.261  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      77.164  14.426  30.674  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      81.154  14.404  32.151  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      79.877  13.721  33.131  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      82.105   4.087  29.179  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      81.843   5.499  30.175  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      79.567  14.801  30.289  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      83.772   5.667  28.605  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      82.617   6.963  28.409  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.314   4.471  26.703  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      82.967   8.297  26.782  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.258   8.251  26.308  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.513   8.505  25.089  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      79.851  16.253  32.105  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      78.555   3.970  29.159  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      79.585   4.366  30.552  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      80.087   3.152  29.386  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      78.080   6.349  30.771  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      78.673   7.710  31.706  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.698   6.307  31.474  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      77.904  10.474  32.617  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      78.420  12.003  33.315  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      79.557  10.676  33.215  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      81.772   6.707  23.747  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      80.554   5.931  24.772  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      81.987   5.022  24.249  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.55', True, 'REMARK  Energy: 236.302\nREMARK  SimpleFitness: 236.302\nREMARK  FullFitness: -844.1443\nREMARK  InterFull: -24.6333\nREMARK  IntraFull: 270.041\nREMARK  solvFull: -1262.65\nREMARK  surfFull: 173.098\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.65\nREMARK  deltaGcompsolvnonpol: 173.098\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82658\nREMARK  deltaGligsolvnonpol: 13.5447\nREMARK  deltaGvdw: -24.6333\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9694614\nREMARK  Cluster: 4\nREMARK  ClusterRank: 6\n', 55), ({'deltaGligsolvpol': -4.82658, 'surfFull': 173.098, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.098, 'SimpleFitness': 236.302, 'InterFull': -24.6333, 'extraFull': 0.0, 'Energy': 236.302, 'solvFull': -1262.65, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 4, 'deltaGligsolvnonpol': 13.5447, 'deltaGcompsolvpol': -1262.65, 'FullFitness': -844.1443, 'deltaG': -6.9694614, 'ClusterRank': 7, 'IntraFull': 270.041, 'deltaGvdw': -24.6333}, 'V', ['REMARK  Energy: 236.302\n', 'REMARK  SimpleFitness: 236.302\n', 'REMARK  FullFitness: -844.1443\n', 'REMARK  InterFull: -24.6333\n', 'REMARK  IntraFull: 270.041\n', 'REMARK  solvFull: -1262.65\n', 'REMARK  surfFull: 173.098\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.65\n', 'REMARK  deltaGcompsolvnonpol: 173.098\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82658\n', 'REMARK  deltaGligsolvnonpol: 13.5447\n', 'REMARK  deltaGvdw: -24.6333\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9694614\n', 'REMARK  Cluster: 4\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      78.277   9.733  29.914  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.679   8.565  29.041  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.540  10.455  30.373  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.412  10.680  29.099  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.576   7.551  29.713  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      77.560   7.765  28.428  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.195  11.643  31.298  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      80.571   9.487  30.965  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.322  12.039  29.692  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.660   6.540  28.561  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.850   8.300  30.057  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.967   6.951  30.979  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      78.218   6.447  28.071  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.093  12.477  30.694  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      80.459  12.492  31.452  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      78.743  11.173  32.682  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      80.328   5.151  28.675  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      77.891  13.849  31.254  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      80.218  13.840  32.098  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      81.779   5.130  29.149  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      79.584   4.115  29.491  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      79.195  14.617  31.302  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      82.757   5.893  28.268  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      78.974  15.873  31.930  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.623   5.500  26.833  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      82.343   6.495  25.766  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.674   5.963  25.954  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.269   7.966  26.008  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      81.626   6.003  24.567  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      77.703   9.381  30.774  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      79.244   8.985  28.203  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      80.000  10.866  29.469  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      76.404  10.265  29.011  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.812  10.774  28.086  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      77.141   8.258  27.547  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.754   7.605  29.148  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.247   9.119  31.939  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.516  10.008  31.134  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      76.570  12.698  29.278  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      80.208   7.057  27.772  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.319   8.660  29.137  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.562   7.634  30.549  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.190   6.252  26.998  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      77.650   5.652  28.554  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      80.903  12.660  30.466  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      81.201  11.955  32.049  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      80.316   4.752  27.658  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      77.471  13.776  32.261  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      77.164  14.426  30.674  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      81.154  14.404  32.151  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      79.877  13.721  33.131  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      82.105   4.087  29.179  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      81.843   5.499  30.175  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      79.567  14.801  30.289  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      83.772   5.667  28.605  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      82.617   6.963  28.409  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.314   4.471  26.703  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      82.967   8.297  26.782  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.258   8.251  26.308  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.513   8.505  25.089  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      79.851  16.253  32.105  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      78.555   3.970  29.159  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      79.585   4.366  30.552  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      80.087   3.152  29.386  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      78.080   6.349  30.771  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      78.673   7.710  31.706  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.698   6.307  31.474  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      77.904  10.474  32.617  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      78.420  12.003  33.315  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      79.557  10.676  33.215  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      81.772   6.707  23.747  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      80.554   5.931  24.772  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      81.987   5.022  24.249  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.56', True, 'REMARK  Energy: 236.302\nREMARK  SimpleFitness: 236.302\nREMARK  FullFitness: -844.1443\nREMARK  InterFull: -24.6333\nREMARK  IntraFull: 270.041\nREMARK  solvFull: -1262.65\nREMARK  surfFull: 173.098\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.65\nREMARK  deltaGcompsolvnonpol: 173.098\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82658\nREMARK  deltaGligsolvnonpol: 13.5447\nREMARK  deltaGvdw: -24.6333\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9694614\nREMARK  Cluster: 4\nREMARK  ClusterRank: 7\n', 56), ({'deltaGligsolvpol': -4.86403, 'surfFull': 171.834, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.834, 'SimpleFitness': 226.315, 'InterFull': -34.2401, 'extraFull': 0.0, 'Energy': 226.315, 'solvFull': -1251.5, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 5, 'deltaGligsolvnonpol': 12.8208, 'deltaGcompsolvpol': -1251.5, 'FullFitness': -844.49414, 'deltaG': -7.244685, 'ClusterRank': 0, 'IntraFull': 269.412, 'deltaGvdw': -34.2401}, 'V', ['REMARK  Energy: 226.315\n', 'REMARK  SimpleFitness: 226.315\n', 'REMARK  FullFitness: -844.49414\n', 'REMARK  InterFull: -34.2401\n', 'REMARK  IntraFull: 269.412\n', 'REMARK  solvFull: -1251.5\n', 'REMARK  surfFull: 171.834\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1251.5\n', 'REMARK  deltaGcompsolvnonpol: 171.834\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.86403\n', 'REMARK  deltaGligsolvnonpol: 12.8208\n', 'REMARK  deltaGvdw: -34.2401\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.244685\n', 'REMARK  Cluster: 5\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      61.436  -2.775  25.425  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      62.930  -2.955  25.237  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      61.161  -1.462  26.153  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      60.743  -2.737  24.072  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      63.726  -2.931  26.521  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      63.376  -4.213  24.539  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      59.655  -1.320  26.468  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      62.064  -1.263  27.373  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      59.336  -2.255  24.170  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      65.116  -3.241  25.940  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      63.530  -1.538  27.085  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      63.260  -3.988  27.527  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      64.837  -4.352  24.931  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      58.828  -1.645  25.249  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.390   0.125  26.895  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      59.228  -2.251  27.608  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      66.366  -3.506  26.814  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      57.382  -1.257  25.289  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      57.916   0.456  27.020  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      66.685  -2.310  27.693  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.367  -4.773  27.660  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      57.204   0.188  25.711  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      68.115  -2.318  28.208  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.820   0.463  25.875  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      68.438  -1.010  28.854  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      68.050  -0.683  30.251  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.403  -1.073  29.925  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      67.318  -1.658  31.109  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      67.913   0.744  30.642  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      61.036  -3.618  25.992  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      63.276  -2.118  24.621  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      61.429  -0.664  25.452  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      60.744  -3.739  23.635  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      61.291  -2.084  23.387  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.254  -4.141  23.455  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      62.805  -5.078  24.888  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      61.750  -1.893  28.206  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      61.975  -0.234  27.726  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      58.692  -2.445  23.320  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      65.375  -2.359  25.346  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      63.905  -0.796  26.375  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      64.097  -1.421  28.009  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.492  -4.255  24.061  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      64.996  -5.348  25.347  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.839   0.808  26.168  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      59.866   0.328  27.858  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.194  -3.618  26.108  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      56.849  -1.908  25.989  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      56.893  -1.410  24.321  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.792   1.506  27.300  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      57.453  -0.124  27.823  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.997  -2.280  28.542  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.511  -1.399  27.119  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.587   0.855  24.937  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      68.801  -2.472  27.371  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      68.269  -3.149  28.901  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.557  -0.212  28.138  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.628  -2.690  30.928  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      66.244  -1.586  30.925  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.499  -1.436  32.164  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.763   1.352  26.264  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      65.999  -5.638  27.107  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.755  -4.647  28.555  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      67.381  -5.009  27.991  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      63.483  -5.005  27.196  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      62.188  -3.949  27.728  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.763  -3.833  28.484  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      59.517  -3.287  27.415  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      58.146  -2.247  27.769  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      59.680  -1.945  28.555  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      66.915   1.106  30.388  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      68.642   1.374  30.127  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      68.061   0.859  31.719  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.57', True, 'REMARK  Energy: 226.315\nREMARK  SimpleFitness: 226.315\nREMARK  FullFitness: -844.49414\nREMARK  InterFull: -34.2401\nREMARK  IntraFull: 269.412\nREMARK  solvFull: -1251.5\nREMARK  surfFull: 171.834\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1251.5\nREMARK  deltaGcompsolvnonpol: 171.834\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.86403\nREMARK  deltaGligsolvnonpol: 12.8208\nREMARK  deltaGvdw: -34.2401\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.244685\nREMARK  Cluster: 5\nREMARK  ClusterRank: 0\n', 57), ({'deltaGligsolvpol': -4.86455, 'surfFull': 171.832, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.832, 'SimpleFitness': 226.311, 'InterFull': -34.2646, 'extraFull': 0.0, 'Energy': 226.311, 'solvFull': -1251.49, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 5, 'deltaGligsolvnonpol': 12.8192, 'deltaGcompsolvpol': -1251.49, 'FullFitness': -844.49365, 'deltaG': -7.246396, 'ClusterRank': 1, 'IntraFull': 269.429, 'deltaGvdw': -34.2646}, 'V', ['REMARK  Energy: 226.311\n', 'REMARK  SimpleFitness: 226.311\n', 'REMARK  FullFitness: -844.49365\n', 'REMARK  InterFull: -34.2646\n', 'REMARK  IntraFull: 269.429\n', 'REMARK  solvFull: -1251.49\n', 'REMARK  surfFull: 171.832\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1251.49\n', 'REMARK  deltaGcompsolvnonpol: 171.832\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.86455\n', 'REMARK  deltaGligsolvnonpol: 12.8192\n', 'REMARK  deltaGvdw: -34.2646\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.246396\n', 'REMARK  Cluster: 5\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      61.437  -2.768  25.417  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      62.930  -2.948  25.230  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      61.161  -1.454  26.144  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      60.743  -2.731  24.065  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      63.727  -2.923  26.515  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      63.376  -4.207  24.535  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      59.654  -1.314  26.460  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      62.065  -1.252  27.364  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      59.336  -2.250  24.163  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      65.116  -3.235  25.935  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      63.531  -1.528  27.076  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      63.259  -3.977  27.523  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      64.837  -4.346  24.928  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      58.827  -1.639  25.241  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.387   0.131  26.887  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      59.229  -2.244  27.601  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      66.365  -3.502  26.811  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      57.381  -1.254  25.281  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      57.913   0.460  27.012  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      66.683  -2.307  27.692  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.365  -4.769  27.655  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      57.201   0.190  25.704  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      68.112  -2.316  28.209  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.815   0.462  25.868  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      68.437  -1.008  28.855  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      68.050  -0.681  30.253  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.403  -1.072  29.926  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      67.317  -1.656  31.110  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      67.913   0.745  30.642  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      61.037  -3.610  25.985  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      63.277  -2.112  24.614  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      61.427  -0.656  25.442  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      60.746  -3.733  23.628  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      61.291  -2.078  23.379  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.254  -4.138  23.451  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      62.805  -5.071  24.886  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      61.751  -1.880  28.198  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      61.976  -0.222  27.714  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      58.692  -2.441  23.313  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      65.377  -2.354  25.341  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      63.906  -0.787  26.364  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      64.098  -1.408  28.000  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.492  -4.251  24.058  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      64.995  -5.342  25.344  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.835   0.815  26.160  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      59.864   0.335  27.849  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.194  -3.612  26.106  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      56.850  -1.907  25.980  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      56.893  -1.408  24.313  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.787   1.510  27.291  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      57.451  -0.120  27.816  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.995  -2.278  28.541  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.510  -1.395  27.120  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.581   0.858  24.929  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      68.799  -2.470  27.372  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      68.266  -3.148  28.901  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.557  -0.211  28.139  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.627  -2.689  30.928  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      66.243  -1.584  30.926  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.497  -1.434  32.165  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.756   1.353  26.253  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      66.002  -5.635  27.099  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.749  -4.647  28.548  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      67.378  -5.004  27.991  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      63.483  -4.995  27.195  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      62.187  -3.937  27.722  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.761  -3.819  28.481  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      59.518  -3.280  27.408  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      58.148  -2.241  27.762  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      59.681  -1.938  28.547  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      66.916   1.109  30.386  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      68.644   1.375  30.128  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      68.059   0.861  31.719  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.58', True, 'REMARK  Energy: 226.311\nREMARK  SimpleFitness: 226.311\nREMARK  FullFitness: -844.49365\nREMARK  InterFull: -34.2646\nREMARK  IntraFull: 269.429\nREMARK  solvFull: -1251.49\nREMARK  surfFull: 171.832\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1251.49\nREMARK  deltaGcompsolvnonpol: 171.832\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.86455\nREMARK  deltaGligsolvnonpol: 12.8192\nREMARK  deltaGvdw: -34.2646\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.246396\nREMARK  Cluster: 5\nREMARK  ClusterRank: 1\n', 58), ({'deltaGligsolvpol': -4.86455, 'surfFull': 171.832, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.832, 'SimpleFitness': 226.311, 'InterFull': -34.2646, 'extraFull': 0.0, 'Energy': 226.311, 'solvFull': -1251.49, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 5, 'deltaGligsolvnonpol': 12.8192, 'deltaGcompsolvpol': -1251.49, 'FullFitness': -844.49365, 'deltaG': -7.246396, 'ClusterRank': 2, 'IntraFull': 269.429, 'deltaGvdw': -34.2646}, 'V', ['REMARK  Energy: 226.311\n', 'REMARK  SimpleFitness: 226.311\n', 'REMARK  FullFitness: -844.49365\n', 'REMARK  InterFull: -34.2646\n', 'REMARK  IntraFull: 269.429\n', 'REMARK  solvFull: -1251.49\n', 'REMARK  surfFull: 171.832\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1251.49\n', 'REMARK  deltaGcompsolvnonpol: 171.832\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.86455\n', 'REMARK  deltaGligsolvnonpol: 12.8192\n', 'REMARK  deltaGvdw: -34.2646\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.246396\n', 'REMARK  Cluster: 5\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      61.437  -2.768  25.417  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      62.930  -2.948  25.230  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      61.161  -1.454  26.144  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      60.743  -2.731  24.065  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      63.727  -2.923  26.515  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      63.376  -4.207  24.535  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      59.654  -1.314  26.460  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      62.065  -1.252  27.364  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      59.336  -2.250  24.163  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      65.116  -3.235  25.935  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      63.531  -1.528  27.076  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      63.259  -3.977  27.523  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      64.837  -4.346  24.928  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      58.827  -1.639  25.241  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.387   0.131  26.887  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      59.229  -2.244  27.601  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      66.365  -3.502  26.811  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      57.381  -1.254  25.281  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      57.913   0.460  27.012  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      66.683  -2.307  27.692  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.365  -4.769  27.655  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      57.201   0.190  25.704  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      68.112  -2.316  28.209  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.815   0.462  25.868  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      68.437  -1.008  28.855  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      68.050  -0.681  30.253  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.403  -1.072  29.926  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      67.317  -1.656  31.110  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      67.913   0.745  30.642  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      61.037  -3.610  25.985  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      63.277  -2.112  24.614  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      61.427  -0.656  25.442  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      60.746  -3.733  23.628  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      61.291  -2.078  23.379  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.254  -4.138  23.451  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      62.805  -5.071  24.886  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      61.751  -1.880  28.198  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      61.976  -0.222  27.714  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      58.692  -2.441  23.313  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      65.377  -2.354  25.341  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      63.906  -0.787  26.364  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      64.098  -1.408  28.000  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.492  -4.251  24.058  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      64.995  -5.342  25.344  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.835   0.815  26.160  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      59.864   0.335  27.849  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.194  -3.612  26.106  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      56.850  -1.907  25.980  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      56.893  -1.408  24.313  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.787   1.510  27.291  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      57.451  -0.120  27.816  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.995  -2.278  28.541  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.510  -1.395  27.120  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.581   0.858  24.929  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      68.799  -2.470  27.372  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      68.266  -3.148  28.901  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.557  -0.211  28.139  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.627  -2.689  30.928  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      66.243  -1.584  30.926  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.497  -1.434  32.165  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.756   1.353  26.253  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      66.002  -5.635  27.099  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.749  -4.647  28.548  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      67.378  -5.004  27.991  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      63.483  -4.995  27.195  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      62.187  -3.937  27.722  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.761  -3.819  28.481  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      59.518  -3.280  27.408  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      58.148  -2.241  27.762  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      59.681  -1.938  28.547  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      66.916   1.109  30.386  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      68.644   1.375  30.128  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      68.059   0.861  31.719  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.59', True, 'REMARK  Energy: 226.311\nREMARK  SimpleFitness: 226.311\nREMARK  FullFitness: -844.49365\nREMARK  InterFull: -34.2646\nREMARK  IntraFull: 269.429\nREMARK  solvFull: -1251.49\nREMARK  surfFull: 171.832\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1251.49\nREMARK  deltaGcompsolvnonpol: 171.832\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.86455\nREMARK  deltaGligsolvnonpol: 12.8192\nREMARK  deltaGvdw: -34.2646\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.246396\nREMARK  Cluster: 5\nREMARK  ClusterRank: 2\n', 59), ({'deltaGligsolvpol': -4.86455, 'surfFull': 171.832, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.832, 'SimpleFitness': 226.311, 'InterFull': -34.2646, 'extraFull': 0.0, 'Energy': 226.311, 'solvFull': -1251.49, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 5, 'deltaGligsolvnonpol': 12.8192, 'deltaGcompsolvpol': -1251.49, 'FullFitness': -844.49365, 'deltaG': -7.246396, 'ClusterRank': 3, 'IntraFull': 269.429, 'deltaGvdw': -34.2646}, 'V', ['REMARK  Energy: 226.311\n', 'REMARK  SimpleFitness: 226.311\n', 'REMARK  FullFitness: -844.49365\n', 'REMARK  InterFull: -34.2646\n', 'REMARK  IntraFull: 269.429\n', 'REMARK  solvFull: -1251.49\n', 'REMARK  surfFull: 171.832\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1251.49\n', 'REMARK  deltaGcompsolvnonpol: 171.832\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.86455\n', 'REMARK  deltaGligsolvnonpol: 12.8192\n', 'REMARK  deltaGvdw: -34.2646\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.246396\n', 'REMARK  Cluster: 5\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      61.437  -2.768  25.417  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      62.930  -2.948  25.230  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      61.161  -1.454  26.144  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      60.743  -2.731  24.065  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      63.727  -2.923  26.515  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      63.376  -4.207  24.535  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      59.654  -1.314  26.460  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      62.065  -1.252  27.364  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      59.336  -2.250  24.163  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      65.116  -3.235  25.935  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      63.531  -1.528  27.076  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      63.259  -3.977  27.523  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      64.837  -4.346  24.928  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      58.827  -1.639  25.241  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.387   0.131  26.887  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      59.229  -2.244  27.601  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      66.365  -3.502  26.811  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      57.381  -1.254  25.281  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      57.913   0.460  27.012  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      66.683  -2.307  27.692  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.365  -4.769  27.655  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      57.201   0.190  25.704  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      68.112  -2.316  28.209  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.815   0.462  25.868  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      68.437  -1.008  28.855  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      68.050  -0.681  30.253  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.403  -1.072  29.926  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      67.317  -1.656  31.110  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      67.913   0.745  30.642  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      61.037  -3.610  25.985  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      63.277  -2.112  24.614  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      61.427  -0.656  25.442  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      60.746  -3.733  23.628  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      61.291  -2.078  23.379  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.254  -4.138  23.451  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      62.805  -5.071  24.886  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      61.751  -1.880  28.198  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      61.976  -0.222  27.714  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      58.692  -2.441  23.313  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      65.377  -2.354  25.341  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      63.906  -0.787  26.364  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      64.098  -1.408  28.000  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.492  -4.251  24.058  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      64.995  -5.342  25.344  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.835   0.815  26.160  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      59.864   0.335  27.849  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.194  -3.612  26.106  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      56.850  -1.907  25.980  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      56.893  -1.408  24.313  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.787   1.510  27.291  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      57.451  -0.120  27.816  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.995  -2.278  28.541  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.510  -1.395  27.120  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.581   0.858  24.929  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      68.799  -2.470  27.372  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      68.266  -3.148  28.901  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.557  -0.211  28.139  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.627  -2.689  30.928  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      66.243  -1.584  30.926  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.497  -1.434  32.165  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.756   1.353  26.253  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      66.002  -5.635  27.099  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.749  -4.647  28.548  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      67.378  -5.004  27.991  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      63.483  -4.995  27.195  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      62.187  -3.937  27.722  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.761  -3.819  28.481  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      59.518  -3.280  27.408  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      58.148  -2.241  27.762  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      59.681  -1.938  28.547  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      66.916   1.109  30.386  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      68.644   1.375  30.128  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      68.059   0.861  31.719  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.60', True, 'REMARK  Energy: 226.311\nREMARK  SimpleFitness: 226.311\nREMARK  FullFitness: -844.49365\nREMARK  InterFull: -34.2646\nREMARK  IntraFull: 269.429\nREMARK  solvFull: -1251.49\nREMARK  surfFull: 171.832\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1251.49\nREMARK  deltaGcompsolvnonpol: 171.832\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.86455\nREMARK  deltaGligsolvnonpol: 12.8192\nREMARK  deltaGvdw: -34.2646\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.246396\nREMARK  Cluster: 5\nREMARK  ClusterRank: 3\n', 60), ({'deltaGligsolvpol': -4.86455, 'surfFull': 171.832, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.832, 'SimpleFitness': 226.311, 'InterFull': -34.2646, 'extraFull': 0.0, 'Energy': 226.311, 'solvFull': -1251.49, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 5, 'deltaGligsolvnonpol': 12.8192, 'deltaGcompsolvpol': -1251.49, 'FullFitness': -844.49365, 'deltaG': -7.246396, 'ClusterRank': 4, 'IntraFull': 269.429, 'deltaGvdw': -34.2646}, 'V', ['REMARK  Energy: 226.311\n', 'REMARK  SimpleFitness: 226.311\n', 'REMARK  FullFitness: -844.49365\n', 'REMARK  InterFull: -34.2646\n', 'REMARK  IntraFull: 269.429\n', 'REMARK  solvFull: -1251.49\n', 'REMARK  surfFull: 171.832\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1251.49\n', 'REMARK  deltaGcompsolvnonpol: 171.832\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.86455\n', 'REMARK  deltaGligsolvnonpol: 12.8192\n', 'REMARK  deltaGvdw: -34.2646\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.246396\n', 'REMARK  Cluster: 5\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      61.437  -2.768  25.417  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      62.930  -2.948  25.230  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      61.161  -1.454  26.144  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      60.743  -2.731  24.065  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      63.727  -2.923  26.515  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      63.376  -4.207  24.535  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      59.654  -1.314  26.460  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      62.065  -1.252  27.364  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      59.336  -2.250  24.163  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      65.116  -3.235  25.935  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      63.531  -1.528  27.076  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      63.259  -3.977  27.523  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      64.837  -4.346  24.928  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      58.827  -1.639  25.241  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.387   0.131  26.887  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      59.229  -2.244  27.601  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      66.365  -3.502  26.811  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      57.381  -1.254  25.281  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      57.913   0.460  27.012  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      66.683  -2.307  27.692  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.365  -4.769  27.655  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      57.201   0.190  25.704  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      68.112  -2.316  28.209  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.815   0.462  25.868  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      68.437  -1.008  28.855  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      68.050  -0.681  30.253  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.403  -1.072  29.926  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      67.317  -1.656  31.110  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      67.913   0.745  30.642  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      61.037  -3.610  25.985  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      63.277  -2.112  24.614  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      61.427  -0.656  25.442  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      60.746  -3.733  23.628  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      61.291  -2.078  23.379  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.254  -4.138  23.451  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      62.805  -5.071  24.886  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      61.751  -1.880  28.198  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      61.976  -0.222  27.714  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      58.692  -2.441  23.313  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      65.377  -2.354  25.341  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      63.906  -0.787  26.364  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      64.098  -1.408  28.000  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.492  -4.251  24.058  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      64.995  -5.342  25.344  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.835   0.815  26.160  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      59.864   0.335  27.849  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.194  -3.612  26.106  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      56.850  -1.907  25.980  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      56.893  -1.408  24.313  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.787   1.510  27.291  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      57.451  -0.120  27.816  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.995  -2.278  28.541  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.510  -1.395  27.120  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.581   0.858  24.929  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      68.799  -2.470  27.372  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      68.266  -3.148  28.901  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.557  -0.211  28.139  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.627  -2.689  30.928  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      66.243  -1.584  30.926  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.497  -1.434  32.165  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.756   1.353  26.253  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      66.002  -5.635  27.099  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.749  -4.647  28.548  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      67.378  -5.004  27.991  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      63.483  -4.995  27.195  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      62.187  -3.937  27.722  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.761  -3.819  28.481  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      59.518  -3.280  27.408  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      58.148  -2.241  27.762  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      59.681  -1.938  28.547  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      66.916   1.109  30.386  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      68.644   1.375  30.128  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      68.059   0.861  31.719  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.61', True, 'REMARK  Energy: 226.311\nREMARK  SimpleFitness: 226.311\nREMARK  FullFitness: -844.49365\nREMARK  InterFull: -34.2646\nREMARK  IntraFull: 269.429\nREMARK  solvFull: -1251.49\nREMARK  surfFull: 171.832\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1251.49\nREMARK  deltaGcompsolvnonpol: 171.832\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.86455\nREMARK  deltaGligsolvnonpol: 12.8192\nREMARK  deltaGvdw: -34.2646\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.246396\nREMARK  Cluster: 5\nREMARK  ClusterRank: 4\n', 61), ({'deltaGligsolvpol': -4.86455, 'surfFull': 171.832, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.832, 'SimpleFitness': 226.311, 'InterFull': -34.2646, 'extraFull': 0.0, 'Energy': 226.311, 'solvFull': -1251.49, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 5, 'deltaGligsolvnonpol': 12.8192, 'deltaGcompsolvpol': -1251.49, 'FullFitness': -844.49365, 'deltaG': -7.246396, 'ClusterRank': 5, 'IntraFull': 269.429, 'deltaGvdw': -34.2646}, 'V', ['REMARK  Energy: 226.311\n', 'REMARK  SimpleFitness: 226.311\n', 'REMARK  FullFitness: -844.49365\n', 'REMARK  InterFull: -34.2646\n', 'REMARK  IntraFull: 269.429\n', 'REMARK  solvFull: -1251.49\n', 'REMARK  surfFull: 171.832\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1251.49\n', 'REMARK  deltaGcompsolvnonpol: 171.832\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.86455\n', 'REMARK  deltaGligsolvnonpol: 12.8192\n', 'REMARK  deltaGvdw: -34.2646\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.246396\n', 'REMARK  Cluster: 5\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      61.437  -2.768  25.417  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      62.930  -2.948  25.230  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      61.161  -1.454  26.144  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      60.743  -2.731  24.065  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      63.727  -2.923  26.515  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      63.376  -4.207  24.535  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      59.654  -1.314  26.460  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      62.065  -1.252  27.364  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      59.336  -2.250  24.163  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      65.116  -3.235  25.935  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      63.531  -1.528  27.076  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      63.259  -3.977  27.523  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      64.837  -4.346  24.928  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      58.827  -1.639  25.241  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.387   0.131  26.887  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      59.229  -2.244  27.601  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      66.365  -3.502  26.811  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      57.381  -1.254  25.281  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      57.913   0.460  27.012  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      66.683  -2.307  27.692  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.365  -4.769  27.655  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      57.201   0.190  25.704  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      68.112  -2.316  28.209  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.815   0.462  25.868  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      68.437  -1.008  28.855  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      68.050  -0.681  30.253  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.403  -1.072  29.926  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      67.317  -1.656  31.110  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      67.913   0.745  30.642  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      61.037  -3.610  25.985  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      63.277  -2.112  24.614  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      61.427  -0.656  25.442  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      60.746  -3.733  23.628  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      61.291  -2.078  23.379  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.254  -4.138  23.451  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      62.805  -5.071  24.886  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      61.751  -1.880  28.198  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      61.976  -0.222  27.714  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      58.692  -2.441  23.313  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      65.377  -2.354  25.341  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      63.906  -0.787  26.364  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      64.098  -1.408  28.000  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.492  -4.251  24.058  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      64.995  -5.342  25.344  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.835   0.815  26.160  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      59.864   0.335  27.849  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.194  -3.612  26.106  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      56.850  -1.907  25.980  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      56.893  -1.408  24.313  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.787   1.510  27.291  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      57.451  -0.120  27.816  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.995  -2.278  28.541  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.510  -1.395  27.120  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.581   0.858  24.929  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      68.799  -2.470  27.372  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      68.266  -3.148  28.901  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.557  -0.211  28.139  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.627  -2.689  30.928  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      66.243  -1.584  30.926  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.497  -1.434  32.165  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.756   1.353  26.253  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      66.002  -5.635  27.099  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.749  -4.647  28.548  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      67.378  -5.004  27.991  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      63.483  -4.995  27.195  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      62.187  -3.937  27.722  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.761  -3.819  28.481  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      59.518  -3.280  27.408  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      58.148  -2.241  27.762  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      59.681  -1.938  28.547  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      66.916   1.109  30.386  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      68.644   1.375  30.128  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      68.059   0.861  31.719  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.62', True, 'REMARK  Energy: 226.311\nREMARK  SimpleFitness: 226.311\nREMARK  FullFitness: -844.49365\nREMARK  InterFull: -34.2646\nREMARK  IntraFull: 269.429\nREMARK  solvFull: -1251.49\nREMARK  surfFull: 171.832\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1251.49\nREMARK  deltaGcompsolvnonpol: 171.832\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.86455\nREMARK  deltaGligsolvnonpol: 12.8192\nREMARK  deltaGvdw: -34.2646\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.246396\nREMARK  Cluster: 5\nREMARK  ClusterRank: 5\n', 62), ({'deltaGligsolvpol': -4.86436, 'surfFull': 171.836, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.836, 'SimpleFitness': 226.309, 'InterFull': -34.2665, 'extraFull': 0.0, 'Energy': 226.309, 'solvFull': -1251.5, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 5, 'deltaGligsolvnonpol': 12.8174, 'deltaGcompsolvpol': -1251.5, 'FullFitness': -844.4885, 'deltaG': -7.2466516, 'ClusterRank': 6, 'IntraFull': 269.442, 'deltaGvdw': -34.2665}, 'V', ['REMARK  Energy: 226.309\n', 'REMARK  SimpleFitness: 226.309\n', 'REMARK  FullFitness: -844.4885\n', 'REMARK  InterFull: -34.2665\n', 'REMARK  IntraFull: 269.442\n', 'REMARK  solvFull: -1251.5\n', 'REMARK  surfFull: 171.836\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1251.5\n', 'REMARK  deltaGcompsolvnonpol: 171.836\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.86436\n', 'REMARK  deltaGligsolvnonpol: 12.8174\n', 'REMARK  deltaGvdw: -34.2665\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.2466516\n', 'REMARK  Cluster: 5\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      61.434  -2.767  25.409  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      62.928  -2.946  25.224  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      61.156  -1.451  26.132  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      60.741  -2.734  24.057  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      63.723  -2.917  26.509  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      63.374  -4.208  24.533  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      59.649  -1.315  26.450  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      62.060  -1.243  27.351  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      59.333  -2.255  24.154  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      65.113  -3.233  25.933  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      63.527  -1.519  27.064  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      63.253  -3.967  27.521  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      64.834  -4.346  24.927  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      58.823  -1.644  25.231  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.378   0.129  26.876  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      59.226  -2.245  27.591  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      66.360  -3.500  26.812  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      57.376  -1.262  25.270  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      57.902   0.455  26.999  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      66.677  -2.304  27.693  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.357  -4.767  27.657  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      57.192   0.183  25.691  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      68.106  -2.316  28.211  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.806   0.453  25.853  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      68.432  -1.008  28.857  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      68.047  -0.680  30.254  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.400  -1.072  29.926  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      67.315  -1.654  31.113  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      67.912   0.747  30.644  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      61.035  -3.608  25.979  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      63.274  -2.113  24.605  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      61.420  -0.655  25.428  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      60.745  -3.737  23.622  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      61.287  -2.081  23.369  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.253  -4.142  23.449  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      62.802  -5.070  24.886  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      61.747  -1.865  28.189  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      61.972  -0.211  27.695  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      58.689  -2.449  23.304  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      65.376  -2.354  25.337  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      63.902  -0.782  26.349  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      64.094  -1.396  27.988  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.490  -4.253  24.058  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      64.992  -5.341  25.345  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.825   0.814  26.149  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      59.853   0.334  27.838  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.190  -3.611  26.109  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      56.846  -1.914  25.970  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      56.888  -1.418  24.302  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.774   1.504  27.279  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      57.441  -0.126  27.803  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.988  -2.274  28.540  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.506  -1.392  27.119  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.573   0.851  24.916  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      68.794  -2.472  27.375  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      68.257  -3.147  28.904  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.553  -0.211  28.140  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.625  -2.687  30.932  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      66.241  -1.582  30.930  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.497  -1.431  32.167  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.746   1.343  26.240  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      65.995  -5.633  27.101  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.739  -4.643  28.548  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      67.369  -5.001  27.995  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      63.475  -4.986  27.196  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      62.181  -3.925  27.720  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.755  -3.806  28.478  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      59.516  -3.281  27.398  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      58.145  -2.243  27.754  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      59.680  -1.939  28.536  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      66.915   1.111  30.388  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      68.643   1.376  30.129  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      68.060   0.863  31.721  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.63', True, 'REMARK  Energy: 226.309\nREMARK  SimpleFitness: 226.309\nREMARK  FullFitness: -844.4885\nREMARK  InterFull: -34.2665\nREMARK  IntraFull: 269.442\nREMARK  solvFull: -1251.5\nREMARK  surfFull: 171.836\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1251.5\nREMARK  deltaGcompsolvnonpol: 171.836\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.86436\nREMARK  deltaGligsolvnonpol: 12.8174\nREMARK  deltaGvdw: -34.2665\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.2466516\nREMARK  Cluster: 5\nREMARK  ClusterRank: 6\n', 63), ({'deltaGligsolvpol': -4.86436, 'surfFull': 171.836, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.836, 'SimpleFitness': 226.309, 'InterFull': -34.2665, 'extraFull': 0.0, 'Energy': 226.309, 'solvFull': -1251.5, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 5, 'deltaGligsolvnonpol': 12.8174, 'deltaGcompsolvpol': -1251.5, 'FullFitness': -844.4885, 'deltaG': -7.2466516, 'ClusterRank': 7, 'IntraFull': 269.442, 'deltaGvdw': -34.2665}, 'V', ['REMARK  Energy: 226.309\n', 'REMARK  SimpleFitness: 226.309\n', 'REMARK  FullFitness: -844.4885\n', 'REMARK  InterFull: -34.2665\n', 'REMARK  IntraFull: 269.442\n', 'REMARK  solvFull: -1251.5\n', 'REMARK  surfFull: 171.836\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1251.5\n', 'REMARK  deltaGcompsolvnonpol: 171.836\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.86436\n', 'REMARK  deltaGligsolvnonpol: 12.8174\n', 'REMARK  deltaGvdw: -34.2665\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.2466516\n', 'REMARK  Cluster: 5\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      61.434  -2.767  25.409  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      62.928  -2.946  25.224  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      61.156  -1.451  26.132  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      60.741  -2.734  24.057  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      63.723  -2.917  26.509  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      63.374  -4.208  24.533  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      59.649  -1.315  26.450  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      62.060  -1.243  27.351  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      59.333  -2.255  24.154  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      65.113  -3.233  25.933  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      63.527  -1.519  27.064  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      63.253  -3.967  27.521  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      64.834  -4.346  24.927  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      58.823  -1.644  25.231  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.378   0.129  26.876  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      59.226  -2.245  27.591  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      66.360  -3.500  26.812  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      57.376  -1.262  25.270  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      57.902   0.455  26.999  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      66.677  -2.304  27.693  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.357  -4.767  27.657  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      57.192   0.183  25.691  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      68.106  -2.316  28.211  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.806   0.453  25.853  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      68.432  -1.008  28.857  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      68.047  -0.680  30.254  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.400  -1.072  29.926  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      67.315  -1.654  31.113  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      67.912   0.747  30.644  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      61.035  -3.608  25.979  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      63.274  -2.113  24.605  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      61.420  -0.655  25.428  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      60.745  -3.737  23.622  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      61.287  -2.081  23.369  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.253  -4.142  23.449  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      62.802  -5.070  24.886  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      61.747  -1.865  28.189  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      61.972  -0.211  27.695  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      58.689  -2.449  23.304  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      65.376  -2.354  25.337  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      63.902  -0.782  26.349  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      64.094  -1.396  27.988  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.490  -4.253  24.058  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      64.992  -5.341  25.345  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.825   0.814  26.149  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      59.853   0.334  27.838  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.190  -3.611  26.109  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      56.846  -1.914  25.970  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      56.888  -1.418  24.302  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.774   1.504  27.279  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      57.441  -0.126  27.803  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.988  -2.274  28.540  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.506  -1.392  27.119  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.573   0.851  24.916  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      68.794  -2.472  27.375  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      68.257  -3.147  28.904  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.553  -0.211  28.140  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.625  -2.687  30.932  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      66.241  -1.582  30.930  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.497  -1.431  32.167  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.746   1.343  26.240  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      65.995  -5.633  27.101  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.739  -4.643  28.548  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      67.369  -5.001  27.995  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      63.475  -4.986  27.196  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      62.181  -3.925  27.720  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.755  -3.806  28.478  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      59.516  -3.281  27.398  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      58.145  -2.243  27.754  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      59.680  -1.939  28.536  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      66.915   1.111  30.388  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      68.643   1.376  30.129  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      68.060   0.863  31.721  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.64', True, 'REMARK  Energy: 226.309\nREMARK  SimpleFitness: 226.309\nREMARK  FullFitness: -844.4885\nREMARK  InterFull: -34.2665\nREMARK  IntraFull: 269.442\nREMARK  solvFull: -1251.5\nREMARK  surfFull: 171.836\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1251.5\nREMARK  deltaGcompsolvnonpol: 171.836\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.86436\nREMARK  deltaGligsolvnonpol: 12.8174\nREMARK  deltaGvdw: -34.2665\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.2466516\nREMARK  Cluster: 5\nREMARK  ClusterRank: 7\n', 64), ({'deltaGligsolvpol': -4.72757, 'surfFull': 170.029, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.029, 'SimpleFitness': 233.636, 'InterFull': -45.5604, 'extraFull': 0.0, 'Energy': 233.636, 'solvFull': -1251.52, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 6, 'deltaGligsolvnonpol': 12.628, 'deltaGcompsolvpol': -1251.52, 'FullFitness': -843.2784, 'deltaG': -8.477675, 'ClusterRank': 0, 'IntraFull': 283.773, 'deltaGvdw': -45.5604}, 'V', ['REMARK  Energy: 233.636\n', 'REMARK  SimpleFitness: 233.636\n', 'REMARK  FullFitness: -843.2784\n', 'REMARK  InterFull: -45.5604\n', 'REMARK  IntraFull: 283.773\n', 'REMARK  solvFull: -1251.52\n', 'REMARK  surfFull: 170.029\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1251.52\n', 'REMARK  deltaGcompsolvnonpol: 170.029\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.72757\n', 'REMARK  deltaGligsolvnonpol: 12.628\n', 'REMARK  deltaGvdw: -45.5604\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.477675\n', 'REMARK  Cluster: 6\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      77.667  -2.564  13.364  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      76.690  -3.051  14.391  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      76.822  -2.294  12.152  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.303  -1.283  13.856  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.043  -4.367  14.081  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      77.247  -3.203  15.744  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      77.634  -1.651  11.021  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      76.030  -3.549  11.757  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.050  -0.594  12.783  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      75.318  -4.600  15.400  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      75.163  -4.079  12.895  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      77.046  -5.469  13.764  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.337  -4.186  16.428  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.770  -0.786  11.493  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      76.646  -0.708  10.351  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      78.176  -2.715  10.060  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      74.615  -5.929  15.709  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      79.484  -0.011  10.440  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      77.256   0.108   9.260  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      75.423  -7.205  16.035  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      73.680  -5.633  16.860  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      78.484   0.867   9.719  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.071  -7.317  17.419  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      79.111   1.446   8.583  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      75.680  -8.580  18.114  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      75.632  -8.714  19.595  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.427  -8.498  18.825  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.026  -7.584  20.485  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.678 -10.061  20.219  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      78.450  -3.294  13.145  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      75.896  -2.301  14.479  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      76.082  -1.558  12.477  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      78.991  -1.495  14.676  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.530  -0.613  14.239  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      77.245  -2.245  16.264  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.270  -3.588  15.707  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      76.699  -4.344  11.420  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      75.395  -3.329  10.907  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.827   0.104  13.072  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      74.534  -3.837  15.429  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      74.418  -3.326  13.164  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      74.617  -4.976  12.603  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      75.868  -3.751  17.313  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      76.961  -5.015  16.755  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      76.212  -0.023  11.087  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      75.829  -1.282   9.924  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      74.000  -6.168  14.837  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      79.992  -0.677   9.737  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      80.276   0.619  10.859  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      76.520   0.798   8.838  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      77.506  -0.590   8.476  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.189  -7.384  15.282  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      74.728  -8.038  15.916  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      78.169   1.668  10.392  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      75.851  -6.446  18.036  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.157  -7.326  17.291  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.864  -9.459  17.516  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      75.684  -6.616  20.111  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      77.113  -7.550  20.589  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.593  -7.726  21.479  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      79.111   0.759   7.887  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      72.885  -4.952  16.542  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      74.187  -5.174  17.712  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      73.230  -6.559  17.209  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.644  -5.747  14.635  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      77.750  -5.217  12.970  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      76.506  -6.357  13.428  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      78.800  -3.436  10.596  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      78.778  -2.300   9.249  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.370  -3.264   9.570  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      76.648 -10.218  20.694  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      75.519 -10.851  19.481  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      74.905 -10.148  20.988  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.65', True, 'REMARK  Energy: 233.636\nREMARK  SimpleFitness: 233.636\nREMARK  FullFitness: -843.2784\nREMARK  InterFull: -45.5604\nREMARK  IntraFull: 283.773\nREMARK  solvFull: -1251.52\nREMARK  surfFull: 170.029\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1251.52\nREMARK  deltaGcompsolvnonpol: 170.029\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.72757\nREMARK  deltaGligsolvnonpol: 12.628\nREMARK  deltaGvdw: -45.5604\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.477675\nREMARK  Cluster: 6\nREMARK  ClusterRank: 0\n', 65), ({'deltaGligsolvpol': -4.72757, 'surfFull': 170.029, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.029, 'SimpleFitness': 233.636, 'InterFull': -45.5604, 'extraFull': 0.0, 'Energy': 233.636, 'solvFull': -1251.52, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 6, 'deltaGligsolvnonpol': 12.628, 'deltaGcompsolvpol': -1251.52, 'FullFitness': -843.2784, 'deltaG': -8.477675, 'ClusterRank': 1, 'IntraFull': 283.773, 'deltaGvdw': -45.5604}, 'V', ['REMARK  Energy: 233.636\n', 'REMARK  SimpleFitness: 233.636\n', 'REMARK  FullFitness: -843.2784\n', 'REMARK  InterFull: -45.5604\n', 'REMARK  IntraFull: 283.773\n', 'REMARK  solvFull: -1251.52\n', 'REMARK  surfFull: 170.029\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1251.52\n', 'REMARK  deltaGcompsolvnonpol: 170.029\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.72757\n', 'REMARK  deltaGligsolvnonpol: 12.628\n', 'REMARK  deltaGvdw: -45.5604\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.477675\n', 'REMARK  Cluster: 6\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      77.667  -2.564  13.364  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      76.690  -3.051  14.391  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      76.822  -2.294  12.152  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.303  -1.283  13.856  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.043  -4.367  14.081  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      77.247  -3.203  15.744  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      77.634  -1.651  11.021  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      76.030  -3.549  11.757  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.050  -0.594  12.783  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      75.318  -4.600  15.400  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      75.163  -4.079  12.895  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      77.046  -5.469  13.764  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.337  -4.186  16.428  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.770  -0.786  11.493  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      76.646  -0.708  10.351  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      78.176  -2.715  10.060  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      74.615  -5.929  15.709  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      79.484  -0.011  10.440  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      77.256   0.108   9.260  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      75.423  -7.205  16.035  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      73.680  -5.633  16.860  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      78.484   0.867   9.719  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.071  -7.317  17.419  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      79.111   1.446   8.583  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      75.680  -8.580  18.114  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      75.632  -8.714  19.595  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.427  -8.498  18.825  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.026  -7.584  20.485  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.678 -10.061  20.219  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      78.450  -3.294  13.145  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      75.896  -2.301  14.479  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      76.082  -1.558  12.477  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      78.991  -1.495  14.676  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.530  -0.613  14.239  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      77.245  -2.245  16.264  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.270  -3.588  15.707  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      76.699  -4.344  11.420  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      75.395  -3.329  10.907  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.827   0.104  13.072  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      74.534  -3.837  15.429  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      74.418  -3.326  13.164  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      74.617  -4.976  12.603  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      75.868  -3.751  17.313  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      76.961  -5.015  16.755  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      76.212  -0.023  11.087  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      75.829  -1.282   9.924  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      74.000  -6.168  14.837  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      79.992  -0.677   9.737  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      80.276   0.619  10.859  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      76.520   0.798   8.838  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      77.506  -0.590   8.476  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.189  -7.384  15.282  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      74.728  -8.038  15.916  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      78.169   1.668  10.392  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      75.851  -6.446  18.036  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.157  -7.326  17.291  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.864  -9.459  17.516  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      75.684  -6.616  20.111  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      77.113  -7.550  20.589  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.593  -7.726  21.479  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      79.111   0.759   7.887  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      72.885  -4.952  16.542  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      74.187  -5.174  17.712  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      73.230  -6.559  17.209  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.644  -5.747  14.635  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      77.750  -5.217  12.970  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      76.506  -6.357  13.428  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      78.800  -3.436  10.596  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      78.778  -2.300   9.249  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.370  -3.264   9.570  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      76.648 -10.218  20.694  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      75.519 -10.851  19.481  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      74.905 -10.148  20.988  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.66', True, 'REMARK  Energy: 233.636\nREMARK  SimpleFitness: 233.636\nREMARK  FullFitness: -843.2784\nREMARK  InterFull: -45.5604\nREMARK  IntraFull: 283.773\nREMARK  solvFull: -1251.52\nREMARK  surfFull: 170.029\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1251.52\nREMARK  deltaGcompsolvnonpol: 170.029\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.72757\nREMARK  deltaGligsolvnonpol: 12.628\nREMARK  deltaGvdw: -45.5604\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.477675\nREMARK  Cluster: 6\nREMARK  ClusterRank: 1\n', 66), ({'deltaGligsolvpol': -4.72757, 'surfFull': 170.029, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.029, 'SimpleFitness': 233.636, 'InterFull': -45.5604, 'extraFull': 0.0, 'Energy': 233.636, 'solvFull': -1251.52, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 6, 'deltaGligsolvnonpol': 12.628, 'deltaGcompsolvpol': -1251.52, 'FullFitness': -843.2784, 'deltaG': -8.477675, 'ClusterRank': 2, 'IntraFull': 283.773, 'deltaGvdw': -45.5604}, 'V', ['REMARK  Energy: 233.636\n', 'REMARK  SimpleFitness: 233.636\n', 'REMARK  FullFitness: -843.2784\n', 'REMARK  InterFull: -45.5604\n', 'REMARK  IntraFull: 283.773\n', 'REMARK  solvFull: -1251.52\n', 'REMARK  surfFull: 170.029\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1251.52\n', 'REMARK  deltaGcompsolvnonpol: 170.029\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.72757\n', 'REMARK  deltaGligsolvnonpol: 12.628\n', 'REMARK  deltaGvdw: -45.5604\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.477675\n', 'REMARK  Cluster: 6\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      77.667  -2.564  13.364  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      76.690  -3.051  14.391  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      76.822  -2.294  12.152  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.303  -1.283  13.856  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.043  -4.367  14.081  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      77.247  -3.203  15.744  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      77.634  -1.651  11.021  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      76.030  -3.549  11.757  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.050  -0.594  12.783  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      75.318  -4.600  15.400  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      75.163  -4.079  12.895  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      77.046  -5.469  13.764  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.337  -4.186  16.428  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.770  -0.786  11.493  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      76.646  -0.708  10.351  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      78.176  -2.715  10.060  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      74.615  -5.929  15.709  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      79.484  -0.011  10.440  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      77.256   0.108   9.260  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      75.423  -7.205  16.035  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      73.680  -5.633  16.860  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      78.484   0.867   9.719  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.071  -7.317  17.419  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      79.111   1.446   8.583  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      75.680  -8.580  18.114  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      75.632  -8.714  19.595  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.427  -8.498  18.825  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.026  -7.584  20.485  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.678 -10.061  20.219  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      78.450  -3.294  13.145  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      75.896  -2.301  14.479  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      76.082  -1.558  12.477  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      78.991  -1.495  14.676  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.530  -0.613  14.239  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      77.245  -2.245  16.264  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.270  -3.588  15.707  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      76.699  -4.344  11.420  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      75.395  -3.329  10.907  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.827   0.104  13.072  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      74.534  -3.837  15.429  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      74.418  -3.326  13.164  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      74.617  -4.976  12.603  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      75.868  -3.751  17.313  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      76.961  -5.015  16.755  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      76.212  -0.023  11.087  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      75.829  -1.282   9.924  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      74.000  -6.168  14.837  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      79.992  -0.677   9.737  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      80.276   0.619  10.859  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      76.520   0.798   8.838  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      77.506  -0.590   8.476  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.189  -7.384  15.282  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      74.728  -8.038  15.916  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      78.169   1.668  10.392  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      75.851  -6.446  18.036  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.157  -7.326  17.291  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.864  -9.459  17.516  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      75.684  -6.616  20.111  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      77.113  -7.550  20.589  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.593  -7.726  21.479  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      79.111   0.759   7.887  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      72.885  -4.952  16.542  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      74.187  -5.174  17.712  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      73.230  -6.559  17.209  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.644  -5.747  14.635  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      77.750  -5.217  12.970  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      76.506  -6.357  13.428  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      78.800  -3.436  10.596  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      78.778  -2.300   9.249  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.370  -3.264   9.570  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      76.648 -10.218  20.694  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      75.519 -10.851  19.481  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      74.905 -10.148  20.988  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.67', True, 'REMARK  Energy: 233.636\nREMARK  SimpleFitness: 233.636\nREMARK  FullFitness: -843.2784\nREMARK  InterFull: -45.5604\nREMARK  IntraFull: 283.773\nREMARK  solvFull: -1251.52\nREMARK  surfFull: 170.029\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1251.52\nREMARK  deltaGcompsolvnonpol: 170.029\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.72757\nREMARK  deltaGligsolvnonpol: 12.628\nREMARK  deltaGvdw: -45.5604\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.477675\nREMARK  Cluster: 6\nREMARK  ClusterRank: 2\n', 67), ({'deltaGligsolvpol': -4.72757, 'surfFull': 170.029, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.029, 'SimpleFitness': 233.636, 'InterFull': -45.5604, 'extraFull': 0.0, 'Energy': 233.636, 'solvFull': -1251.52, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 6, 'deltaGligsolvnonpol': 12.628, 'deltaGcompsolvpol': -1251.52, 'FullFitness': -843.2784, 'deltaG': -8.477675, 'ClusterRank': 3, 'IntraFull': 283.773, 'deltaGvdw': -45.5604}, 'V', ['REMARK  Energy: 233.636\n', 'REMARK  SimpleFitness: 233.636\n', 'REMARK  FullFitness: -843.2784\n', 'REMARK  InterFull: -45.5604\n', 'REMARK  IntraFull: 283.773\n', 'REMARK  solvFull: -1251.52\n', 'REMARK  surfFull: 170.029\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1251.52\n', 'REMARK  deltaGcompsolvnonpol: 170.029\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.72757\n', 'REMARK  deltaGligsolvnonpol: 12.628\n', 'REMARK  deltaGvdw: -45.5604\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.477675\n', 'REMARK  Cluster: 6\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      77.667  -2.564  13.364  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      76.690  -3.051  14.391  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      76.822  -2.294  12.152  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.303  -1.283  13.856  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.043  -4.367  14.081  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      77.247  -3.203  15.744  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      77.634  -1.651  11.021  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      76.030  -3.549  11.757  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.050  -0.594  12.783  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      75.318  -4.600  15.400  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      75.163  -4.079  12.895  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      77.046  -5.469  13.764  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.337  -4.186  16.428  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.770  -0.786  11.493  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      76.646  -0.708  10.351  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      78.176  -2.715  10.060  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      74.615  -5.929  15.709  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      79.484  -0.011  10.440  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      77.256   0.108   9.260  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      75.423  -7.205  16.035  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      73.680  -5.633  16.860  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      78.484   0.867   9.719  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.071  -7.317  17.419  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      79.111   1.446   8.583  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      75.680  -8.580  18.114  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      75.632  -8.714  19.595  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.427  -8.498  18.825  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.026  -7.584  20.485  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.678 -10.061  20.219  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      78.450  -3.294  13.145  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      75.896  -2.301  14.479  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      76.082  -1.558  12.477  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      78.991  -1.495  14.676  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.530  -0.613  14.239  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      77.245  -2.245  16.264  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.270  -3.588  15.707  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      76.699  -4.344  11.420  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      75.395  -3.329  10.907  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.827   0.104  13.072  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      74.534  -3.837  15.429  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      74.418  -3.326  13.164  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      74.617  -4.976  12.603  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      75.868  -3.751  17.313  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      76.961  -5.015  16.755  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      76.212  -0.023  11.087  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      75.829  -1.282   9.924  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      74.000  -6.168  14.837  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      79.992  -0.677   9.737  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      80.276   0.619  10.859  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      76.520   0.798   8.838  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      77.506  -0.590   8.476  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.189  -7.384  15.282  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      74.728  -8.038  15.916  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      78.169   1.668  10.392  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      75.851  -6.446  18.036  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.157  -7.326  17.291  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.864  -9.459  17.516  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      75.684  -6.616  20.111  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      77.113  -7.550  20.589  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.593  -7.726  21.479  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      79.111   0.759   7.887  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      72.885  -4.952  16.542  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      74.187  -5.174  17.712  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      73.230  -6.559  17.209  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.644  -5.747  14.635  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      77.750  -5.217  12.970  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      76.506  -6.357  13.428  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      78.800  -3.436  10.596  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      78.778  -2.300   9.249  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.370  -3.264   9.570  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      76.648 -10.218  20.694  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      75.519 -10.851  19.481  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      74.905 -10.148  20.988  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.68', True, 'REMARK  Energy: 233.636\nREMARK  SimpleFitness: 233.636\nREMARK  FullFitness: -843.2784\nREMARK  InterFull: -45.5604\nREMARK  IntraFull: 283.773\nREMARK  solvFull: -1251.52\nREMARK  surfFull: 170.029\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1251.52\nREMARK  deltaGcompsolvnonpol: 170.029\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.72757\nREMARK  deltaGligsolvnonpol: 12.628\nREMARK  deltaGvdw: -45.5604\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.477675\nREMARK  Cluster: 6\nREMARK  ClusterRank: 3\n', 68), ({'deltaGligsolvpol': -4.72764, 'surfFull': 170.029, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.029, 'SimpleFitness': 233.636, 'InterFull': -45.5532, 'extraFull': 0.0, 'Energy': 233.636, 'solvFull': -1251.52, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 6, 'deltaGligsolvnonpol': 12.6279, 'deltaGcompsolvpol': -1251.52, 'FullFitness': -843.27826, 'deltaG': -8.47698, 'ClusterRank': 4, 'IntraFull': 283.766, 'deltaGvdw': -45.5532}, 'V', ['REMARK  Energy: 233.636\n', 'REMARK  SimpleFitness: 233.636\n', 'REMARK  FullFitness: -843.27826\n', 'REMARK  InterFull: -45.5532\n', 'REMARK  IntraFull: 283.766\n', 'REMARK  solvFull: -1251.52\n', 'REMARK  surfFull: 170.029\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1251.52\n', 'REMARK  deltaGcompsolvnonpol: 170.029\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.72764\n', 'REMARK  deltaGligsolvnonpol: 12.6279\n', 'REMARK  deltaGvdw: -45.5532\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.47698\n', 'REMARK  Cluster: 6\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      77.667  -2.564  13.365  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      76.690  -3.051  14.392  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      76.822  -2.294  12.152  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.303  -1.283  13.856  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.043  -4.367  14.081  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      77.247  -3.203  15.744  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      77.634  -1.651  11.022  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      76.030  -3.549  11.757  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.050  -0.594  12.784  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      75.318  -4.600  15.400  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      75.163  -4.079  12.895  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      77.045  -5.469  13.764  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.337  -4.186  16.428  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.771  -0.786  11.494  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      76.647  -0.709  10.352  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      78.176  -2.716  10.061  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      74.615  -5.929  15.709  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      79.484  -0.011  10.440  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      77.257   0.108   9.260  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      75.423  -7.204  16.036  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      73.679  -5.632  16.860  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      78.484   0.867   9.720  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.070  -7.316  17.421  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      79.111   1.446   8.584  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      75.679  -8.580  18.115  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      75.631  -8.715  19.596  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.426  -8.499  18.825  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.024  -7.585  20.487  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.677 -10.062  20.219  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      78.450  -3.295  13.146  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      75.896  -2.301  14.480  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      76.082  -1.558  12.477  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      78.992  -1.496  14.676  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.530  -0.613  14.240  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      77.245  -2.245  16.265  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.270  -3.588  15.707  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      76.698  -4.343  11.421  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      75.395  -3.328  10.907  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.827   0.104  13.073  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      74.534  -3.837  15.429  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      74.418  -3.325  13.164  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      74.617  -4.976  12.604  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      75.868  -3.751  17.313  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      76.961  -5.015  16.755  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      76.212  -0.023  11.087  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      75.829  -1.282   9.925  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      74.000  -6.168  14.838  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      79.993  -0.677   9.739  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      80.276   0.619  10.860  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      76.520   0.797   8.838  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      77.507  -0.592   8.477  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.189  -7.383  15.284  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      74.728  -8.038  15.916  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      78.169   1.668  10.392  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      75.848  -6.446  18.037  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.156  -7.324  17.294  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.864  -9.458  17.517  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      75.683  -6.617  20.113  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      77.112  -7.552  20.591  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.590  -7.728  21.480  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      79.111   0.759   7.887  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      72.884  -4.953  16.541  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      74.186  -5.173  17.711  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      73.230  -6.559  17.209  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.643  -5.747  14.635  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      77.749  -5.217  12.971  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      76.505  -6.357  13.428  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      78.800  -3.437  10.597  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      78.780  -2.301   9.251  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.370  -3.264   9.571  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      76.647 -10.219  20.694  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      75.518 -10.852  19.480  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      74.905 -10.149  20.988  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.69', True, 'REMARK  Energy: 233.636\nREMARK  SimpleFitness: 233.636\nREMARK  FullFitness: -843.27826\nREMARK  InterFull: -45.5532\nREMARK  IntraFull: 283.766\nREMARK  solvFull: -1251.52\nREMARK  surfFull: 170.029\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1251.52\nREMARK  deltaGcompsolvnonpol: 170.029\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.72764\nREMARK  deltaGligsolvnonpol: 12.6279\nREMARK  deltaGvdw: -45.5532\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.47698\nREMARK  Cluster: 6\nREMARK  ClusterRank: 4\n', 69), ({'deltaGligsolvpol': -4.72764, 'surfFull': 170.029, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.029, 'SimpleFitness': 233.636, 'InterFull': -45.5532, 'extraFull': 0.0, 'Energy': 233.636, 'solvFull': -1251.52, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 6, 'deltaGligsolvnonpol': 12.6279, 'deltaGcompsolvpol': -1251.52, 'FullFitness': -843.27826, 'deltaG': -8.47698, 'ClusterRank': 5, 'IntraFull': 283.766, 'deltaGvdw': -45.5532}, 'V', ['REMARK  Energy: 233.636\n', 'REMARK  SimpleFitness: 233.636\n', 'REMARK  FullFitness: -843.27826\n', 'REMARK  InterFull: -45.5532\n', 'REMARK  IntraFull: 283.766\n', 'REMARK  solvFull: -1251.52\n', 'REMARK  surfFull: 170.029\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1251.52\n', 'REMARK  deltaGcompsolvnonpol: 170.029\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.72764\n', 'REMARK  deltaGligsolvnonpol: 12.6279\n', 'REMARK  deltaGvdw: -45.5532\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.47698\n', 'REMARK  Cluster: 6\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      77.667  -2.564  13.365  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      76.690  -3.051  14.392  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      76.822  -2.294  12.152  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.303  -1.283  13.856  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.043  -4.367  14.081  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      77.247  -3.203  15.744  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      77.634  -1.651  11.022  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      76.030  -3.549  11.757  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.050  -0.594  12.784  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      75.318  -4.600  15.400  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      75.163  -4.079  12.895  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      77.045  -5.469  13.764  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.337  -4.186  16.428  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.771  -0.786  11.494  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      76.647  -0.709  10.352  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      78.176  -2.716  10.061  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      74.615  -5.929  15.709  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      79.484  -0.011  10.440  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      77.257   0.108   9.260  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      75.423  -7.204  16.036  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      73.679  -5.632  16.860  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      78.484   0.867   9.720  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.070  -7.316  17.421  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      79.111   1.446   8.584  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      75.679  -8.580  18.115  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      75.631  -8.715  19.596  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.426  -8.499  18.825  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.024  -7.585  20.487  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.677 -10.062  20.219  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      78.450  -3.295  13.146  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      75.896  -2.301  14.480  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      76.082  -1.558  12.477  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      78.992  -1.496  14.676  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.530  -0.613  14.240  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      77.245  -2.245  16.265  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.270  -3.588  15.707  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      76.698  -4.343  11.421  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      75.395  -3.328  10.907  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.827   0.104  13.073  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      74.534  -3.837  15.429  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      74.418  -3.325  13.164  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      74.617  -4.976  12.604  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      75.868  -3.751  17.313  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      76.961  -5.015  16.755  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      76.212  -0.023  11.087  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      75.829  -1.282   9.925  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      74.000  -6.168  14.838  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      79.993  -0.677   9.739  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      80.276   0.619  10.860  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      76.520   0.797   8.838  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      77.507  -0.592   8.477  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.189  -7.383  15.284  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      74.728  -8.038  15.916  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      78.169   1.668  10.392  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      75.848  -6.446  18.037  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.156  -7.324  17.294  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.864  -9.458  17.517  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      75.683  -6.617  20.113  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      77.112  -7.552  20.591  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.590  -7.728  21.480  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      79.111   0.759   7.887  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      72.884  -4.953  16.541  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      74.186  -5.173  17.711  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      73.230  -6.559  17.209  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.643  -5.747  14.635  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      77.749  -5.217  12.971  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      76.505  -6.357  13.428  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      78.800  -3.437  10.597  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      78.780  -2.301   9.251  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.370  -3.264   9.571  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      76.647 -10.219  20.694  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      75.518 -10.852  19.480  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      74.905 -10.149  20.988  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.70', True, 'REMARK  Energy: 233.636\nREMARK  SimpleFitness: 233.636\nREMARK  FullFitness: -843.27826\nREMARK  InterFull: -45.5532\nREMARK  IntraFull: 283.766\nREMARK  solvFull: -1251.52\nREMARK  surfFull: 170.029\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1251.52\nREMARK  deltaGcompsolvnonpol: 170.029\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.72764\nREMARK  deltaGligsolvnonpol: 12.6279\nREMARK  deltaGvdw: -45.5532\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.47698\nREMARK  Cluster: 6\nREMARK  ClusterRank: 5\n', 70), ({'deltaGligsolvpol': -4.72764, 'surfFull': 170.029, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.029, 'SimpleFitness': 233.636, 'InterFull': -45.5532, 'extraFull': 0.0, 'Energy': 233.636, 'solvFull': -1251.52, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 6, 'deltaGligsolvnonpol': 12.6279, 'deltaGcompsolvpol': -1251.52, 'FullFitness': -843.27826, 'deltaG': -8.47698, 'ClusterRank': 6, 'IntraFull': 283.766, 'deltaGvdw': -45.5532}, 'V', ['REMARK  Energy: 233.636\n', 'REMARK  SimpleFitness: 233.636\n', 'REMARK  FullFitness: -843.27826\n', 'REMARK  InterFull: -45.5532\n', 'REMARK  IntraFull: 283.766\n', 'REMARK  solvFull: -1251.52\n', 'REMARK  surfFull: 170.029\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1251.52\n', 'REMARK  deltaGcompsolvnonpol: 170.029\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.72764\n', 'REMARK  deltaGligsolvnonpol: 12.6279\n', 'REMARK  deltaGvdw: -45.5532\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.47698\n', 'REMARK  Cluster: 6\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      77.667  -2.564  13.365  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      76.690  -3.051  14.392  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      76.822  -2.294  12.152  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.303  -1.283  13.856  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.043  -4.367  14.081  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      77.247  -3.203  15.744  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      77.634  -1.651  11.022  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      76.030  -3.549  11.757  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.050  -0.594  12.784  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      75.318  -4.600  15.400  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      75.163  -4.079  12.895  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      77.045  -5.469  13.764  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.337  -4.186  16.428  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.771  -0.786  11.494  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      76.647  -0.709  10.352  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      78.176  -2.716  10.061  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      74.615  -5.929  15.709  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      79.484  -0.011  10.440  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      77.257   0.108   9.260  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      75.423  -7.204  16.036  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      73.679  -5.632  16.860  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      78.484   0.867   9.720  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.070  -7.316  17.421  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      79.111   1.446   8.584  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      75.679  -8.580  18.115  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      75.631  -8.715  19.596  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.426  -8.499  18.825  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.024  -7.585  20.487  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.677 -10.062  20.219  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      78.450  -3.295  13.146  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      75.896  -2.301  14.480  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      76.082  -1.558  12.477  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      78.992  -1.496  14.676  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.530  -0.613  14.240  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      77.245  -2.245  16.265  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.270  -3.588  15.707  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      76.698  -4.343  11.421  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      75.395  -3.328  10.907  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.827   0.104  13.073  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      74.534  -3.837  15.429  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      74.418  -3.325  13.164  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      74.617  -4.976  12.604  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      75.868  -3.751  17.313  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      76.961  -5.015  16.755  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      76.212  -0.023  11.087  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      75.829  -1.282   9.925  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      74.000  -6.168  14.838  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      79.993  -0.677   9.739  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      80.276   0.619  10.860  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      76.520   0.797   8.838  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      77.507  -0.592   8.477  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.189  -7.383  15.284  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      74.728  -8.038  15.916  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      78.169   1.668  10.392  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      75.848  -6.446  18.037  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.156  -7.324  17.294  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.864  -9.458  17.517  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      75.683  -6.617  20.113  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      77.112  -7.552  20.591  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.590  -7.728  21.480  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      79.111   0.759   7.887  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      72.884  -4.953  16.541  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      74.186  -5.173  17.711  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      73.230  -6.559  17.209  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.643  -5.747  14.635  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      77.749  -5.217  12.971  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      76.505  -6.357  13.428  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      78.800  -3.437  10.597  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      78.780  -2.301   9.251  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.370  -3.264   9.571  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      76.647 -10.219  20.694  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      75.518 -10.852  19.480  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      74.905 -10.149  20.988  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.71', True, 'REMARK  Energy: 233.636\nREMARK  SimpleFitness: 233.636\nREMARK  FullFitness: -843.27826\nREMARK  InterFull: -45.5532\nREMARK  IntraFull: 283.766\nREMARK  solvFull: -1251.52\nREMARK  surfFull: 170.029\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1251.52\nREMARK  deltaGcompsolvnonpol: 170.029\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.72764\nREMARK  deltaGligsolvnonpol: 12.6279\nREMARK  deltaGvdw: -45.5532\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.47698\nREMARK  Cluster: 6\nREMARK  ClusterRank: 6\n', 71), ({'deltaGligsolvpol': -4.72725, 'surfFull': 170.03, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.03, 'SimpleFitness': 233.637, 'InterFull': -45.5634, 'extraFull': 0.0, 'Energy': 233.637, 'solvFull': -1251.52, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 6, 'deltaGligsolvnonpol': 12.6286, 'deltaGcompsolvpol': -1251.52, 'FullFitness': -843.27747, 'deltaG': -8.477942, 'ClusterRank': 7, 'IntraFull': 283.776, 'deltaGvdw': -45.5634}, 'V', ['REMARK  Energy: 233.637\n', 'REMARK  SimpleFitness: 233.637\n', 'REMARK  FullFitness: -843.27747\n', 'REMARK  InterFull: -45.5634\n', 'REMARK  IntraFull: 283.776\n', 'REMARK  solvFull: -1251.52\n', 'REMARK  surfFull: 170.03\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1251.52\n', 'REMARK  deltaGcompsolvnonpol: 170.03\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.72725\n', 'REMARK  deltaGligsolvnonpol: 12.6286\n', 'REMARK  deltaGvdw: -45.5634\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.477942\n', 'REMARK  Cluster: 6\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      77.669  -2.563  13.363  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      76.692  -3.050  14.390  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      76.823  -2.293  12.151  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.305  -1.282  13.854  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.045  -4.367  14.079  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      77.248  -3.202  15.743  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      77.634  -1.650  11.020  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      76.031  -3.548  11.755  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.051  -0.593  12.781  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      75.320  -4.600  15.398  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      75.165  -4.078  12.893  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      77.047  -5.468  13.762  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.339  -4.186  16.426  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.771  -0.785  11.491  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      76.646  -0.707  10.351  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      78.176  -2.713  10.058  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      74.616  -5.928  15.707  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      79.484  -0.010  10.438  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      77.255   0.111   9.259  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      75.424  -7.205  16.031  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      73.681  -5.633  16.858  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      78.484   0.868   9.718  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.073  -7.317  17.415  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      79.110   1.447   8.582  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      75.680  -8.580  18.111  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      75.633  -8.711  19.592  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.428  -8.495  18.822  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.029  -7.581  20.480  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.678 -10.057  20.217  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      78.451  -3.293  13.143  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      75.898  -2.301  14.478  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      76.083  -1.557  12.476  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      78.993  -1.495  14.674  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.532  -0.612  14.238  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      77.246  -2.245  16.263  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.272  -3.587  15.705  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      76.700  -4.342  11.419  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      75.396  -3.328  10.905  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.828   0.104  13.070  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      74.536  -3.836  15.427  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      74.420  -3.325  13.163  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      74.618  -4.975  12.602  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      75.870  -3.751  17.311  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      76.963  -5.015  16.752  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      76.212  -0.022  11.087  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      75.828  -1.280   9.924  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      74.001  -6.167  14.835  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      79.992  -0.676   9.735  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      80.277   0.620  10.857  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      76.519   0.801   8.840  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      77.503  -0.588   8.475  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.189  -7.383  15.278  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      74.728  -8.038  15.912  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      78.170   1.670  10.391  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      75.855  -6.445  18.031  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.158  -7.328  17.286  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.863  -9.459  17.514  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      75.685  -6.613  20.107  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      77.117  -7.546  20.580  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.599  -7.723  21.476  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      79.111   0.760   7.886  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      72.887  -4.952  16.541  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      74.189  -5.175  17.710  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      73.231  -6.559  17.207  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.645  -5.746  14.633  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      77.751  -5.216  12.968  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      76.507  -6.355  13.425  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      78.801  -3.435  10.593  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      78.778  -2.298   9.247  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.370  -3.262   9.569  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      76.649 -10.216  20.690  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      75.516 -10.848  19.480  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      74.907 -10.142  20.988  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.72', True, 'REMARK  Energy: 233.637\nREMARK  SimpleFitness: 233.637\nREMARK  FullFitness: -843.27747\nREMARK  InterFull: -45.5634\nREMARK  IntraFull: 283.776\nREMARK  solvFull: -1251.52\nREMARK  surfFull: 170.03\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1251.52\nREMARK  deltaGcompsolvnonpol: 170.03\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.72725\nREMARK  deltaGligsolvnonpol: 12.6286\nREMARK  deltaGvdw: -45.5634\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.477942\nREMARK  Cluster: 6\nREMARK  ClusterRank: 7\n', 72), ({'deltaGligsolvpol': -4.71742, 'surfFull': 174.172, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.172, 'SimpleFitness': 234.55, 'InterFull': -31.6803, 'extraFull': 0.0, 'Energy': 234.55, 'solvFull': -1256.95, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 7, 'deltaGligsolvnonpol': 12.7338, 'deltaGcompsolvpol': -1256.95, 'FullFitness': -842.99225, 'deltaG': -7.115633, 'ClusterRank': 0, 'IntraFull': 271.466, 'deltaGvdw': -31.6803}, 'V', ['REMARK  Energy: 234.55\n', 'REMARK  SimpleFitness: 234.55\n', 'REMARK  FullFitness: -842.99225\n', 'REMARK  InterFull: -31.6803\n', 'REMARK  IntraFull: 271.466\n', 'REMARK  solvFull: -1256.95\n', 'REMARK  surfFull: 174.172\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1256.95\n', 'REMARK  deltaGcompsolvnonpol: 174.172\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.71742\n', 'REMARK  deltaGligsolvnonpol: 12.7338\n', 'REMARK  deltaGvdw: -31.6803\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.115633\n', 'REMARK  Cluster: 7\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      79.169   9.298  29.208  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.355   8.256  28.478  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      80.630   9.146  28.789  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.663  10.679  28.831  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      78.779   6.843  28.784  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.860   8.265  28.677  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      81.525  10.165  29.533  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.125   7.693  28.890  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.625  11.756  29.182  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      77.711   6.108  27.989  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.184   6.687  28.242  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.741   6.500  30.270  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.424   6.883  28.216  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      80.904  11.540  29.510  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      82.881  10.198  28.827  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.741   9.761  30.993  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      77.636   4.573  28.027  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      81.788  12.694  29.863  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      83.775  11.338  29.271  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      76.503   3.891  28.801  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.417   4.171  26.585  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      83.068  12.656  29.055  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.692   3.905  30.299  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      83.915  13.719  29.473  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      75.828   2.895  30.989  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      75.549   2.928  32.452  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.590   3.428  31.497  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.127   3.972  33.347  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.071   1.706  33.151  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      79.065   9.173  30.288  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.520   8.423  27.409  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      80.665   9.398  27.724  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.715  10.869  29.342  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.465  10.727  27.756  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.371   9.055  28.102  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.618   8.413  29.732  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.271   7.404  29.931  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      82.101   7.599  28.410  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.246  12.771  29.171  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      77.997   6.338  26.966  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.179   6.850  27.161  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      80.546   5.670  28.416  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      75.848   6.940  27.290  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      75.787   6.422  28.967  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      82.724  10.287  27.748  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      83.415   9.259  28.995  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.597   4.167  28.354  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      82.027  12.660  30.930  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      81.290  13.656  29.704  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      84.713  11.322  28.708  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      84.052  11.229  30.323  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.481   2.844  28.491  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      75.524   4.298  28.532  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      82.853  12.793  27.991  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.486   4.909  30.670  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.737   3.688  30.509  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.817   1.935  30.487  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      76.529   4.830  32.805  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      76.936   3.542  33.943  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.360   4.338  34.034  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      84.805  13.513  29.141  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      76.446   4.523  26.224  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.196   4.585  25.940  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      77.450   3.086  26.479  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.735   6.588  30.679  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.383   7.144  30.874  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.085   5.475  30.426  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      80.791   9.595  31.509  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      82.285  10.522  31.559  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      82.329   8.843  31.065  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      75.909   1.192  33.628  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      74.585   1.013  32.461  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      74.349   1.977  33.926  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.73', True, 'REMARK  Energy: 234.55\nREMARK  SimpleFitness: 234.55\nREMARK  FullFitness: -842.99225\nREMARK  InterFull: -31.6803\nREMARK  IntraFull: 271.466\nREMARK  solvFull: -1256.95\nREMARK  surfFull: 174.172\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1256.95\nREMARK  deltaGcompsolvnonpol: 174.172\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.71742\nREMARK  deltaGligsolvnonpol: 12.7338\nREMARK  deltaGvdw: -31.6803\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.115633\nREMARK  Cluster: 7\nREMARK  ClusterRank: 0\n', 73), ({'deltaGligsolvpol': -4.78285, 'surfFull': 174.128, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.128, 'SimpleFitness': 234.423, 'InterFull': -32.6281, 'extraFull': 0.0, 'Energy': 234.423, 'solvFull': -1256.0, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 7, 'deltaGligsolvnonpol': 12.7246, 'deltaGcompsolvpol': -1256.0, 'FullFitness': -842.8501, 'deltaG': -7.146445, 'ClusterRank': 1, 'IntraFull': 271.65, 'deltaGvdw': -32.6281}, 'V', ['REMARK  Energy: 234.423\n', 'REMARK  SimpleFitness: 234.423\n', 'REMARK  FullFitness: -842.8501\n', 'REMARK  InterFull: -32.6281\n', 'REMARK  IntraFull: 271.65\n', 'REMARK  solvFull: -1256.0\n', 'REMARK  surfFull: 174.128\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1256.0\n', 'REMARK  deltaGcompsolvnonpol: 174.128\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.78285\n', 'REMARK  deltaGligsolvnonpol: 12.7246\n', 'REMARK  deltaGvdw: -32.6281\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.146445\n', 'REMARK  Cluster: 7\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      79.106   9.349  29.233  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.313   8.295  28.495  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      80.566   9.228  28.803  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.567  10.722  28.874  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      78.760   6.887  28.797  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.818   8.280  28.686  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      81.445  10.263  29.541  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.089   7.784  28.902  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.507  11.817  29.227  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      77.705   6.135  27.999  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.168   6.758  28.256  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.728   6.538  30.281  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.407   6.892  28.220  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      80.794  11.625  29.541  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      82.787  10.337  28.812  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.695   9.852  30.994  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      77.646   4.599  28.038  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      81.657  12.792  29.902  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      83.665  11.485  29.267  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      76.517   3.904  28.808  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.429   4.192  26.597  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      82.932  12.794  29.085  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.706   3.909  30.307  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      83.764  13.861  29.518  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      75.838   2.894  30.985  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      75.548   2.923  32.448  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.595   3.425  31.488  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.126   3.964  33.346  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.067   1.698  33.140  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      79.012   9.212  30.312  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.479   8.470  27.427  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      80.588   9.482  27.738  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.621  10.886  29.397  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.357  10.776  27.802  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.320   9.063  28.108  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.569   8.424  29.739  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.242   7.496  29.943  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      82.067   7.710  28.421  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.106  12.824  29.231  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      77.994   6.366  26.978  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.160   6.917  27.174  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      80.549   5.748  28.433  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      75.835   6.941  27.291  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      75.774   6.420  28.967  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      82.609  10.448  27.738  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      83.342   9.406  28.950  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.610   4.202  28.367  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      81.905  12.752  30.967  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      81.137  13.746  29.760  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      84.595  11.496  28.691  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      83.959  11.362  30.314  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.501   2.859  28.492  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      75.536   4.307  28.543  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      82.706  12.947  28.026  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.503   4.909  30.685  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.751   3.687  30.514  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.829   1.937  30.480  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      76.457   4.856  32.812  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      76.983   3.555  33.885  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.379   4.273  34.082  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      84.002  13.670  30.442  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      76.463   4.551  26.232  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.214   4.600  25.954  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      77.453   3.107  26.495  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.719   6.609  30.688  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.358   7.189  30.888  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.087   5.517  30.433  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      80.758   9.646  31.520  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      82.220  10.624  31.562  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      82.317   8.955  31.047  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      75.902   1.182  33.620  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      74.585   1.007  32.445  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      74.340   1.965  33.911  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.74', True, 'REMARK  Energy: 234.423\nREMARK  SimpleFitness: 234.423\nREMARK  FullFitness: -842.8501\nREMARK  InterFull: -32.6281\nREMARK  IntraFull: 271.65\nREMARK  solvFull: -1256.0\nREMARK  surfFull: 174.128\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1256.0\nREMARK  deltaGcompsolvnonpol: 174.128\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.78285\nREMARK  deltaGligsolvnonpol: 12.7246\nREMARK  deltaGvdw: -32.6281\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.146445\nREMARK  Cluster: 7\nREMARK  ClusterRank: 1\n', 74), ({'deltaGligsolvpol': -4.78285, 'surfFull': 174.128, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.128, 'SimpleFitness': 234.423, 'InterFull': -32.6281, 'extraFull': 0.0, 'Energy': 234.423, 'solvFull': -1256.0, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 7, 'deltaGligsolvnonpol': 12.7246, 'deltaGcompsolvpol': -1256.0, 'FullFitness': -842.8501, 'deltaG': -7.146445, 'ClusterRank': 2, 'IntraFull': 271.65, 'deltaGvdw': -32.6281}, 'V', ['REMARK  Energy: 234.423\n', 'REMARK  SimpleFitness: 234.423\n', 'REMARK  FullFitness: -842.8501\n', 'REMARK  InterFull: -32.6281\n', 'REMARK  IntraFull: 271.65\n', 'REMARK  solvFull: -1256.0\n', 'REMARK  surfFull: 174.128\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1256.0\n', 'REMARK  deltaGcompsolvnonpol: 174.128\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.78285\n', 'REMARK  deltaGligsolvnonpol: 12.7246\n', 'REMARK  deltaGvdw: -32.6281\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.146445\n', 'REMARK  Cluster: 7\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      79.106   9.349  29.233  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.313   8.295  28.495  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      80.566   9.228  28.803  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.567  10.722  28.874  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      78.760   6.887  28.797  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.818   8.280  28.686  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      81.445  10.263  29.541  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.089   7.784  28.902  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.507  11.817  29.227  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      77.705   6.135  27.999  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.168   6.758  28.256  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.728   6.538  30.281  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.407   6.892  28.220  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      80.794  11.625  29.541  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      82.787  10.337  28.812  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.695   9.852  30.994  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      77.646   4.599  28.038  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      81.657  12.792  29.902  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      83.665  11.485  29.267  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      76.517   3.904  28.808  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.429   4.192  26.597  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      82.932  12.794  29.085  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.706   3.909  30.307  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      83.764  13.861  29.518  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      75.838   2.894  30.985  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      75.548   2.923  32.448  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.595   3.425  31.488  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.126   3.964  33.346  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.067   1.698  33.140  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      79.012   9.212  30.312  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.479   8.470  27.427  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      80.588   9.482  27.738  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.621  10.886  29.397  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.357  10.776  27.802  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.320   9.063  28.108  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.569   8.424  29.739  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.242   7.496  29.943  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      82.067   7.710  28.421  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.106  12.824  29.231  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      77.994   6.366  26.978  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.160   6.917  27.174  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      80.549   5.748  28.433  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      75.835   6.941  27.291  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      75.774   6.420  28.967  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      82.609  10.448  27.738  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      83.342   9.406  28.950  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.610   4.202  28.367  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      81.905  12.752  30.967  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      81.137  13.746  29.760  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      84.595  11.496  28.691  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      83.959  11.362  30.314  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.501   2.859  28.492  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      75.536   4.307  28.543  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      82.706  12.947  28.026  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.503   4.909  30.685  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.751   3.687  30.514  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.829   1.937  30.480  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      76.457   4.856  32.812  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      76.983   3.555  33.885  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.379   4.273  34.082  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      84.002  13.670  30.442  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      76.463   4.551  26.232  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.214   4.600  25.954  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      77.453   3.107  26.495  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.719   6.609  30.688  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.358   7.189  30.888  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.087   5.517  30.433  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      80.758   9.646  31.520  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      82.220  10.624  31.562  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      82.317   8.955  31.047  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      75.902   1.182  33.620  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      74.585   1.007  32.445  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      74.340   1.965  33.911  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.75', True, 'REMARK  Energy: 234.423\nREMARK  SimpleFitness: 234.423\nREMARK  FullFitness: -842.8501\nREMARK  InterFull: -32.6281\nREMARK  IntraFull: 271.65\nREMARK  solvFull: -1256.0\nREMARK  surfFull: 174.128\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1256.0\nREMARK  deltaGcompsolvnonpol: 174.128\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.78285\nREMARK  deltaGligsolvnonpol: 12.7246\nREMARK  deltaGvdw: -32.6281\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.146445\nREMARK  Cluster: 7\nREMARK  ClusterRank: 2\n', 75), ({'deltaGligsolvpol': -4.78285, 'surfFull': 174.128, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.128, 'SimpleFitness': 234.423, 'InterFull': -32.6281, 'extraFull': 0.0, 'Energy': 234.423, 'solvFull': -1256.0, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 7, 'deltaGligsolvnonpol': 12.7246, 'deltaGcompsolvpol': -1256.0, 'FullFitness': -842.8501, 'deltaG': -7.146445, 'ClusterRank': 3, 'IntraFull': 271.65, 'deltaGvdw': -32.6281}, 'V', ['REMARK  Energy: 234.423\n', 'REMARK  SimpleFitness: 234.423\n', 'REMARK  FullFitness: -842.8501\n', 'REMARK  InterFull: -32.6281\n', 'REMARK  IntraFull: 271.65\n', 'REMARK  solvFull: -1256.0\n', 'REMARK  surfFull: 174.128\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1256.0\n', 'REMARK  deltaGcompsolvnonpol: 174.128\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.78285\n', 'REMARK  deltaGligsolvnonpol: 12.7246\n', 'REMARK  deltaGvdw: -32.6281\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.146445\n', 'REMARK  Cluster: 7\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      79.106   9.349  29.233  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.313   8.295  28.495  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      80.566   9.228  28.803  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.567  10.722  28.874  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      78.760   6.887  28.797  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.818   8.280  28.686  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      81.445  10.263  29.541  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.089   7.784  28.902  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.507  11.817  29.227  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      77.705   6.135  27.999  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.168   6.758  28.256  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.728   6.538  30.281  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.407   6.892  28.220  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      80.794  11.625  29.541  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      82.787  10.337  28.812  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.695   9.852  30.994  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      77.646   4.599  28.038  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      81.657  12.792  29.902  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      83.665  11.485  29.267  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      76.517   3.904  28.808  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.429   4.192  26.597  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      82.932  12.794  29.085  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.706   3.909  30.307  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      83.764  13.861  29.518  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      75.838   2.894  30.985  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      75.548   2.923  32.448  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.595   3.425  31.488  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.126   3.964  33.346  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.067   1.698  33.140  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      79.012   9.212  30.312  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.479   8.470  27.427  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      80.588   9.482  27.738  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.621  10.886  29.397  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.357  10.776  27.802  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.320   9.063  28.108  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.569   8.424  29.739  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.242   7.496  29.943  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      82.067   7.710  28.421  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.106  12.824  29.231  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      77.994   6.366  26.978  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.160   6.917  27.174  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      80.549   5.748  28.433  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      75.835   6.941  27.291  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      75.774   6.420  28.967  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      82.609  10.448  27.738  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      83.342   9.406  28.950  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.610   4.202  28.367  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      81.905  12.752  30.967  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      81.137  13.746  29.760  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      84.595  11.496  28.691  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      83.959  11.362  30.314  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.501   2.859  28.492  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      75.536   4.307  28.543  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      82.706  12.947  28.026  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.503   4.909  30.685  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.751   3.687  30.514  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.829   1.937  30.480  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      76.457   4.856  32.812  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      76.983   3.555  33.885  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.379   4.273  34.082  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      84.002  13.670  30.442  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      76.463   4.551  26.232  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.214   4.600  25.954  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      77.453   3.107  26.495  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.719   6.609  30.688  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.358   7.189  30.888  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.087   5.517  30.433  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      80.758   9.646  31.520  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      82.220  10.624  31.562  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      82.317   8.955  31.047  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      75.902   1.182  33.620  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      74.585   1.007  32.445  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      74.340   1.965  33.911  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.76', True, 'REMARK  Energy: 234.423\nREMARK  SimpleFitness: 234.423\nREMARK  FullFitness: -842.8501\nREMARK  InterFull: -32.6281\nREMARK  IntraFull: 271.65\nREMARK  solvFull: -1256.0\nREMARK  surfFull: 174.128\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1256.0\nREMARK  deltaGcompsolvnonpol: 174.128\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.78285\nREMARK  deltaGligsolvnonpol: 12.7246\nREMARK  deltaGvdw: -32.6281\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.146445\nREMARK  Cluster: 7\nREMARK  ClusterRank: 3\n', 76), ({'deltaGligsolvpol': -4.78285, 'surfFull': 174.128, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.128, 'SimpleFitness': 234.423, 'InterFull': -32.6281, 'extraFull': 0.0, 'Energy': 234.423, 'solvFull': -1256.0, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 7, 'deltaGligsolvnonpol': 12.7246, 'deltaGcompsolvpol': -1256.0, 'FullFitness': -842.8501, 'deltaG': -7.146445, 'ClusterRank': 4, 'IntraFull': 271.65, 'deltaGvdw': -32.6281}, 'V', ['REMARK  Energy: 234.423\n', 'REMARK  SimpleFitness: 234.423\n', 'REMARK  FullFitness: -842.8501\n', 'REMARK  InterFull: -32.6281\n', 'REMARK  IntraFull: 271.65\n', 'REMARK  solvFull: -1256.0\n', 'REMARK  surfFull: 174.128\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1256.0\n', 'REMARK  deltaGcompsolvnonpol: 174.128\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.78285\n', 'REMARK  deltaGligsolvnonpol: 12.7246\n', 'REMARK  deltaGvdw: -32.6281\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.146445\n', 'REMARK  Cluster: 7\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      79.106   9.349  29.233  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.313   8.295  28.495  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      80.566   9.228  28.803  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.567  10.722  28.874  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      78.760   6.887  28.797  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.818   8.280  28.686  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      81.445  10.263  29.541  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.089   7.784  28.902  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.507  11.817  29.227  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      77.705   6.135  27.999  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.168   6.758  28.256  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.728   6.538  30.281  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.407   6.892  28.220  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      80.794  11.625  29.541  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      82.787  10.337  28.812  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.695   9.852  30.994  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      77.646   4.599  28.038  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      81.657  12.792  29.902  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      83.665  11.485  29.267  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      76.517   3.904  28.808  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.429   4.192  26.597  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      82.932  12.794  29.085  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.706   3.909  30.307  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      83.764  13.861  29.518  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      75.838   2.894  30.985  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      75.548   2.923  32.448  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.595   3.425  31.488  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.126   3.964  33.346  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.067   1.698  33.140  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      79.012   9.212  30.312  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.479   8.470  27.427  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      80.588   9.482  27.738  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.621  10.886  29.397  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.357  10.776  27.802  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.320   9.063  28.108  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.569   8.424  29.739  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.242   7.496  29.943  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      82.067   7.710  28.421  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.106  12.824  29.231  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      77.994   6.366  26.978  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.160   6.917  27.174  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      80.549   5.748  28.433  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      75.835   6.941  27.291  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      75.774   6.420  28.967  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      82.609  10.448  27.738  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      83.342   9.406  28.950  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.610   4.202  28.367  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      81.905  12.752  30.967  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      81.137  13.746  29.760  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      84.595  11.496  28.691  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      83.959  11.362  30.314  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.501   2.859  28.492  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      75.536   4.307  28.543  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      82.706  12.947  28.026  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.503   4.909  30.685  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.751   3.687  30.514  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.829   1.937  30.480  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      76.457   4.856  32.812  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      76.983   3.555  33.885  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.379   4.273  34.082  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      84.002  13.670  30.442  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      76.463   4.551  26.232  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.214   4.600  25.954  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      77.453   3.107  26.495  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.719   6.609  30.688  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.358   7.189  30.888  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.087   5.517  30.433  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      80.758   9.646  31.520  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      82.220  10.624  31.562  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      82.317   8.955  31.047  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      75.902   1.182  33.620  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      74.585   1.007  32.445  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      74.340   1.965  33.911  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.77', True, 'REMARK  Energy: 234.423\nREMARK  SimpleFitness: 234.423\nREMARK  FullFitness: -842.8501\nREMARK  InterFull: -32.6281\nREMARK  IntraFull: 271.65\nREMARK  solvFull: -1256.0\nREMARK  surfFull: 174.128\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1256.0\nREMARK  deltaGcompsolvnonpol: 174.128\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.78285\nREMARK  deltaGligsolvnonpol: 12.7246\nREMARK  deltaGvdw: -32.6281\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.146445\nREMARK  Cluster: 7\nREMARK  ClusterRank: 4\n', 77), ({'deltaGligsolvpol': -4.78351, 'surfFull': 174.057, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.057, 'SimpleFitness': 234.634, 'InterFull': -32.7132, 'extraFull': 0.0, 'Energy': 234.634, 'solvFull': -1256.08, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 7, 'deltaGligsolvnonpol': 12.7232, 'deltaGcompsolvpol': -1256.08, 'FullFitness': -842.7921, 'deltaG': -7.165932, 'ClusterRank': 5, 'IntraFull': 271.944, 'deltaGvdw': -32.7132}, 'V', ['REMARK  Energy: 234.634\n', 'REMARK  SimpleFitness: 234.634\n', 'REMARK  FullFitness: -842.7921\n', 'REMARK  InterFull: -32.7132\n', 'REMARK  IntraFull: 271.944\n', 'REMARK  solvFull: -1256.08\n', 'REMARK  surfFull: 174.057\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1256.08\n', 'REMARK  deltaGcompsolvnonpol: 174.057\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.78351\n', 'REMARK  deltaGligsolvnonpol: 12.7232\n', 'REMARK  deltaGvdw: -32.7132\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.165932\n', 'REMARK  Cluster: 7\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      78.949   9.428  29.261  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.221   8.348  28.497  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      80.428   9.358  28.891  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.382  10.784  28.879  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      78.701   6.956  28.820  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.723   8.293  28.645  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      81.238  10.412  29.682  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      80.996   7.930  28.990  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.267  11.905  29.289  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      77.685   6.167  28.003  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.126   6.875  28.316  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.644   6.612  30.303  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.362   6.889  28.189  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      80.541  11.751  29.666  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      82.610  10.539  29.017  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.435   9.991  31.140  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      77.659   4.630  28.046  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      81.344  12.942  30.082  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      83.424  11.715  29.519  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      76.538   3.911  28.808  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.456   4.216  26.604  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      82.650  12.998  29.318  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.715   3.917  30.307  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      83.424  14.092  29.790  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      75.850   2.897  30.981  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      75.554   2.924  32.443  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.602   3.424  31.480  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.127   3.965  33.344  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.073   1.699  33.133  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      78.816   9.289  30.336  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.415   8.526  27.435  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      80.486   9.629  27.832  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.405  10.915  29.351  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.230  10.837  27.797  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.222   9.055  28.043  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.443   8.449  29.688  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.136   7.639  30.032  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.986   7.895  28.531  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      78.833  12.898  29.282  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      77.994   6.399  26.988  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.141   7.038  27.235  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      80.536   5.879  28.501  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      75.807   6.910  27.248  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      75.726   6.411  28.931  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      82.478  10.651  27.936  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      83.190   9.627  29.175  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.629   4.253  28.380  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      81.548  12.892  31.156  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      80.797  13.878  29.930  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      84.376  11.767  28.983  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      83.677  11.592  30.576  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.543   2.866  28.489  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      75.551   4.296  28.536  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      82.461  13.151  28.252  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.497   4.915  30.683  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.761   3.708  30.524  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.847   1.940  30.476  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      76.466   4.856  32.811  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      76.980   3.554  33.889  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.377   4.277  34.075  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      83.633  13.904  30.721  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      76.496   4.578  26.226  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.251   4.617  25.969  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      77.472   3.130  26.508  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.624   6.652  30.681  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.237   7.285  30.924  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.030   5.603  30.469  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      80.483   9.755  31.622  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      81.913  10.771  31.739  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      82.078   9.111  31.213  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      75.908   1.183  33.614  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      74.592   1.008  32.438  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      74.345   1.965  33.905  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.78', True, 'REMARK  Energy: 234.634\nREMARK  SimpleFitness: 234.634\nREMARK  FullFitness: -842.7921\nREMARK  InterFull: -32.7132\nREMARK  IntraFull: 271.944\nREMARK  solvFull: -1256.08\nREMARK  surfFull: 174.057\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1256.08\nREMARK  deltaGcompsolvnonpol: 174.057\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.78351\nREMARK  deltaGligsolvnonpol: 12.7232\nREMARK  deltaGvdw: -32.7132\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.165932\nREMARK  Cluster: 7\nREMARK  ClusterRank: 5\n', 78), ({'deltaGligsolvpol': -4.78351, 'surfFull': 174.057, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.057, 'SimpleFitness': 234.634, 'InterFull': -32.7132, 'extraFull': 0.0, 'Energy': 234.634, 'solvFull': -1256.08, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 7, 'deltaGligsolvnonpol': 12.7232, 'deltaGcompsolvpol': -1256.08, 'FullFitness': -842.7921, 'deltaG': -7.165932, 'ClusterRank': 6, 'IntraFull': 271.944, 'deltaGvdw': -32.7132}, 'V', ['REMARK  Energy: 234.634\n', 'REMARK  SimpleFitness: 234.634\n', 'REMARK  FullFitness: -842.7921\n', 'REMARK  InterFull: -32.7132\n', 'REMARK  IntraFull: 271.944\n', 'REMARK  solvFull: -1256.08\n', 'REMARK  surfFull: 174.057\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1256.08\n', 'REMARK  deltaGcompsolvnonpol: 174.057\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.78351\n', 'REMARK  deltaGligsolvnonpol: 12.7232\n', 'REMARK  deltaGvdw: -32.7132\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.165932\n', 'REMARK  Cluster: 7\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      78.949   9.428  29.261  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.221   8.348  28.497  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      80.428   9.358  28.891  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.382  10.784  28.879  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      78.701   6.956  28.820  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.723   8.293  28.645  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      81.238  10.412  29.682  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      80.996   7.930  28.990  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.267  11.905  29.289  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      77.685   6.167  28.003  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.126   6.875  28.316  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.644   6.612  30.303  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.362   6.889  28.189  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      80.541  11.751  29.666  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      82.610  10.539  29.017  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.435   9.991  31.140  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      77.659   4.630  28.046  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      81.344  12.942  30.082  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      83.424  11.715  29.519  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      76.538   3.911  28.808  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.456   4.216  26.604  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      82.650  12.998  29.318  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.715   3.917  30.307  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      83.424  14.092  29.790  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      75.850   2.897  30.981  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      75.554   2.924  32.443  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.602   3.424  31.480  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.127   3.965  33.344  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.073   1.699  33.133  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      78.816   9.289  30.336  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.415   8.526  27.435  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      80.486   9.629  27.832  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.405  10.915  29.351  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.230  10.837  27.797  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.222   9.055  28.043  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.443   8.449  29.688  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.136   7.639  30.032  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.986   7.895  28.531  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      78.833  12.898  29.282  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      77.994   6.399  26.988  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.141   7.038  27.235  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      80.536   5.879  28.501  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      75.807   6.910  27.248  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      75.726   6.411  28.931  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      82.478  10.651  27.936  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      83.190   9.627  29.175  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.629   4.253  28.380  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      81.548  12.892  31.156  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      80.797  13.878  29.930  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      84.376  11.767  28.983  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      83.677  11.592  30.576  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.543   2.866  28.489  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      75.551   4.296  28.536  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      82.461  13.151  28.252  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.497   4.915  30.683  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.761   3.708  30.524  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.847   1.940  30.476  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      76.466   4.856  32.811  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      76.980   3.554  33.889  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.377   4.277  34.075  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      83.633  13.904  30.721  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      76.496   4.578  26.226  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.251   4.617  25.969  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      77.472   3.130  26.508  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.624   6.652  30.681  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.237   7.285  30.924  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.030   5.603  30.469  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      80.483   9.755  31.622  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      81.913  10.771  31.739  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      82.078   9.111  31.213  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      75.908   1.183  33.614  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      74.592   1.008  32.438  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      74.345   1.965  33.905  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.79', True, 'REMARK  Energy: 234.634\nREMARK  SimpleFitness: 234.634\nREMARK  FullFitness: -842.7921\nREMARK  InterFull: -32.7132\nREMARK  IntraFull: 271.944\nREMARK  solvFull: -1256.08\nREMARK  surfFull: 174.057\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1256.08\nREMARK  deltaGcompsolvnonpol: 174.057\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.78351\nREMARK  deltaGligsolvnonpol: 12.7232\nREMARK  deltaGvdw: -32.7132\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.165932\nREMARK  Cluster: 7\nREMARK  ClusterRank: 6\n', 79), ({'deltaGligsolvpol': -4.78351, 'surfFull': 174.057, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.057, 'SimpleFitness': 234.634, 'InterFull': -32.7132, 'extraFull': 0.0, 'Energy': 234.634, 'solvFull': -1256.08, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 7, 'deltaGligsolvnonpol': 12.7232, 'deltaGcompsolvpol': -1256.08, 'FullFitness': -842.7921, 'deltaG': -7.165932, 'ClusterRank': 7, 'IntraFull': 271.944, 'deltaGvdw': -32.7132}, 'V', ['REMARK  Energy: 234.634\n', 'REMARK  SimpleFitness: 234.634\n', 'REMARK  FullFitness: -842.7921\n', 'REMARK  InterFull: -32.7132\n', 'REMARK  IntraFull: 271.944\n', 'REMARK  solvFull: -1256.08\n', 'REMARK  surfFull: 174.057\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1256.08\n', 'REMARK  deltaGcompsolvnonpol: 174.057\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.78351\n', 'REMARK  deltaGligsolvnonpol: 12.7232\n', 'REMARK  deltaGvdw: -32.7132\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.165932\n', 'REMARK  Cluster: 7\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      78.949   9.428  29.261  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.221   8.348  28.497  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      80.428   9.358  28.891  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.382  10.784  28.879  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      78.701   6.956  28.820  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.723   8.293  28.645  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      81.238  10.412  29.682  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      80.996   7.930  28.990  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.267  11.905  29.289  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      77.685   6.167  28.003  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.126   6.875  28.316  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.644   6.612  30.303  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.362   6.889  28.189  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      80.541  11.751  29.666  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      82.610  10.539  29.017  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.435   9.991  31.140  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      77.659   4.630  28.046  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      81.344  12.942  30.082  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      83.424  11.715  29.519  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      76.538   3.911  28.808  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.456   4.216  26.604  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      82.650  12.998  29.318  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      76.715   3.917  30.307  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      83.424  14.092  29.790  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      75.850   2.897  30.981  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      75.554   2.924  32.443  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      74.602   3.424  31.480  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      76.127   3.965  33.344  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.073   1.699  33.133  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      78.816   9.289  30.336  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.415   8.526  27.435  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      80.486   9.629  27.832  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.405  10.915  29.351  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.230  10.837  27.797  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.222   9.055  28.043  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.443   8.449  29.688  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.136   7.639  30.032  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.986   7.895  28.531  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      78.833  12.898  29.282  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      77.994   6.399  26.988  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.141   7.038  27.235  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      80.536   5.879  28.501  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      75.807   6.910  27.248  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      75.726   6.411  28.931  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      82.478  10.651  27.936  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      83.190   9.627  29.175  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.629   4.253  28.380  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      81.548  12.892  31.156  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      80.797  13.878  29.930  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      84.376  11.767  28.983  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      83.677  11.592  30.576  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.543   2.866  28.489  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      75.551   4.296  28.536  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      82.461  13.151  28.252  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      76.497   4.915  30.683  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.761   3.708  30.524  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.847   1.940  30.476  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      76.466   4.856  32.811  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      76.980   3.554  33.889  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      75.377   4.277  34.075  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      83.633  13.904  30.721  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      76.496   4.578  26.226  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.251   4.617  25.969  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      77.472   3.130  26.508  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.624   6.652  30.681  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.237   7.285  30.924  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.030   5.603  30.469  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      80.483   9.755  31.622  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      81.913  10.771  31.739  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      82.078   9.111  31.213  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      75.908   1.183  33.614  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      74.592   1.008  32.438  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      74.345   1.965  33.905  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.80', True, 'REMARK  Energy: 234.634\nREMARK  SimpleFitness: 234.634\nREMARK  FullFitness: -842.7921\nREMARK  InterFull: -32.7132\nREMARK  IntraFull: 271.944\nREMARK  solvFull: -1256.08\nREMARK  surfFull: 174.057\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1256.08\nREMARK  deltaGcompsolvnonpol: 174.057\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.78351\nREMARK  deltaGligsolvnonpol: 12.7232\nREMARK  deltaGvdw: -32.7132\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.165932\nREMARK  Cluster: 7\nREMARK  ClusterRank: 7\n', 80), ({'deltaGligsolvpol': -4.31409, 'surfFull': 172.875, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.875, 'SimpleFitness': 229.092, 'InterFull': -32.6202, 'extraFull': 0.0, 'Energy': 229.092, 'solvFull': -1253.09, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 8, 'deltaGligsolvnonpol': 12.7253, 'deltaGcompsolvpol': -1253.09, 'FullFitness': -842.98914, 'deltaG': -7.114892, 'ClusterRank': 0, 'IntraFull': 269.846, 'deltaGvdw': -32.6202}, 'V', ['REMARK  Energy: 229.092\n', 'REMARK  SimpleFitness: 229.092\n', 'REMARK  FullFitness: -842.98914\n', 'REMARK  InterFull: -32.6202\n', 'REMARK  IntraFull: 269.846\n', 'REMARK  solvFull: -1253.09\n', 'REMARK  surfFull: 172.875\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1253.09\n', 'REMARK  deltaGcompsolvnonpol: 172.875\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.31409\n', 'REMARK  deltaGligsolvnonpol: 12.7253\n', 'REMARK  deltaGvdw: -32.6202\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.114892\n', 'REMARK  Cluster: 8\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      62.262  -4.532  26.360  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      63.772  -4.630  26.314  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      61.770  -3.763  25.135  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      61.678  -5.934  26.348  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.475  -3.299  26.269  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.449  -5.378  27.435  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      60.234  -3.595  25.169  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      62.529  -2.447  24.936  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      60.225  -5.945  26.037  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      65.924  -3.799  26.305  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      64.036  -2.627  24.991  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      64.141  -2.402  27.468  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.865  -4.830  27.431  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      59.562  -4.894  25.532  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.776  -3.161  23.773  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      59.810  -2.524  26.179  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      67.038  -2.732  26.391  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      58.090  -4.994  25.296  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      58.271  -3.195  23.588  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      68.326  -3.175  27.099  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      67.448  -2.323  24.987  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      57.735  -4.580  23.881  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      68.687  -2.215  28.222  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      56.319  -4.567  23.749  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      67.738  -2.353  29.370  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      67.540  -1.327  30.428  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      66.622  -1.440  29.326  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      68.267  -0.033  30.441  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      66.931  -1.738  31.721  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      61.947  -4.028  27.277  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.025  -5.161  25.390  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      62.015  -4.385  24.267  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      61.832  -6.400  27.324  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      62.195  -6.551  25.608  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      64.437  -6.457  27.259  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      63.963  -5.182  28.395  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      62.241  -1.707  25.684  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      62.275  -2.015  23.965  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      59.682  -6.857  26.250  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.091  -4.358  25.380  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.343  -3.259  24.157  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      64.523  -1.655  24.883  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      66.592  -5.631  27.277  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      66.075  -4.375  28.402  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      60.228  -3.819  23.024  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      60.124  -2.146  23.561  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      66.659  -1.835  26.877  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      57.562  -4.353  26.010  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      57.714  -6.007  25.477  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      58.015  -2.911  22.563  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      57.782  -2.460  24.235  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      69.151  -3.170  26.383  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      68.282  -4.191  27.493  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      58.141  -5.298  23.161  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      68.702  -1.193  27.834  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      69.696  -2.447  28.573  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      67.567  -3.385  29.646  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.558   0.790  30.560  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      68.844   0.145  29.531  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      68.951  -0.015  31.292  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      56.122  -4.103  22.918  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      66.618  -1.870  24.442  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      67.797  -3.190  24.420  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      68.261  -1.593  25.025  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.484  -2.812  28.420  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      63.070  -2.225  27.578  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      64.609  -1.422  27.347  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      60.235  -2.716  27.168  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      58.725  -2.472  26.299  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      60.132  -1.530  25.858  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      66.271  -0.951  32.092  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      67.705  -1.909  32.470  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      66.346  -2.657  31.616  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.81', True, 'REMARK  Energy: 229.092\nREMARK  SimpleFitness: 229.092\nREMARK  FullFitness: -842.98914\nREMARK  InterFull: -32.6202\nREMARK  IntraFull: 269.846\nREMARK  solvFull: -1253.09\nREMARK  surfFull: 172.875\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1253.09\nREMARK  deltaGcompsolvnonpol: 172.875\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.31409\nREMARK  deltaGligsolvnonpol: 12.7253\nREMARK  deltaGvdw: -32.6202\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.114892\nREMARK  Cluster: 8\nREMARK  ClusterRank: 0\n', 81), ({'deltaGligsolvpol': -4.31614, 'surfFull': 172.634, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.634, 'SimpleFitness': 229.66, 'InterFull': -32.8689, 'extraFull': 0.0, 'Energy': 229.66, 'solvFull': -1252.48, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 8, 'deltaGligsolvnonpol': 12.7517, 'deltaGcompsolvpol': -1252.48, 'FullFitness': -842.0929, 'deltaG': -7.1262584, 'ClusterRank': 1, 'IntraFull': 270.622, 'deltaGvdw': -32.8689}, 'V', ['REMARK  Energy: 229.66\n', 'REMARK  SimpleFitness: 229.66\n', 'REMARK  FullFitness: -842.0929\n', 'REMARK  InterFull: -32.8689\n', 'REMARK  IntraFull: 270.622\n', 'REMARK  solvFull: -1252.48\n', 'REMARK  surfFull: 172.634\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.48\n', 'REMARK  deltaGcompsolvnonpol: 172.634\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.31614\n', 'REMARK  deltaGligsolvnonpol: 12.7517\n', 'REMARK  deltaGvdw: -32.8689\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.1262584\n', 'REMARK  Cluster: 8\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      62.579  -4.551  26.328  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.091  -4.625  26.313  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      62.091  -3.702  25.153  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      62.010  -5.954  26.201  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.762  -3.279  26.368  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.749  -5.415  27.419  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      60.554  -3.541  25.202  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      62.847  -2.372  25.038  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      60.563  -5.954  25.856  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.220  -3.746  26.436  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      64.355  -2.549  25.113  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      64.360  -2.448  27.595  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      66.141  -4.813  27.523  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      59.893  -4.878  25.434  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      60.088  -2.964  23.864  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      60.121  -2.593  26.324  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      67.291  -2.650  26.601  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      58.424  -4.967  25.166  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      58.582  -2.991  23.687  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      68.537  -3.030  27.409  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      67.795  -2.242  25.229  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      58.080  -4.412  23.800  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      68.778  -2.003  28.503  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      56.667  -4.421  23.636  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      67.814  -2.227  29.621  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      67.526  -1.245  30.699  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      66.649  -1.383  29.565  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      68.169   0.093  30.765  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      66.920  -1.746  31.963  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      62.239  -4.125  27.275  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.380  -5.100  25.369  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      62.336  -4.261  24.243  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      62.144  -6.482  27.148  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      62.554  -6.515  25.437  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      64.793  -6.479  27.171  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      64.210  -5.306  28.364  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      62.536  -1.671  25.813  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      62.607  -1.889  24.087  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      60.032  -6.892  25.976  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.434  -4.268  25.500  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.685  -3.137  24.259  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      64.843  -1.573  25.061  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      66.916  -5.573  27.401  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      66.267  -4.374  28.515  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      60.541  -3.533  23.046  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      60.426  -1.931  23.759  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      66.843  -1.764  27.048  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      57.879  -4.408  25.931  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      58.054  -5.995  25.241  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      58.304  -2.576  22.715  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      58.090  -2.361  24.433  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      69.408  -3.031  26.750  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      68.492  -4.030  27.846  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      58.523  -5.031  23.015  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      68.697  -0.989  28.091  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      69.795  -2.120  28.888  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      67.688  -3.276  29.858  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.406   0.872  30.854  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      68.783   0.311  29.887  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      68.806   0.146  31.652  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      56.481  -3.941  22.811  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      66.996  -1.827  24.613  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      68.225  -3.101  24.706  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      68.573  -1.481  25.327  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.689  -2.886  28.540  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      63.281  -2.308  27.681  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      64.798  -1.449  27.527  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      60.524  -2.902  27.291  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      59.034  -2.545  26.436  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      60.457  -1.573  26.132  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      66.094  -1.105  32.275  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      67.662  -1.756  32.763  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      66.538  -2.764  31.845  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.82', True, 'REMARK  Energy: 229.66\nREMARK  SimpleFitness: 229.66\nREMARK  FullFitness: -842.0929\nREMARK  InterFull: -32.8689\nREMARK  IntraFull: 270.622\nREMARK  solvFull: -1252.48\nREMARK  surfFull: 172.634\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.48\nREMARK  deltaGcompsolvnonpol: 172.634\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.31614\nREMARK  deltaGligsolvnonpol: 12.7517\nREMARK  deltaGvdw: -32.8689\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.1262584\nREMARK  Cluster: 8\nREMARK  ClusterRank: 1\n', 82), ({'deltaGligsolvpol': -4.7135, 'surfFull': 171.761, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.761, 'SimpleFitness': 231.78, 'InterFull': -30.7046, 'extraFull': 0.0, 'Energy': 231.78, 'solvFull': -1251.46, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 8, 'deltaGligsolvnonpol': 12.7234, 'deltaGcompsolvpol': -1251.46, 'FullFitness': -838.9496, 'deltaG': -6.9146805, 'ClusterRank': 2, 'IntraFull': 271.454, 'deltaGvdw': -30.7046}, 'V', ['REMARK  Energy: 231.78\n', 'REMARK  SimpleFitness: 231.78\n', 'REMARK  FullFitness: -838.9496\n', 'REMARK  InterFull: -30.7046\n', 'REMARK  IntraFull: 271.454\n', 'REMARK  solvFull: -1251.46\n', 'REMARK  surfFull: 171.761\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1251.46\n', 'REMARK  deltaGcompsolvnonpol: 171.761\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.7135\n', 'REMARK  deltaGligsolvnonpol: 12.7234\n', 'REMARK  deltaGvdw: -30.7046\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9146805\n', 'REMARK  Cluster: 8\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      62.520  -4.027  26.162  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.024  -3.884  26.227  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      61.920  -2.683  25.752  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      62.169  -5.081  25.132  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.478  -2.849  27.217  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.836  -5.113  26.565  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      60.377  -2.759  25.701  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      62.455  -1.519  26.603  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      60.738  -5.040  24.737  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      65.980  -3.043  27.074  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      63.971  -1.511  26.721  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      63.984  -3.132  28.639  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      66.160  -4.553  27.067  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      59.919  -4.016  25.003  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.875  -1.541  24.925  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      59.768  -2.736  27.105  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      66.909  -2.230  27.983  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      58.485  -4.082  24.581  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      58.400  -1.605  24.578  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      67.192  -2.787  29.383  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      68.255  -2.139  27.284  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      58.108  -2.855  23.779  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.941  -1.806  30.522  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      56.719  -2.899  23.480  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      67.471  -0.427  30.274  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      67.917   0.477  31.361  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      68.872  -0.259  30.558  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      67.852   0.065  32.791  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      67.882   1.946  31.099  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      62.122  -4.343  27.129  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.355  -3.559  25.235  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      62.272  -2.495  24.732  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      62.398  -6.072  25.533  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      62.782  -4.944  24.237  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      64.972  -5.759  25.694  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      64.349  -5.698  27.350  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      62.037  -1.546  27.611  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      62.142  -0.567  26.170  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      60.350  -5.903  24.209  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.209  -2.713  26.056  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.404  -1.298  25.740  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      64.288  -0.711  27.395  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      66.990  -4.819  26.413  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      66.374  -4.972  28.051  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      60.442  -1.444  23.994  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      60.052  -0.629  25.502  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      66.486  -1.229  28.046  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      57.844  -4.155  25.464  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      58.272  -4.978  23.990  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      58.110  -0.723  24.001  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      57.786  -1.587  25.483  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      68.236  -3.101  29.430  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.594  -3.674  29.591  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      58.660  -2.834  22.835  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      67.377  -2.239  31.425  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.869  -1.742  30.707  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      67.046   0.061  29.411  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      68.113  -0.985  32.937  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      66.844   0.223  33.180  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      68.545   0.666  33.385  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      56.479  -2.020  23.142  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      68.144  -1.740  26.273  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      68.723  -3.124  27.210  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      68.930  -1.482  27.839  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.369  -4.072  29.040  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      62.896  -3.178  28.711  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      64.306  -2.338  29.310  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      60.210  -3.505  27.744  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      58.688  -2.904  27.096  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      59.924  -1.767  27.585  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      68.291   2.495  31.950  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      66.857   2.282  30.933  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      68.470   2.210  30.216  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.83', True, 'REMARK  Energy: 231.78\nREMARK  SimpleFitness: 231.78\nREMARK  FullFitness: -838.9496\nREMARK  InterFull: -30.7046\nREMARK  IntraFull: 271.454\nREMARK  solvFull: -1251.46\nREMARK  surfFull: 171.761\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1251.46\nREMARK  deltaGcompsolvnonpol: 171.761\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.7135\nREMARK  deltaGligsolvnonpol: 12.7234\nREMARK  deltaGvdw: -30.7046\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9146805\nREMARK  Cluster: 8\nREMARK  ClusterRank: 2\n', 83), ({'deltaGligsolvpol': -4.75603, 'surfFull': 172.364, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.364, 'SimpleFitness': 237.488, 'InterFull': -27.8507, 'extraFull': 0.0, 'Energy': 237.488, 'solvFull': -1253.76, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 8, 'deltaGligsolvnonpol': 12.8899, 'deltaGcompsolvpol': -1253.76, 'FullFitness': -833.6007, 'deltaG': -6.741569, 'ClusterRank': 3, 'IntraFull': 275.646, 'deltaGvdw': -27.8507}, 'V', ['REMARK  Energy: 237.488\n', 'REMARK  SimpleFitness: 237.488\n', 'REMARK  FullFitness: -833.6007\n', 'REMARK  InterFull: -27.8507\n', 'REMARK  IntraFull: 275.646\n', 'REMARK  solvFull: -1253.76\n', 'REMARK  surfFull: 172.364\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1253.76\n', 'REMARK  deltaGcompsolvnonpol: 172.364\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.75603\n', 'REMARK  deltaGligsolvnonpol: 12.8899\n', 'REMARK  deltaGvdw: -27.8507\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.741569\n', 'REMARK  Cluster: 8\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      62.527  -4.208  26.664  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      63.992  -4.578  26.711  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      62.248  -3.329  25.443  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      61.695  -5.472  26.559  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.927  -3.396  26.695  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.461  -5.407  27.891  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      60.777  -2.846  25.467  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      63.273  -2.201  25.260  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      60.278  -5.187  26.204  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.231  -4.192  26.809  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      64.714  -2.680  25.380  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      64.650  -2.454  27.877  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.964  -5.166  27.945  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      59.850  -4.007  25.742  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      60.444  -2.234  24.106  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      60.553  -1.774  26.538  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      67.635  -3.556  26.716  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      58.394  -3.809  25.456  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      58.962  -1.958  23.926  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      67.871  -2.202  27.354  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      68.730  -4.514  27.156  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      58.189  -3.248  24.066  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      67.944  -2.184  28.868  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      56.806  -2.981  23.868  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      68.237  -0.793  29.317  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      67.932  -0.290  30.676  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      69.259  -0.722  30.328  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      67.257  -1.157  31.684  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      67.816   1.181  30.874  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      62.250  -3.692  27.585  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.188  -5.169  25.810  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      62.370  -3.979  24.570  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      61.719  -6.003  27.514  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      62.120  -6.140  25.805  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      64.234  -6.467  27.751  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      63.990  -5.078  28.821  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      63.107  -1.398  25.980  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      63.150  -1.750  24.273  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      59.564  -5.987  26.355  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.219  -4.824  25.921  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.936  -3.365  24.558  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      65.397  -1.831  25.295  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      66.510  -6.103  27.807  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      66.246  -4.744  28.913  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      60.774  -2.912  23.313  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      60.987  -1.296  23.973  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.790  -3.378  25.648  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      57.965  -3.124  26.193  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      57.825  -4.739  25.555  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      58.768  -1.512  22.950  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      58.604  -1.228  24.657  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      67.101  -1.517  27.011  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      68.813  -1.806  26.962  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      58.513  -3.968  23.309  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      68.733  -2.852  29.211  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      67.006  -2.537  29.298  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.308  -0.092  28.499  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.619  -2.189  31.644  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      66.178  -1.169  31.514  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.441  -0.774  32.690  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      56.736  -2.492  23.032  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      68.697  -5.442  26.585  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      68.651  -4.773  28.215  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      69.712  -4.062  26.996  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.924  -2.887  28.841  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      63.602  -2.159  27.958  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      65.209  -1.524  27.765  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      60.901  -2.101  27.521  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      59.498  -1.510  26.647  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      61.079  -0.851  26.285  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      67.940   1.437  31.929  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      66.839   1.532  30.539  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      68.571   1.724  30.299  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.84', True, 'REMARK  Energy: 237.488\nREMARK  SimpleFitness: 237.488\nREMARK  FullFitness: -833.6007\nREMARK  InterFull: -27.8507\nREMARK  IntraFull: 275.646\nREMARK  solvFull: -1253.76\nREMARK  surfFull: 172.364\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1253.76\nREMARK  deltaGcompsolvnonpol: 172.364\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.75603\nREMARK  deltaGligsolvnonpol: 12.8899\nREMARK  deltaGvdw: -27.8507\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.741569\nREMARK  Cluster: 8\nREMARK  ClusterRank: 3\n', 84), ({'deltaGligsolvpol': -4.72608, 'surfFull': 172.078, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.078, 'SimpleFitness': 241.039, 'InterFull': -32.2419, 'extraFull': 0.0, 'Energy': 241.039, 'solvFull': -1250.7, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 8, 'deltaGligsolvnonpol': 12.7133, 'deltaGcompsolvpol': -1250.7, 'FullFitness': -829.44684, 'deltaG': -6.981883, 'ClusterRank': 4, 'IntraFull': 281.417, 'deltaGvdw': -32.2419}, 'V', ['REMARK  Energy: 241.039\n', 'REMARK  SimpleFitness: 241.039\n', 'REMARK  FullFitness: -829.44684\n', 'REMARK  InterFull: -32.2419\n', 'REMARK  IntraFull: 281.417\n', 'REMARK  solvFull: -1250.7\n', 'REMARK  surfFull: 172.078\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1250.7\n', 'REMARK  deltaGcompsolvnonpol: 172.078\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.72608\n', 'REMARK  deltaGligsolvnonpol: 12.7133\n', 'REMARK  deltaGvdw: -32.2419\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.981883\n', 'REMARK  Cluster: 8\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      62.751  -4.489  26.442  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.231  -4.736  26.618  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      62.499  -3.429  25.368  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      62.056  -5.772  26.024  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      65.026  -3.484  26.897  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.630  -5.686  27.727  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      60.998  -3.056  25.362  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      63.445  -2.221  25.446  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      60.656  -5.527  25.577  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.385  -4.158  27.105  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      64.899  -2.610  25.667  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      64.505  -2.751  28.143  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      66.071  -5.313  28.044  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      60.159  -4.312  25.307  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      60.716  -2.185  24.138  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      60.603  -2.258  26.610  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      67.704  -3.390  27.350  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      58.721  -4.163  24.923  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      59.235  -1.977  23.895  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      67.674  -1.992  27.949  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      68.748  -4.250  28.035  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      58.572  -3.317  23.676  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      67.522  -1.849  29.460  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      57.190  -3.112  23.411  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      67.531  -0.382  29.740  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      67.882   0.326  31.003  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      68.877   0.069  29.989  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      68.015  -0.438  32.268  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      67.653   1.795  31.151  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      62.331  -4.182  27.401  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.596  -5.164  25.679  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      62.726  -3.908  24.410  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      62.045  -6.471  26.864  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      62.608  -6.249  25.210  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      64.547  -6.729  27.409  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      63.998  -5.550  28.610  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      63.138  -1.530  26.233  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      63.387  -1.653  24.514  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      60.010  -6.393  25.493  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.584  -4.649  26.150  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      65.266  -3.154  24.792  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      65.509  -1.710  25.771  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      66.735  -6.165  27.872  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      66.160  -5.015  29.092  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      61.155  -2.647  23.249  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      61.185  -1.204  24.256  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      68.092  -3.215  26.343  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      58.173  -3.695  25.746  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      58.237  -5.132  24.761  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      59.077  -1.330  23.032  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      58.764  -1.459  24.734  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      66.900  -1.411  27.448  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      68.615  -1.508  27.670  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      59.017  -3.822  22.813  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      68.337  -2.352  29.981  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      66.589  -2.289  29.810  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      66.891   0.144  29.056  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      68.034  -1.515  32.096  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      67.166  -0.222  32.921  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      68.931  -0.149  32.790  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      57.139  -2.463  22.689  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      68.902  -5.181  27.483  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      68.461  -4.498  29.060  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      69.704  -3.720  28.075  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.746  -3.268  29.074  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      63.425  -2.598  28.142  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      64.941  -1.753  28.200  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      60.858  -2.783  27.534  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      59.529  -2.062  26.653  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      61.099  -1.286  26.629  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      67.227   2.013  32.133  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      66.957   2.162  30.394  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      68.585   2.359  31.059  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.85', True, 'REMARK  Energy: 241.039\nREMARK  SimpleFitness: 241.039\nREMARK  FullFitness: -829.44684\nREMARK  InterFull: -32.2419\nREMARK  IntraFull: 281.417\nREMARK  solvFull: -1250.7\nREMARK  surfFull: 172.078\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1250.7\nREMARK  deltaGcompsolvnonpol: 172.078\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.72608\nREMARK  deltaGligsolvnonpol: 12.7133\nREMARK  deltaGvdw: -32.2419\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.981883\nREMARK  Cluster: 8\nREMARK  ClusterRank: 4\n', 85), ({'deltaGligsolvpol': -4.82555, 'surfFull': 171.199, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.199, 'SimpleFitness': 228.56, 'InterFull': -32.5966, 'extraFull': 0.0, 'Energy': 228.56, 'solvFull': -1247.03, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 9, 'deltaGligsolvnonpol': 12.684, 'deltaGcompsolvpol': -1247.03, 'FullFitness': -842.78467, 'deltaG': -6.8651323, 'ClusterRank': 0, 'IntraFull': 265.643, 'deltaGvdw': -32.5966}, 'V', ['REMARK  Energy: 228.56\n', 'REMARK  SimpleFitness: 228.56\n', 'REMARK  FullFitness: -842.78467\n', 'REMARK  InterFull: -32.5966\n', 'REMARK  IntraFull: 265.643\n', 'REMARK  solvFull: -1247.03\n', 'REMARK  surfFull: 171.199\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1247.03\n', 'REMARK  deltaGcompsolvnonpol: 171.199\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82555\n', 'REMARK  deltaGligsolvnonpol: 12.684\n', 'REMARK  deltaGvdw: -32.5966\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.8651323\n', 'REMARK  Cluster: 9\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      66.469  -7.151  28.373  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      65.422  -6.066  28.248  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      67.308  -6.906  29.619  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      65.799  -8.510  28.474  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      65.995  -4.672  28.157  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.484  -6.175  27.080  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      68.461  -7.932  29.705  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      67.766  -5.449  29.744  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      66.741  -9.571  28.917  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      64.716  -3.870  27.892  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      66.662  -4.433  29.498  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      67.000  -4.490  27.017  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      63.894  -4.786  26.984  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      67.945  -9.326  29.449  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      69.054  -7.853  31.112  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      69.567  -7.634  28.688  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      64.830  -2.482  27.245  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      68.836 -10.461  29.832  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      70.023  -8.974  31.426  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      63.457  -1.814  27.222  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      65.775  -1.554  27.986  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.341 -10.312  31.252  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      63.321  -0.886  26.031  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.276 -11.348  31.524  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      63.068  -1.672  24.788  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      61.701  -2.065  24.369  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      62.386  -0.960  23.733  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      60.489  -1.662  25.137  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      61.561  -3.281  23.529  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.106  -7.153  27.490  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.802  -6.108  29.149  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      66.643  -7.082  30.471  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      65.389  -8.786  27.499  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      64.963  -8.465  29.178  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.711  -6.932  27.236  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      65.026  -6.420  26.164  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      68.588  -5.234  29.060  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      68.155  -5.281  30.750  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      66.422 -10.598  28.783  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      64.185  -3.765  28.842  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      65.918  -4.508  30.296  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.088  -3.428  29.544  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.848  -4.794  27.303  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.916  -4.450  25.944  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      68.245  -7.881  31.848  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      69.574  -6.901  31.246  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      65.185  -2.590  26.217  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      69.684 -10.513  29.143  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      68.321 -11.422  29.741  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      70.389  -8.876  32.452  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      70.908  -8.917  30.785  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      63.330  -1.239  28.140  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      62.643  -2.542  27.201  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      68.512 -10.402  31.960  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      64.234  -0.304  25.902  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      62.516  -0.171  26.216  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      63.898  -2.308  24.508  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      60.548  -0.630  25.494  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      60.354  -2.321  25.998  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      59.603  -1.743  24.502  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      70.726 -11.100  32.350  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      65.682  -1.700  29.062  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.558  -0.507  27.760  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.815  -1.738  27.716  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      66.514  -4.524  26.039  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.786  -5.246  27.021  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      67.515  -3.533  27.094  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      69.174  -7.560  27.671  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      70.341  -8.407  28.675  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      70.074  -6.696  28.924  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      62.468  -3.480  22.951  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      60.727  -3.164  22.832  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      61.361  -4.151  24.160  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.86', True, 'REMARK  Energy: 228.56\nREMARK  SimpleFitness: 228.56\nREMARK  FullFitness: -842.78467\nREMARK  InterFull: -32.5966\nREMARK  IntraFull: 265.643\nREMARK  solvFull: -1247.03\nREMARK  surfFull: 171.199\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1247.03\nREMARK  deltaGcompsolvnonpol: 171.199\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82555\nREMARK  deltaGligsolvnonpol: 12.684\nREMARK  deltaGvdw: -32.5966\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.8651323\nREMARK  Cluster: 9\nREMARK  ClusterRank: 0\n', 86), ({'deltaGligsolvpol': -4.82555, 'surfFull': 171.199, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.199, 'SimpleFitness': 228.56, 'InterFull': -32.5966, 'extraFull': 0.0, 'Energy': 228.56, 'solvFull': -1247.03, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 9, 'deltaGligsolvnonpol': 12.684, 'deltaGcompsolvpol': -1247.03, 'FullFitness': -842.78467, 'deltaG': -6.8651323, 'ClusterRank': 1, 'IntraFull': 265.643, 'deltaGvdw': -32.5966}, 'V', ['REMARK  Energy: 228.56\n', 'REMARK  SimpleFitness: 228.56\n', 'REMARK  FullFitness: -842.78467\n', 'REMARK  InterFull: -32.5966\n', 'REMARK  IntraFull: 265.643\n', 'REMARK  solvFull: -1247.03\n', 'REMARK  surfFull: 171.199\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1247.03\n', 'REMARK  deltaGcompsolvnonpol: 171.199\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82555\n', 'REMARK  deltaGligsolvnonpol: 12.684\n', 'REMARK  deltaGvdw: -32.5966\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.8651323\n', 'REMARK  Cluster: 9\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      66.469  -7.151  28.373  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      65.422  -6.066  28.248  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      67.308  -6.906  29.619  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      65.799  -8.510  28.474  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      65.995  -4.672  28.157  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.484  -6.175  27.080  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      68.461  -7.932  29.705  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      67.766  -5.449  29.744  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      66.741  -9.571  28.917  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      64.716  -3.870  27.892  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      66.662  -4.433  29.498  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      67.000  -4.490  27.017  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      63.894  -4.786  26.984  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      67.945  -9.326  29.449  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      69.054  -7.853  31.112  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      69.567  -7.634  28.688  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      64.830  -2.482  27.245  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      68.836 -10.461  29.832  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      70.023  -8.974  31.426  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      63.457  -1.814  27.222  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      65.775  -1.554  27.986  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.341 -10.312  31.252  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      63.321  -0.886  26.031  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.276 -11.348  31.524  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      63.068  -1.672  24.788  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      61.701  -2.065  24.369  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      62.386  -0.960  23.733  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      60.489  -1.662  25.137  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      61.561  -3.281  23.529  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.106  -7.153  27.490  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.802  -6.108  29.149  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      66.643  -7.082  30.471  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      65.389  -8.786  27.499  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      64.963  -8.465  29.178  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.711  -6.932  27.236  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      65.026  -6.420  26.164  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      68.588  -5.234  29.060  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      68.155  -5.281  30.750  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      66.422 -10.598  28.783  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      64.185  -3.765  28.842  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      65.918  -4.508  30.296  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.088  -3.428  29.544  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.848  -4.794  27.303  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.916  -4.450  25.944  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      68.245  -7.881  31.848  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      69.574  -6.901  31.246  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      65.185  -2.590  26.217  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      69.684 -10.513  29.143  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      68.321 -11.422  29.741  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      70.389  -8.876  32.452  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      70.908  -8.917  30.785  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      63.330  -1.239  28.140  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      62.643  -2.542  27.201  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      68.512 -10.402  31.960  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      64.234  -0.304  25.902  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      62.516  -0.171  26.216  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      63.898  -2.308  24.508  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      60.548  -0.630  25.494  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      60.354  -2.321  25.998  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      59.603  -1.743  24.502  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      70.726 -11.100  32.350  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      65.682  -1.700  29.062  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.558  -0.507  27.760  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.815  -1.738  27.716  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      66.514  -4.524  26.039  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.786  -5.246  27.021  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      67.515  -3.533  27.094  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      69.174  -7.560  27.671  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      70.341  -8.407  28.675  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      70.074  -6.696  28.924  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      62.468  -3.480  22.951  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      60.727  -3.164  22.832  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      61.361  -4.151  24.160  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.87', True, 'REMARK  Energy: 228.56\nREMARK  SimpleFitness: 228.56\nREMARK  FullFitness: -842.78467\nREMARK  InterFull: -32.5966\nREMARK  IntraFull: 265.643\nREMARK  solvFull: -1247.03\nREMARK  surfFull: 171.199\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1247.03\nREMARK  deltaGcompsolvnonpol: 171.199\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82555\nREMARK  deltaGligsolvnonpol: 12.684\nREMARK  deltaGvdw: -32.5966\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.8651323\nREMARK  Cluster: 9\nREMARK  ClusterRank: 1\n', 87), ({'deltaGligsolvpol': -4.82555, 'surfFull': 171.199, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.199, 'SimpleFitness': 228.56, 'InterFull': -32.5966, 'extraFull': 0.0, 'Energy': 228.56, 'solvFull': -1247.03, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 9, 'deltaGligsolvnonpol': 12.684, 'deltaGcompsolvpol': -1247.03, 'FullFitness': -842.78467, 'deltaG': -6.8651323, 'ClusterRank': 2, 'IntraFull': 265.643, 'deltaGvdw': -32.5966}, 'V', ['REMARK  Energy: 228.56\n', 'REMARK  SimpleFitness: 228.56\n', 'REMARK  FullFitness: -842.78467\n', 'REMARK  InterFull: -32.5966\n', 'REMARK  IntraFull: 265.643\n', 'REMARK  solvFull: -1247.03\n', 'REMARK  surfFull: 171.199\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1247.03\n', 'REMARK  deltaGcompsolvnonpol: 171.199\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82555\n', 'REMARK  deltaGligsolvnonpol: 12.684\n', 'REMARK  deltaGvdw: -32.5966\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.8651323\n', 'REMARK  Cluster: 9\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      66.469  -7.151  28.373  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      65.422  -6.066  28.248  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      67.308  -6.906  29.619  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      65.799  -8.510  28.474  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      65.995  -4.672  28.157  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.484  -6.175  27.080  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      68.461  -7.932  29.705  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      67.766  -5.449  29.744  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      66.741  -9.571  28.917  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      64.716  -3.870  27.892  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      66.662  -4.433  29.498  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      67.000  -4.490  27.017  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      63.894  -4.786  26.984  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      67.945  -9.326  29.449  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      69.054  -7.853  31.112  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      69.567  -7.634  28.688  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      64.830  -2.482  27.245  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      68.836 -10.461  29.832  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      70.023  -8.974  31.426  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      63.457  -1.814  27.222  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      65.775  -1.554  27.986  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.341 -10.312  31.252  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      63.321  -0.886  26.031  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.276 -11.348  31.524  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      63.068  -1.672  24.788  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      61.701  -2.065  24.369  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      62.386  -0.960  23.733  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      60.489  -1.662  25.137  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      61.561  -3.281  23.529  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.106  -7.153  27.490  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.802  -6.108  29.149  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      66.643  -7.082  30.471  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      65.389  -8.786  27.499  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      64.963  -8.465  29.178  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.711  -6.932  27.236  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      65.026  -6.420  26.164  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      68.588  -5.234  29.060  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      68.155  -5.281  30.750  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      66.422 -10.598  28.783  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      64.185  -3.765  28.842  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      65.918  -4.508  30.296  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.088  -3.428  29.544  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.848  -4.794  27.303  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.916  -4.450  25.944  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      68.245  -7.881  31.848  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      69.574  -6.901  31.246  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      65.185  -2.590  26.217  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      69.684 -10.513  29.143  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      68.321 -11.422  29.741  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      70.389  -8.876  32.452  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      70.908  -8.917  30.785  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      63.330  -1.239  28.140  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      62.643  -2.542  27.201  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      68.512 -10.402  31.960  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      64.234  -0.304  25.902  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      62.516  -0.171  26.216  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      63.898  -2.308  24.508  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      60.548  -0.630  25.494  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      60.354  -2.321  25.998  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      59.603  -1.743  24.502  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      70.726 -11.100  32.350  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      65.682  -1.700  29.062  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.558  -0.507  27.760  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.815  -1.738  27.716  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      66.514  -4.524  26.039  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.786  -5.246  27.021  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      67.515  -3.533  27.094  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      69.174  -7.560  27.671  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      70.341  -8.407  28.675  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      70.074  -6.696  28.924  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      62.468  -3.480  22.951  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      60.727  -3.164  22.832  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      61.361  -4.151  24.160  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.88', True, 'REMARK  Energy: 228.56\nREMARK  SimpleFitness: 228.56\nREMARK  FullFitness: -842.78467\nREMARK  InterFull: -32.5966\nREMARK  IntraFull: 265.643\nREMARK  solvFull: -1247.03\nREMARK  surfFull: 171.199\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1247.03\nREMARK  deltaGcompsolvnonpol: 171.199\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82555\nREMARK  deltaGligsolvnonpol: 12.684\nREMARK  deltaGvdw: -32.5966\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.8651323\nREMARK  Cluster: 9\nREMARK  ClusterRank: 2\n', 88), ({'deltaGligsolvpol': -4.83204, 'surfFull': 171.269, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.269, 'SimpleFitness': 228.557, 'InterFull': -32.2698, 'extraFull': 0.0, 'Energy': 228.557, 'solvFull': -1247.19, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 9, 'deltaGligsolvnonpol': 12.6742, 'deltaGcompsolvpol': -1247.19, 'FullFitness': -842.7298, 'deltaG': -6.836058, 'ClusterRank': 3, 'IntraFull': 265.461, 'deltaGvdw': -32.2698}, 'V', ['REMARK  Energy: 228.557\n', 'REMARK  SimpleFitness: 228.557\n', 'REMARK  FullFitness: -842.7298\n', 'REMARK  InterFull: -32.2698\n', 'REMARK  IntraFull: 265.461\n', 'REMARK  solvFull: -1247.19\n', 'REMARK  surfFull: 171.269\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1247.19\n', 'REMARK  deltaGcompsolvnonpol: 171.269\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.83204\n', 'REMARK  deltaGligsolvnonpol: 12.6742\n', 'REMARK  deltaGvdw: -32.2698\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.836058\n', 'REMARK  Cluster: 9\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      66.497  -7.200  28.425  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      65.453  -6.114  28.284  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      67.305  -6.953  29.693  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      65.823  -8.558  28.511  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      66.025  -4.719  28.202  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.524  -6.223  27.108  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      68.447  -7.985  29.825  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      67.772  -5.498  29.813  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      66.744  -9.621  28.994  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      64.748  -3.918  27.924  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      66.676  -4.479  29.550  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      67.042  -4.536  27.073  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      63.940  -4.832  27.002  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      67.930  -9.378  29.565  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      68.996  -7.896  31.249  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      69.587  -7.704  28.841  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      64.864  -2.525  27.287  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      68.799 -10.516  29.992  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      69.945  -9.022  31.608  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      63.489  -1.862  27.268  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      65.805  -1.600  28.038  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.254 -10.354  31.427  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      63.364  -0.885  26.114  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.168 -11.397  31.746  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      63.116  -1.619  24.839  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      61.748  -1.980  24.395  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      62.451  -0.861  23.805  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      60.535  -1.591  25.169  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      61.600  -3.165  23.511  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.156  -7.201  27.557  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.822  -6.157  29.178  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      66.615  -7.114  30.528  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      65.446  -8.839  27.523  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      64.963  -8.509  29.184  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.748  -6.977  27.259  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      65.072  -6.473  26.197  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      68.601  -5.294  29.134  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      68.154  -5.325  30.821  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      66.424 -10.647  28.860  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      64.204  -3.821  28.868  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      65.922  -4.549  30.339  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.105  -3.476  29.598  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.888  -4.838  27.302  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.981  -4.495  25.962  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      68.163  -7.909  31.959  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      69.520  -6.948  31.391  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      65.220  -2.625  26.259  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      69.670 -10.580  29.334  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      68.282 -11.476  29.892  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      70.279  -8.914  32.644  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      70.849  -8.980  30.994  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      63.344  -1.326  28.207  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      62.678  -2.591  27.204  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      68.400 -10.428  32.107  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      64.280  -0.302  26.015  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      62.561  -0.174  26.323  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      63.942  -2.253  24.542  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      60.603  -0.574  25.565  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      60.388  -2.280  26.005  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      59.653  -1.638  24.527  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      70.591 -11.143  32.584  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      65.694  -1.739  29.114  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.604  -0.553  27.803  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.848  -1.794  27.786  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      66.564  -4.556  26.091  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.821  -5.299  27.077  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      67.563  -3.583  27.164  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      69.224  -7.629  27.813  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      70.352  -8.484  28.855  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      70.096  -6.769  29.089  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      62.512  -3.359  22.940  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      60.778  -3.009  22.808  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      61.378  -4.052  24.110  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.89', True, 'REMARK  Energy: 228.557\nREMARK  SimpleFitness: 228.557\nREMARK  FullFitness: -842.7298\nREMARK  InterFull: -32.2698\nREMARK  IntraFull: 265.461\nREMARK  solvFull: -1247.19\nREMARK  surfFull: 171.269\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1247.19\nREMARK  deltaGcompsolvnonpol: 171.269\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.83204\nREMARK  deltaGligsolvnonpol: 12.6742\nREMARK  deltaGvdw: -32.2698\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.836058\nREMARK  Cluster: 9\nREMARK  ClusterRank: 3\n', 89), ({'deltaGligsolvpol': -4.83204, 'surfFull': 171.269, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.269, 'SimpleFitness': 228.557, 'InterFull': -32.2698, 'extraFull': 0.0, 'Energy': 228.557, 'solvFull': -1247.19, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 9, 'deltaGligsolvnonpol': 12.6742, 'deltaGcompsolvpol': -1247.19, 'FullFitness': -842.7298, 'deltaG': -6.836058, 'ClusterRank': 4, 'IntraFull': 265.461, 'deltaGvdw': -32.2698}, 'V', ['REMARK  Energy: 228.557\n', 'REMARK  SimpleFitness: 228.557\n', 'REMARK  FullFitness: -842.7298\n', 'REMARK  InterFull: -32.2698\n', 'REMARK  IntraFull: 265.461\n', 'REMARK  solvFull: -1247.19\n', 'REMARK  surfFull: 171.269\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1247.19\n', 'REMARK  deltaGcompsolvnonpol: 171.269\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.83204\n', 'REMARK  deltaGligsolvnonpol: 12.6742\n', 'REMARK  deltaGvdw: -32.2698\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.836058\n', 'REMARK  Cluster: 9\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      66.497  -7.200  28.425  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      65.453  -6.114  28.284  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      67.305  -6.953  29.693  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      65.823  -8.558  28.511  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      66.025  -4.719  28.202  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.524  -6.223  27.108  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      68.447  -7.985  29.825  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      67.772  -5.498  29.813  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      66.744  -9.621  28.994  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      64.748  -3.918  27.924  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      66.676  -4.479  29.550  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      67.042  -4.536  27.073  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      63.940  -4.832  27.002  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      67.930  -9.378  29.565  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      68.996  -7.896  31.249  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      69.587  -7.704  28.841  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      64.864  -2.525  27.287  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      68.799 -10.516  29.992  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      69.945  -9.022  31.608  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      63.489  -1.862  27.268  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      65.805  -1.600  28.038  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.254 -10.354  31.427  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      63.364  -0.885  26.114  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.168 -11.397  31.746  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      63.116  -1.619  24.839  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      61.748  -1.980  24.395  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      62.451  -0.861  23.805  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      60.535  -1.591  25.169  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      61.600  -3.165  23.511  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.156  -7.201  27.557  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.822  -6.157  29.178  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      66.615  -7.114  30.528  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      65.446  -8.839  27.523  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      64.963  -8.509  29.184  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.748  -6.977  27.259  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      65.072  -6.473  26.197  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      68.601  -5.294  29.134  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      68.154  -5.325  30.821  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      66.424 -10.647  28.860  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      64.204  -3.821  28.868  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      65.922  -4.549  30.339  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.105  -3.476  29.598  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.888  -4.838  27.302  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.981  -4.495  25.962  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      68.163  -7.909  31.959  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      69.520  -6.948  31.391  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      65.220  -2.625  26.259  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      69.670 -10.580  29.334  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      68.282 -11.476  29.892  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      70.279  -8.914  32.644  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      70.849  -8.980  30.994  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      63.344  -1.326  28.207  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      62.678  -2.591  27.204  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      68.400 -10.428  32.107  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      64.280  -0.302  26.015  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      62.561  -0.174  26.323  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      63.942  -2.253  24.542  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      60.603  -0.574  25.565  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      60.388  -2.280  26.005  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      59.653  -1.638  24.527  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      70.591 -11.143  32.584  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      65.694  -1.739  29.114  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.604  -0.553  27.803  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.848  -1.794  27.786  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      66.564  -4.556  26.091  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.821  -5.299  27.077  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      67.563  -3.583  27.164  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      69.224  -7.629  27.813  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      70.352  -8.484  28.855  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      70.096  -6.769  29.089  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      62.512  -3.359  22.940  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      60.778  -3.009  22.808  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      61.378  -4.052  24.110  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.90', True, 'REMARK  Energy: 228.557\nREMARK  SimpleFitness: 228.557\nREMARK  FullFitness: -842.7298\nREMARK  InterFull: -32.2698\nREMARK  IntraFull: 265.461\nREMARK  solvFull: -1247.19\nREMARK  surfFull: 171.269\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1247.19\nREMARK  deltaGcompsolvnonpol: 171.269\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.83204\nREMARK  deltaGligsolvnonpol: 12.6742\nREMARK  deltaGvdw: -32.2698\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.836058\nREMARK  Cluster: 9\nREMARK  ClusterRank: 4\n', 90), ({'deltaGligsolvpol': -4.82447, 'surfFull': 171.243, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.243, 'SimpleFitness': 228.589, 'InterFull': -32.3563, 'extraFull': 0.0, 'Energy': 228.589, 'solvFull': -1247.08, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 9, 'deltaGligsolvnonpol': 12.6743, 'deltaGcompsolvpol': -1247.08, 'FullFitness': -842.65424, 'deltaG': -6.840442, 'ClusterRank': 5, 'IntraFull': 265.539, 'deltaGvdw': -32.3563}, 'V', ['REMARK  Energy: 228.589\n', 'REMARK  SimpleFitness: 228.589\n', 'REMARK  FullFitness: -842.65424\n', 'REMARK  InterFull: -32.3563\n', 'REMARK  IntraFull: 265.539\n', 'REMARK  solvFull: -1247.08\n', 'REMARK  surfFull: 171.243\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1247.08\n', 'REMARK  deltaGcompsolvnonpol: 171.243\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82447\n', 'REMARK  deltaGligsolvnonpol: 12.6743\n', 'REMARK  deltaGvdw: -32.3563\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.840442\n', 'REMARK  Cluster: 9\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      66.494  -7.169  28.402  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      65.448  -6.084  28.264  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      67.310  -6.920  29.663  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      65.821  -8.527  28.493  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      66.019  -4.689  28.177  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.517  -6.194  27.091  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      68.455  -7.951  29.784  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      67.775  -5.464  29.780  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      66.749  -9.589  28.965  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      64.742  -3.888  27.901  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      66.677  -4.446  29.522  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      67.033  -4.508  27.045  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      63.928  -4.805  26.986  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      67.940  -9.345  29.526  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      69.014  -7.862  31.205  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      69.588  -7.664  28.794  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      64.862  -2.500  27.255  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      68.815 -10.481  29.945  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      69.968  -8.987  31.555  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      63.489  -1.833  27.215  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      65.795  -1.571  28.008  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.280 -10.321  31.377  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      63.365  -0.918  26.012  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.197 -11.362  31.688  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      63.101  -1.716  24.779  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      61.727  -2.076  24.350  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      62.451  -1.000  23.706  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      60.520  -1.628  25.100  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      61.561  -3.298  23.524  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.147  -7.171  27.529  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.821  -6.125  29.160  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      66.627  -7.082  30.503  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      65.436  -8.808  27.509  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      64.968  -8.479  29.174  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.742  -6.950  27.243  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      65.064  -6.442  26.179  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      68.601  -5.258  29.098  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      68.160  -5.291  30.787  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      66.429 -10.616  28.831  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      64.202  -3.783  28.846  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      65.926  -4.516  30.314  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.104  -3.442  29.567  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.880  -4.812  27.295  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.960  -4.470  25.945  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      68.186  -7.879  31.921  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      69.536  -6.913  31.345  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      65.229  -2.607  26.231  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      69.683 -10.541  29.281  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      68.301 -11.442  29.845  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      70.308  -8.880  32.589  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      70.868  -8.941  30.936  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      63.355  -1.246  28.125  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      62.674  -2.560  27.196  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      68.430 -10.396  32.062  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      64.288  -0.352  25.878  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      62.571  -0.189  26.190  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      63.915  -2.379  24.516  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      60.604  -0.593  25.443  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      60.360  -2.270  25.970  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      59.638  -1.694  24.458  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      70.628 -11.108  32.522  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      65.683  -1.715  29.084  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.585  -0.525  27.776  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.840  -1.759  27.757  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      66.555  -4.538  26.063  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.817  -5.267  27.053  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      67.550  -3.552  27.128  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      69.219  -7.585  27.768  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      70.354  -8.445  28.799  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      70.098  -6.731  29.043  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      62.468  -3.531  22.959  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      60.738  -3.165  22.817  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      61.329  -4.153  24.164  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.91', True, 'REMARK  Energy: 228.589\nREMARK  SimpleFitness: 228.589\nREMARK  FullFitness: -842.65424\nREMARK  InterFull: -32.3563\nREMARK  IntraFull: 265.539\nREMARK  solvFull: -1247.08\nREMARK  surfFull: 171.243\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1247.08\nREMARK  deltaGcompsolvnonpol: 171.243\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82447\nREMARK  deltaGligsolvnonpol: 12.6743\nREMARK  deltaGvdw: -32.3563\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.840442\nREMARK  Cluster: 9\nREMARK  ClusterRank: 5\n', 91), ({'deltaGligsolvpol': -4.82447, 'surfFull': 171.243, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.243, 'SimpleFitness': 228.589, 'InterFull': -32.3563, 'extraFull': 0.0, 'Energy': 228.589, 'solvFull': -1247.08, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 9, 'deltaGligsolvnonpol': 12.6743, 'deltaGcompsolvpol': -1247.08, 'FullFitness': -842.65424, 'deltaG': -6.840442, 'ClusterRank': 6, 'IntraFull': 265.539, 'deltaGvdw': -32.3563}, 'V', ['REMARK  Energy: 228.589\n', 'REMARK  SimpleFitness: 228.589\n', 'REMARK  FullFitness: -842.65424\n', 'REMARK  InterFull: -32.3563\n', 'REMARK  IntraFull: 265.539\n', 'REMARK  solvFull: -1247.08\n', 'REMARK  surfFull: 171.243\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1247.08\n', 'REMARK  deltaGcompsolvnonpol: 171.243\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82447\n', 'REMARK  deltaGligsolvnonpol: 12.6743\n', 'REMARK  deltaGvdw: -32.3563\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.840442\n', 'REMARK  Cluster: 9\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      66.494  -7.169  28.402  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      65.448  -6.084  28.264  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      67.310  -6.920  29.663  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      65.821  -8.527  28.493  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      66.019  -4.689  28.177  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.517  -6.194  27.091  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      68.455  -7.951  29.784  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      67.775  -5.464  29.780  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      66.749  -9.589  28.965  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      64.742  -3.888  27.901  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      66.677  -4.446  29.522  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      67.033  -4.508  27.045  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      63.928  -4.805  26.986  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      67.940  -9.345  29.526  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      69.014  -7.862  31.205  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      69.588  -7.664  28.794  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      64.862  -2.500  27.255  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      68.815 -10.481  29.945  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      69.968  -8.987  31.555  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      63.489  -1.833  27.215  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      65.795  -1.571  28.008  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.280 -10.321  31.377  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      63.365  -0.918  26.012  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.197 -11.362  31.688  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      63.101  -1.716  24.779  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      61.727  -2.076  24.350  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      62.451  -1.000  23.706  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      60.520  -1.628  25.100  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      61.561  -3.298  23.524  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.147  -7.171  27.529  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.821  -6.125  29.160  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      66.627  -7.082  30.503  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      65.436  -8.808  27.509  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      64.968  -8.479  29.174  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.742  -6.950  27.243  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      65.064  -6.442  26.179  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      68.601  -5.258  29.098  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      68.160  -5.291  30.787  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      66.429 -10.616  28.831  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      64.202  -3.783  28.846  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      65.926  -4.516  30.314  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.104  -3.442  29.567  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.880  -4.812  27.295  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.960  -4.470  25.945  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      68.186  -7.879  31.921  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      69.536  -6.913  31.345  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      65.229  -2.607  26.231  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      69.683 -10.541  29.281  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      68.301 -11.442  29.845  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      70.308  -8.880  32.589  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      70.868  -8.941  30.936  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      63.355  -1.246  28.125  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      62.674  -2.560  27.196  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      68.430 -10.396  32.062  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      64.288  -0.352  25.878  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      62.571  -0.189  26.190  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      63.915  -2.379  24.516  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      60.604  -0.593  25.443  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      60.360  -2.270  25.970  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      59.638  -1.694  24.458  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      70.628 -11.108  32.522  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      65.683  -1.715  29.084  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.585  -0.525  27.776  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.840  -1.759  27.757  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      66.555  -4.538  26.063  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.817  -5.267  27.053  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      67.550  -3.552  27.128  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      69.219  -7.585  27.768  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      70.354  -8.445  28.799  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      70.098  -6.731  29.043  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      62.468  -3.531  22.959  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      60.738  -3.165  22.817  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      61.329  -4.153  24.164  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.92', True, 'REMARK  Energy: 228.589\nREMARK  SimpleFitness: 228.589\nREMARK  FullFitness: -842.65424\nREMARK  InterFull: -32.3563\nREMARK  IntraFull: 265.539\nREMARK  solvFull: -1247.08\nREMARK  surfFull: 171.243\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1247.08\nREMARK  deltaGcompsolvnonpol: 171.243\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82447\nREMARK  deltaGligsolvnonpol: 12.6743\nREMARK  deltaGvdw: -32.3563\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.840442\nREMARK  Cluster: 9\nREMARK  ClusterRank: 6\n', 92), ({'deltaGligsolvpol': -4.82447, 'surfFull': 171.243, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.243, 'SimpleFitness': 228.589, 'InterFull': -32.3563, 'extraFull': 0.0, 'Energy': 228.589, 'solvFull': -1247.08, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 9, 'deltaGligsolvnonpol': 12.6743, 'deltaGcompsolvpol': -1247.08, 'FullFitness': -842.65424, 'deltaG': -6.840442, 'ClusterRank': 7, 'IntraFull': 265.539, 'deltaGvdw': -32.3563}, 'V', ['REMARK  Energy: 228.589\n', 'REMARK  SimpleFitness: 228.589\n', 'REMARK  FullFitness: -842.65424\n', 'REMARK  InterFull: -32.3563\n', 'REMARK  IntraFull: 265.539\n', 'REMARK  solvFull: -1247.08\n', 'REMARK  surfFull: 171.243\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1247.08\n', 'REMARK  deltaGcompsolvnonpol: 171.243\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82447\n', 'REMARK  deltaGligsolvnonpol: 12.6743\n', 'REMARK  deltaGvdw: -32.3563\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.840442\n', 'REMARK  Cluster: 9\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      66.494  -7.169  28.402  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      65.448  -6.084  28.264  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      67.310  -6.920  29.663  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      65.821  -8.527  28.493  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      66.019  -4.689  28.177  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.517  -6.194  27.091  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      68.455  -7.951  29.784  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      67.775  -5.464  29.780  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      66.749  -9.589  28.965  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      64.742  -3.888  27.901  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      66.677  -4.446  29.522  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      67.033  -4.508  27.045  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      63.928  -4.805  26.986  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      67.940  -9.345  29.526  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      69.014  -7.862  31.205  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      69.588  -7.664  28.794  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      64.862  -2.500  27.255  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      68.815 -10.481  29.945  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      69.968  -8.987  31.555  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      63.489  -1.833  27.215  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      65.795  -1.571  28.008  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.280 -10.321  31.377  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      63.365  -0.918  26.012  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.197 -11.362  31.688  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      63.101  -1.716  24.779  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      61.727  -2.076  24.350  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      62.451  -1.000  23.706  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      60.520  -1.628  25.100  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      61.561  -3.298  23.524  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.147  -7.171  27.529  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.821  -6.125  29.160  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      66.627  -7.082  30.503  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      65.436  -8.808  27.509  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      64.968  -8.479  29.174  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.742  -6.950  27.243  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      65.064  -6.442  26.179  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      68.601  -5.258  29.098  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      68.160  -5.291  30.787  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      66.429 -10.616  28.831  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      64.202  -3.783  28.846  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      65.926  -4.516  30.314  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.104  -3.442  29.567  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.880  -4.812  27.295  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.960  -4.470  25.945  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      68.186  -7.879  31.921  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      69.536  -6.913  31.345  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      65.229  -2.607  26.231  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      69.683 -10.541  29.281  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      68.301 -11.442  29.845  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      70.308  -8.880  32.589  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      70.868  -8.941  30.936  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      63.355  -1.246  28.125  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      62.674  -2.560  27.196  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      68.430 -10.396  32.062  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      64.288  -0.352  25.878  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      62.571  -0.189  26.190  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      63.915  -2.379  24.516  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      60.604  -0.593  25.443  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      60.360  -2.270  25.970  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      59.638  -1.694  24.458  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      70.628 -11.108  32.522  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      65.683  -1.715  29.084  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.585  -0.525  27.776  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.840  -1.759  27.757  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      66.555  -4.538  26.063  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.817  -5.267  27.053  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      67.550  -3.552  27.128  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      69.219  -7.585  27.768  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      70.354  -8.445  28.799  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      70.098  -6.731  29.043  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      62.468  -3.531  22.959  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      60.738  -3.165  22.817  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      61.329  -4.153  24.164  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.93', True, 'REMARK  Energy: 228.589\nREMARK  SimpleFitness: 228.589\nREMARK  FullFitness: -842.65424\nREMARK  InterFull: -32.3563\nREMARK  IntraFull: 265.539\nREMARK  solvFull: -1247.08\nREMARK  surfFull: 171.243\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1247.08\nREMARK  deltaGcompsolvnonpol: 171.243\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82447\nREMARK  deltaGligsolvnonpol: 12.6743\nREMARK  deltaGvdw: -32.3563\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.840442\nREMARK  Cluster: 9\nREMARK  ClusterRank: 7\n', 93), ({'deltaGligsolvpol': -4.71149, 'surfFull': 171.896, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.896, 'SimpleFitness': 232.61, 'InterFull': -28.2467, 'extraFull': 0.0, 'Energy': 232.61, 'solvFull': -1249.51, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 9, 'deltaGligsolvnonpol': 12.4152, 'deltaGcompsolvpol': -1249.51, 'FullFitness': -837.9627, 'deltaG': -6.521023, 'ClusterRank': 8, 'IntraFull': 267.898, 'deltaGvdw': -28.2467}, 'V', ['REMARK  Energy: 232.61\n', 'REMARK  SimpleFitness: 232.61\n', 'REMARK  FullFitness: -837.9627\n', 'REMARK  InterFull: -28.2467\n', 'REMARK  IntraFull: 267.898\n', 'REMARK  solvFull: -1249.51\n', 'REMARK  surfFull: 171.896\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1249.51\n', 'REMARK  deltaGcompsolvnonpol: 171.896\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.71149\n', 'REMARK  deltaGligsolvnonpol: 12.4152\n', 'REMARK  deltaGvdw: -28.2467\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.521023\n', 'REMARK  Cluster: 9\n', 'REMARK  ClusterRank: 8\n'], ['ATOM   3191 C1   LIG     1      67.199  -8.093  29.507  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      66.248  -6.946  29.231  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      67.853  -7.887  30.870  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      66.446  -9.412  29.510  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      66.922  -5.595  29.224  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      65.477  -7.008  27.945  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      68.920  -8.974  31.131  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      68.358  -6.455  31.083  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      67.235 -10.521  30.116  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      65.779  -4.700  28.728  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      67.348  -5.396  30.666  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      68.122  -5.504  28.272  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.098  -5.568  27.672  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      68.356 -10.340  30.828  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      69.322  -8.888  32.604  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      70.167  -8.773  30.264  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      66.133  -3.306  28.164  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      69.102 -11.518  31.369  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      70.147 -10.065  33.084  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.894  -2.598  27.625  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.738  -2.396  29.216  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.391 -11.353  32.846  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      64.999  -2.436  26.116  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.186 -12.445  33.289  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      63.811  -1.735  25.534  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      62.779  -2.446  24.731  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      62.530  -2.093  26.108  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      62.831  -3.918  24.496  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      61.979  -1.664  23.754  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.956  -8.142  28.722  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      65.503  -6.940  30.032  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      67.056  -8.026  31.608  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      66.185  -9.683  28.484  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      65.509  -9.307  30.065  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      64.596  -7.650  28.028  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      66.105  -7.395  27.144  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      69.291  -6.284  30.544  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      68.591  -6.299  32.139  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      66.873 -11.529  29.951  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      65.077  -4.567  29.556  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      66.473  -5.458  31.318  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.777  -4.406  30.810  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      64.013  -5.439  27.702  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      65.433  -5.303  26.666  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      68.420  -8.829  33.221  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      69.893  -7.975  32.786  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      66.847  -3.402  27.343  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      70.042 -11.637  30.823  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      68.553 -12.453  31.214  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      70.370  -9.957  34.149  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      71.113 -10.097  32.573  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      64.799  -1.604  28.070  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      63.985  -3.140  27.896  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      68.459 -11.352  33.419  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.156  -3.408  25.646  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.890  -1.845  25.887  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      63.995  -0.684  25.351  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      63.503  -4.143  23.665  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      61.836  -4.290  24.240  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      63.177  -4.465  25.378  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      70.506 -12.210  34.176  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      67.728  -2.743  29.517  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      66.097  -2.354  30.102  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.850  -1.381  28.825  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      68.641  -4.552  28.405  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.816  -5.567  27.226  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      68.866  -6.286  28.432  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      69.923  -8.753  29.199  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      70.902  -9.570  30.407  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      70.674  -7.838  30.508  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      62.404  -1.768  22.753  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      61.961  -0.600  24.009  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      60.949  -2.028  23.729  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.94', True, 'REMARK  Energy: 232.61\nREMARK  SimpleFitness: 232.61\nREMARK  FullFitness: -837.9627\nREMARK  InterFull: -28.2467\nREMARK  IntraFull: 267.898\nREMARK  solvFull: -1249.51\nREMARK  surfFull: 171.896\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1249.51\nREMARK  deltaGcompsolvnonpol: 171.896\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.71149\nREMARK  deltaGligsolvnonpol: 12.4152\nREMARK  deltaGvdw: -28.2467\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.521023\nREMARK  Cluster: 9\nREMARK  ClusterRank: 8\n', 94), ({'deltaGligsolvpol': -4.71149, 'surfFull': 171.896, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.896, 'SimpleFitness': 232.61, 'InterFull': -28.2467, 'extraFull': 0.0, 'Energy': 232.61, 'solvFull': -1249.51, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 9, 'deltaGligsolvnonpol': 12.4152, 'deltaGcompsolvpol': -1249.51, 'FullFitness': -837.9627, 'deltaG': -6.521023, 'ClusterRank': 9, 'IntraFull': 267.898, 'deltaGvdw': -28.2467}, 'V', ['REMARK  Energy: 232.61\n', 'REMARK  SimpleFitness: 232.61\n', 'REMARK  FullFitness: -837.9627\n', 'REMARK  InterFull: -28.2467\n', 'REMARK  IntraFull: 267.898\n', 'REMARK  solvFull: -1249.51\n', 'REMARK  surfFull: 171.896\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1249.51\n', 'REMARK  deltaGcompsolvnonpol: 171.896\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.71149\n', 'REMARK  deltaGligsolvnonpol: 12.4152\n', 'REMARK  deltaGvdw: -28.2467\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.521023\n', 'REMARK  Cluster: 9\n', 'REMARK  ClusterRank: 9\n'], ['ATOM   3191 C1   LIG     1      67.199  -8.093  29.507  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      66.248  -6.946  29.231  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      67.853  -7.887  30.870  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      66.446  -9.412  29.510  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      66.922  -5.595  29.224  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      65.477  -7.008  27.945  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      68.920  -8.974  31.131  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      68.358  -6.455  31.083  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      67.235 -10.521  30.116  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      65.779  -4.700  28.728  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      67.348  -5.396  30.666  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      68.122  -5.504  28.272  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.098  -5.568  27.672  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      68.356 -10.340  30.828  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      69.322  -8.888  32.604  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      70.167  -8.773  30.264  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      66.133  -3.306  28.164  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      69.102 -11.518  31.369  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      70.147 -10.065  33.084  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.894  -2.598  27.625  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.738  -2.396  29.216  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.391 -11.353  32.846  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      64.999  -2.436  26.116  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.186 -12.445  33.289  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      63.811  -1.735  25.534  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      62.779  -2.446  24.731  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      62.530  -2.093  26.108  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      62.831  -3.918  24.496  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      61.979  -1.664  23.754  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.956  -8.142  28.722  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      65.503  -6.940  30.032  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      67.056  -8.026  31.608  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      66.185  -9.683  28.484  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      65.509  -9.307  30.065  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      64.596  -7.650  28.028  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      66.105  -7.395  27.144  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      69.291  -6.284  30.544  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      68.591  -6.299  32.139  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      66.873 -11.529  29.951  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      65.077  -4.567  29.556  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      66.473  -5.458  31.318  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.777  -4.406  30.810  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      64.013  -5.439  27.702  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      65.433  -5.303  26.666  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      68.420  -8.829  33.221  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      69.893  -7.975  32.786  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      66.847  -3.402  27.343  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      70.042 -11.637  30.823  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      68.553 -12.453  31.214  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      70.370  -9.957  34.149  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      71.113 -10.097  32.573  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      64.799  -1.604  28.070  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      63.985  -3.140  27.896  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      68.459 -11.352  33.419  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.156  -3.408  25.646  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.890  -1.845  25.887  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      63.995  -0.684  25.351  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      63.503  -4.143  23.665  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      61.836  -4.290  24.240  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      63.177  -4.465  25.378  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      70.506 -12.210  34.176  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      67.728  -2.743  29.517  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      66.097  -2.354  30.102  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.850  -1.381  28.825  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      68.641  -4.552  28.405  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.816  -5.567  27.226  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      68.866  -6.286  28.432  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      69.923  -8.753  29.199  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      70.902  -9.570  30.407  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      70.674  -7.838  30.508  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      62.404  -1.768  22.753  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      61.961  -0.600  24.009  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      60.949  -2.028  23.729  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.95', True, 'REMARK  Energy: 232.61\nREMARK  SimpleFitness: 232.61\nREMARK  FullFitness: -837.9627\nREMARK  InterFull: -28.2467\nREMARK  IntraFull: 267.898\nREMARK  solvFull: -1249.51\nREMARK  surfFull: 171.896\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1249.51\nREMARK  deltaGcompsolvnonpol: 171.896\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.71149\nREMARK  deltaGligsolvnonpol: 12.4152\nREMARK  deltaGvdw: -28.2467\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.521023\nREMARK  Cluster: 9\nREMARK  ClusterRank: 9\n', 95), ({'deltaGligsolvpol': -4.71149, 'surfFull': 171.896, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.896, 'SimpleFitness': 232.61, 'InterFull': -28.2467, 'extraFull': 0.0, 'Energy': 232.61, 'solvFull': -1249.51, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 9, 'deltaGligsolvnonpol': 12.4152, 'deltaGcompsolvpol': -1249.51, 'FullFitness': -837.9627, 'deltaG': -6.521023, 'ClusterRank': 10, 'IntraFull': 267.898, 'deltaGvdw': -28.2467}, 'V', ['REMARK  Energy: 232.61\n', 'REMARK  SimpleFitness: 232.61\n', 'REMARK  FullFitness: -837.9627\n', 'REMARK  InterFull: -28.2467\n', 'REMARK  IntraFull: 267.898\n', 'REMARK  solvFull: -1249.51\n', 'REMARK  surfFull: 171.896\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1249.51\n', 'REMARK  deltaGcompsolvnonpol: 171.896\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.71149\n', 'REMARK  deltaGligsolvnonpol: 12.4152\n', 'REMARK  deltaGvdw: -28.2467\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.521023\n', 'REMARK  Cluster: 9\n', 'REMARK  ClusterRank: 10\n'], ['ATOM   3191 C1   LIG     1      67.199  -8.093  29.507  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      66.248  -6.946  29.231  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      67.853  -7.887  30.870  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      66.446  -9.412  29.510  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      66.922  -5.595  29.224  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      65.477  -7.008  27.945  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      68.920  -8.974  31.131  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      68.358  -6.455  31.083  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      67.235 -10.521  30.116  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      65.779  -4.700  28.728  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      67.348  -5.396  30.666  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      68.122  -5.504  28.272  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.098  -5.568  27.672  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      68.356 -10.340  30.828  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      69.322  -8.888  32.604  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      70.167  -8.773  30.264  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      66.133  -3.306  28.164  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      69.102 -11.518  31.369  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      70.147 -10.065  33.084  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.894  -2.598  27.625  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.738  -2.396  29.216  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.391 -11.353  32.846  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      64.999  -2.436  26.116  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.186 -12.445  33.289  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      63.811  -1.735  25.534  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      62.779  -2.446  24.731  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      62.530  -2.093  26.108  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      62.831  -3.918  24.496  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      61.979  -1.664  23.754  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.956  -8.142  28.722  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      65.503  -6.940  30.032  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      67.056  -8.026  31.608  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      66.185  -9.683  28.484  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      65.509  -9.307  30.065  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      64.596  -7.650  28.028  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      66.105  -7.395  27.144  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      69.291  -6.284  30.544  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      68.591  -6.299  32.139  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      66.873 -11.529  29.951  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      65.077  -4.567  29.556  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      66.473  -5.458  31.318  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.777  -4.406  30.810  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      64.013  -5.439  27.702  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      65.433  -5.303  26.666  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      68.420  -8.829  33.221  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      69.893  -7.975  32.786  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      66.847  -3.402  27.343  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      70.042 -11.637  30.823  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      68.553 -12.453  31.214  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      70.370  -9.957  34.149  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      71.113 -10.097  32.573  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      64.799  -1.604  28.070  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      63.985  -3.140  27.896  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      68.459 -11.352  33.419  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.156  -3.408  25.646  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.890  -1.845  25.887  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      63.995  -0.684  25.351  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      63.503  -4.143  23.665  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      61.836  -4.290  24.240  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      63.177  -4.465  25.378  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      70.506 -12.210  34.176  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      67.728  -2.743  29.517  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      66.097  -2.354  30.102  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.850  -1.381  28.825  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      68.641  -4.552  28.405  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.816  -5.567  27.226  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      68.866  -6.286  28.432  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      69.923  -8.753  29.199  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      70.902  -9.570  30.407  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      70.674  -7.838  30.508  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      62.404  -1.768  22.753  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      61.961  -0.600  24.009  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      60.949  -2.028  23.729  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.96', True, 'REMARK  Energy: 232.61\nREMARK  SimpleFitness: 232.61\nREMARK  FullFitness: -837.9627\nREMARK  InterFull: -28.2467\nREMARK  IntraFull: 267.898\nREMARK  solvFull: -1249.51\nREMARK  surfFull: 171.896\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1249.51\nREMARK  deltaGcompsolvnonpol: 171.896\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.71149\nREMARK  deltaGligsolvnonpol: 12.4152\nREMARK  deltaGvdw: -28.2467\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.521023\nREMARK  Cluster: 9\nREMARK  ClusterRank: 10\n', 96), ({'deltaGligsolvpol': -4.71149, 'surfFull': 171.896, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.896, 'SimpleFitness': 232.61, 'InterFull': -28.2467, 'extraFull': 0.0, 'Energy': 232.61, 'solvFull': -1249.51, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 9, 'deltaGligsolvnonpol': 12.4152, 'deltaGcompsolvpol': -1249.51, 'FullFitness': -837.9627, 'deltaG': -6.521023, 'ClusterRank': 11, 'IntraFull': 267.898, 'deltaGvdw': -28.2467}, 'V', ['REMARK  Energy: 232.61\n', 'REMARK  SimpleFitness: 232.61\n', 'REMARK  FullFitness: -837.9627\n', 'REMARK  InterFull: -28.2467\n', 'REMARK  IntraFull: 267.898\n', 'REMARK  solvFull: -1249.51\n', 'REMARK  surfFull: 171.896\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1249.51\n', 'REMARK  deltaGcompsolvnonpol: 171.896\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.71149\n', 'REMARK  deltaGligsolvnonpol: 12.4152\n', 'REMARK  deltaGvdw: -28.2467\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.521023\n', 'REMARK  Cluster: 9\n', 'REMARK  ClusterRank: 11\n'], ['ATOM   3191 C1   LIG     1      67.199  -8.093  29.507  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      66.248  -6.946  29.231  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      67.853  -7.887  30.870  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      66.446  -9.412  29.510  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      66.922  -5.595  29.224  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      65.477  -7.008  27.945  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      68.920  -8.974  31.131  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      68.358  -6.455  31.083  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      67.235 -10.521  30.116  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      65.779  -4.700  28.728  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      67.348  -5.396  30.666  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      68.122  -5.504  28.272  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.098  -5.568  27.672  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      68.356 -10.340  30.828  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      69.322  -8.888  32.604  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      70.167  -8.773  30.264  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      66.133  -3.306  28.164  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      69.102 -11.518  31.369  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      70.147 -10.065  33.084  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.894  -2.598  27.625  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.738  -2.396  29.216  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.391 -11.353  32.846  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      64.999  -2.436  26.116  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.186 -12.445  33.289  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      63.811  -1.735  25.534  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      62.779  -2.446  24.731  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      62.530  -2.093  26.108  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      62.831  -3.918  24.496  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      61.979  -1.664  23.754  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.956  -8.142  28.722  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      65.503  -6.940  30.032  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      67.056  -8.026  31.608  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      66.185  -9.683  28.484  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      65.509  -9.307  30.065  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      64.596  -7.650  28.028  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      66.105  -7.395  27.144  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      69.291  -6.284  30.544  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      68.591  -6.299  32.139  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      66.873 -11.529  29.951  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      65.077  -4.567  29.556  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      66.473  -5.458  31.318  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.777  -4.406  30.810  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      64.013  -5.439  27.702  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      65.433  -5.303  26.666  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      68.420  -8.829  33.221  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      69.893  -7.975  32.786  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      66.847  -3.402  27.343  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      70.042 -11.637  30.823  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      68.553 -12.453  31.214  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      70.370  -9.957  34.149  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      71.113 -10.097  32.573  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      64.799  -1.604  28.070  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      63.985  -3.140  27.896  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      68.459 -11.352  33.419  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.156  -3.408  25.646  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.890  -1.845  25.887  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      63.995  -0.684  25.351  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      63.503  -4.143  23.665  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      61.836  -4.290  24.240  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      63.177  -4.465  25.378  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      70.506 -12.210  34.176  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      67.728  -2.743  29.517  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      66.097  -2.354  30.102  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.850  -1.381  28.825  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      68.641  -4.552  28.405  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.816  -5.567  27.226  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      68.866  -6.286  28.432  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      69.923  -8.753  29.199  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      70.902  -9.570  30.407  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      70.674  -7.838  30.508  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      62.404  -1.768  22.753  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      61.961  -0.600  24.009  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      60.949  -2.028  23.729  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.97', True, 'REMARK  Energy: 232.61\nREMARK  SimpleFitness: 232.61\nREMARK  FullFitness: -837.9627\nREMARK  InterFull: -28.2467\nREMARK  IntraFull: 267.898\nREMARK  solvFull: -1249.51\nREMARK  surfFull: 171.896\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1249.51\nREMARK  deltaGcompsolvnonpol: 171.896\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.71149\nREMARK  deltaGligsolvnonpol: 12.4152\nREMARK  deltaGvdw: -28.2467\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.521023\nREMARK  Cluster: 9\nREMARK  ClusterRank: 11\n', 97), ({'deltaGligsolvpol': -4.70949, 'surfFull': 171.961, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.961, 'SimpleFitness': 232.654, 'InterFull': -27.9648, 'extraFull': 0.0, 'Energy': 232.654, 'solvFull': -1249.69, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 9, 'deltaGligsolvnonpol': 12.4121, 'deltaGcompsolvpol': -1249.69, 'FullFitness': -837.93976, 'deltaG': -6.499047, 'ClusterRank': 12, 'IntraFull': 267.754, 'deltaGvdw': -27.9648}, 'V', ['REMARK  Energy: 232.654\n', 'REMARK  SimpleFitness: 232.654\n', 'REMARK  FullFitness: -837.93976\n', 'REMARK  InterFull: -27.9648\n', 'REMARK  IntraFull: 267.754\n', 'REMARK  solvFull: -1249.69\n', 'REMARK  surfFull: 171.961\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1249.69\n', 'REMARK  deltaGcompsolvnonpol: 171.961\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.70949\n', 'REMARK  deltaGligsolvnonpol: 12.4121\n', 'REMARK  deltaGvdw: -27.9648\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.499047\n', 'REMARK  Cluster: 9\n', 'REMARK  ClusterRank: 12\n'], ['ATOM   3191 C1   LIG     1      67.159  -8.102  29.534  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      66.225  -6.944  29.246  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      67.799  -7.902  30.905  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      66.388  -9.410  29.528  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      66.913  -5.600  29.245  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      65.467  -7.000  27.952  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      68.844  -9.006  31.184  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      68.325  -6.476  31.117  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      67.153 -10.529  30.144  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      65.782  -4.695  28.741  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      67.333  -5.404  30.689  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      68.119  -5.523  28.300  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.101  -5.557  27.678  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      68.266 -10.363  30.871  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      69.222  -8.927  32.665  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      70.109  -8.822  30.340  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      66.149  -3.305  28.180  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      68.986 -11.553  31.421  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      70.020 -10.117  33.157  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.917  -2.586  27.640  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.758  -2.403  29.236  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.251 -11.394  32.903  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      65.019  -2.427  26.131  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.024 -12.497  33.359  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      63.834  -1.721  25.550  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      62.798  -2.425  24.745  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      62.552  -2.074  26.123  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      62.842  -3.896  24.508  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      62.001  -1.636  23.771  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.925  -8.160  28.758  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      65.471  -6.929  30.040  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      66.990  -8.024  31.633  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      66.137  -9.678  28.498  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      65.446  -9.291  30.070  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      64.581  -7.636  28.024  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      66.101  -7.390  27.157  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      69.263  -6.319  30.584  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      68.552  -6.321  32.175  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      66.780 -11.531  29.973  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      65.075  -4.557  29.564  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      66.452  -5.452  31.336  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.775  -4.420  30.835  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      64.016  -5.421  27.703  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      65.444  -5.295  26.675  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      68.312  -8.853  33.266  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      69.805  -8.022  32.856  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      66.865  -3.405  27.360  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      69.935 -11.683  30.892  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      68.429 -12.480  31.254  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      70.226 -10.014  34.226  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      70.995 -10.162  32.663  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      64.830  -1.591  28.084  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      64.004  -3.121  27.914  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      68.309 -11.382  33.459  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.170  -3.402  25.664  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.914  -1.843  25.899  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      64.022  -0.670  25.369  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      63.513  -4.123  23.676  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      61.845  -4.263  24.252  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      63.187  -4.446  25.388  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      70.332 -12.266  34.251  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      67.750  -2.753  29.529  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      66.122  -2.369  30.125  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.868  -1.384  28.853  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      68.647  -4.575  28.436  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.819  -5.583  27.253  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      68.854  -6.312  28.467  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      69.881  -8.791  29.271  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      70.828  -9.632  30.490  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      70.627  -7.897  30.598  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      62.423  -1.743  22.768  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      61.990  -0.572  24.026  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      60.968  -1.994  23.747  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.98', True, 'REMARK  Energy: 232.654\nREMARK  SimpleFitness: 232.654\nREMARK  FullFitness: -837.93976\nREMARK  InterFull: -27.9648\nREMARK  IntraFull: 267.754\nREMARK  solvFull: -1249.69\nREMARK  surfFull: 171.961\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1249.69\nREMARK  deltaGcompsolvnonpol: 171.961\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.70949\nREMARK  deltaGligsolvnonpol: 12.4121\nREMARK  deltaGvdw: -27.9648\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.499047\nREMARK  Cluster: 9\nREMARK  ClusterRank: 12\n', 98), ({'deltaGligsolvpol': -4.70949, 'surfFull': 171.961, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.961, 'SimpleFitness': 232.654, 'InterFull': -27.9648, 'extraFull': 0.0, 'Energy': 232.654, 'solvFull': -1249.69, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 9, 'deltaGligsolvnonpol': 12.4121, 'deltaGcompsolvpol': -1249.69, 'FullFitness': -837.93976, 'deltaG': -6.499047, 'ClusterRank': 13, 'IntraFull': 267.754, 'deltaGvdw': -27.9648}, 'V', ['REMARK  Energy: 232.654\n', 'REMARK  SimpleFitness: 232.654\n', 'REMARK  FullFitness: -837.93976\n', 'REMARK  InterFull: -27.9648\n', 'REMARK  IntraFull: 267.754\n', 'REMARK  solvFull: -1249.69\n', 'REMARK  surfFull: 171.961\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1249.69\n', 'REMARK  deltaGcompsolvnonpol: 171.961\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.70949\n', 'REMARK  deltaGligsolvnonpol: 12.4121\n', 'REMARK  deltaGvdw: -27.9648\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.499047\n', 'REMARK  Cluster: 9\n', 'REMARK  ClusterRank: 13\n'], ['ATOM   3191 C1   LIG     1      67.159  -8.102  29.534  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      66.225  -6.944  29.246  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      67.799  -7.902  30.905  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      66.388  -9.410  29.528  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      66.913  -5.600  29.245  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      65.467  -7.000  27.952  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      68.844  -9.006  31.184  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      68.325  -6.476  31.117  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      67.153 -10.529  30.144  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      65.782  -4.695  28.741  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      67.333  -5.404  30.689  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      68.119  -5.523  28.300  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.101  -5.557  27.678  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      68.266 -10.363  30.871  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      69.222  -8.927  32.665  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      70.109  -8.822  30.340  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      66.149  -3.305  28.180  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      68.986 -11.553  31.421  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      70.020 -10.117  33.157  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.917  -2.586  27.640  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.758  -2.403  29.236  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.251 -11.394  32.903  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      65.019  -2.427  26.131  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.024 -12.497  33.359  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      63.834  -1.721  25.550  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      62.798  -2.425  24.745  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      62.552  -2.074  26.123  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      62.842  -3.896  24.508  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      62.001  -1.636  23.771  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.925  -8.160  28.758  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      65.471  -6.929  30.040  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      66.990  -8.024  31.633  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      66.137  -9.678  28.498  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      65.446  -9.291  30.070  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      64.581  -7.636  28.024  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      66.101  -7.390  27.157  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      69.263  -6.319  30.584  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      68.552  -6.321  32.175  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      66.780 -11.531  29.973  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      65.075  -4.557  29.564  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      66.452  -5.452  31.336  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.775  -4.420  30.835  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      64.016  -5.421  27.703  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      65.444  -5.295  26.675  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      68.312  -8.853  33.266  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      69.805  -8.022  32.856  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      66.865  -3.405  27.360  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      69.935 -11.683  30.892  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      68.429 -12.480  31.254  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      70.226 -10.014  34.226  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      70.995 -10.162  32.663  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      64.830  -1.591  28.084  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      64.004  -3.121  27.914  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      68.309 -11.382  33.459  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.170  -3.402  25.664  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.914  -1.843  25.899  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      64.022  -0.670  25.369  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      63.513  -4.123  23.676  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      61.845  -4.263  24.252  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      63.187  -4.446  25.388  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      70.332 -12.266  34.251  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      67.750  -2.753  29.529  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      66.122  -2.369  30.125  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.868  -1.384  28.853  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      68.647  -4.575  28.436  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.819  -5.583  27.253  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      68.854  -6.312  28.467  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      69.881  -8.791  29.271  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      70.828  -9.632  30.490  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      70.627  -7.897  30.598  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      62.423  -1.743  22.768  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      61.990  -0.572  24.026  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      60.968  -1.994  23.747  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.99', True, 'REMARK  Energy: 232.654\nREMARK  SimpleFitness: 232.654\nREMARK  FullFitness: -837.93976\nREMARK  InterFull: -27.9648\nREMARK  IntraFull: 267.754\nREMARK  solvFull: -1249.69\nREMARK  surfFull: 171.961\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1249.69\nREMARK  deltaGcompsolvnonpol: 171.961\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.70949\nREMARK  deltaGligsolvnonpol: 12.4121\nREMARK  deltaGvdw: -27.9648\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.499047\nREMARK  Cluster: 9\nREMARK  ClusterRank: 13\n', 99), ({'deltaGligsolvpol': -4.70949, 'surfFull': 171.961, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.961, 'SimpleFitness': 232.654, 'InterFull': -27.9648, 'extraFull': 0.0, 'Energy': 232.654, 'solvFull': -1249.69, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 9, 'deltaGligsolvnonpol': 12.4121, 'deltaGcompsolvpol': -1249.69, 'FullFitness': -837.93976, 'deltaG': -6.499047, 'ClusterRank': 14, 'IntraFull': 267.754, 'deltaGvdw': -27.9648}, 'V', ['REMARK  Energy: 232.654\n', 'REMARK  SimpleFitness: 232.654\n', 'REMARK  FullFitness: -837.93976\n', 'REMARK  InterFull: -27.9648\n', 'REMARK  IntraFull: 267.754\n', 'REMARK  solvFull: -1249.69\n', 'REMARK  surfFull: 171.961\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1249.69\n', 'REMARK  deltaGcompsolvnonpol: 171.961\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.70949\n', 'REMARK  deltaGligsolvnonpol: 12.4121\n', 'REMARK  deltaGvdw: -27.9648\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.499047\n', 'REMARK  Cluster: 9\n', 'REMARK  ClusterRank: 14\n'], ['ATOM   3191 C1   LIG     1      67.159  -8.102  29.534  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      66.225  -6.944  29.246  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      67.799  -7.902  30.905  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      66.388  -9.410  29.528  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      66.913  -5.600  29.245  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      65.467  -7.000  27.952  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      68.844  -9.006  31.184  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      68.325  -6.476  31.117  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      67.153 -10.529  30.144  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      65.782  -4.695  28.741  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      67.333  -5.404  30.689  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      68.119  -5.523  28.300  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.101  -5.557  27.678  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      68.266 -10.363  30.871  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      69.222  -8.927  32.665  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      70.109  -8.822  30.340  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      66.149  -3.305  28.180  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      68.986 -11.553  31.421  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      70.020 -10.117  33.157  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.917  -2.586  27.640  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.758  -2.403  29.236  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.251 -11.394  32.903  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      65.019  -2.427  26.131  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.024 -12.497  33.359  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      63.834  -1.721  25.550  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      62.798  -2.425  24.745  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      62.552  -2.074  26.123  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      62.842  -3.896  24.508  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      62.001  -1.636  23.771  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.925  -8.160  28.758  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      65.471  -6.929  30.040  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      66.990  -8.024  31.633  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      66.137  -9.678  28.498  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      65.446  -9.291  30.070  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      64.581  -7.636  28.024  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      66.101  -7.390  27.157  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      69.263  -6.319  30.584  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      68.552  -6.321  32.175  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      66.780 -11.531  29.973  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      65.075  -4.557  29.564  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      66.452  -5.452  31.336  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.775  -4.420  30.835  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      64.016  -5.421  27.703  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      65.444  -5.295  26.675  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      68.312  -8.853  33.266  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      69.805  -8.022  32.856  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      66.865  -3.405  27.360  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      69.935 -11.683  30.892  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      68.429 -12.480  31.254  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      70.226 -10.014  34.226  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      70.995 -10.162  32.663  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      64.830  -1.591  28.084  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      64.004  -3.121  27.914  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      68.309 -11.382  33.459  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.170  -3.402  25.664  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.914  -1.843  25.899  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      64.022  -0.670  25.369  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      63.513  -4.123  23.676  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      61.845  -4.263  24.252  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      63.187  -4.446  25.388  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      70.332 -12.266  34.251  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      67.750  -2.753  29.529  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      66.122  -2.369  30.125  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.868  -1.384  28.853  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      68.647  -4.575  28.436  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.819  -5.583  27.253  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      68.854  -6.312  28.467  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      69.881  -8.791  29.271  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      70.828  -9.632  30.490  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      70.627  -7.897  30.598  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      62.423  -1.743  22.768  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      61.990  -0.572  24.026  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      60.968  -1.994  23.747  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.100', True, 'REMARK  Energy: 232.654\nREMARK  SimpleFitness: 232.654\nREMARK  FullFitness: -837.93976\nREMARK  InterFull: -27.9648\nREMARK  IntraFull: 267.754\nREMARK  solvFull: -1249.69\nREMARK  surfFull: 171.961\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1249.69\nREMARK  deltaGcompsolvnonpol: 171.961\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.70949\nREMARK  deltaGligsolvnonpol: 12.4121\nREMARK  deltaGvdw: -27.9648\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.499047\nREMARK  Cluster: 9\nREMARK  ClusterRank: 14\n', 100), ({'deltaGligsolvpol': -4.71111, 'surfFull': 171.972, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.972, 'SimpleFitness': 232.69, 'InterFull': -27.8905, 'extraFull': 0.0, 'Energy': 232.69, 'solvFull': -1249.7, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 9, 'deltaGligsolvnonpol': 12.416, 'deltaGcompsolvpol': -1249.7, 'FullFitness': -837.8615, 'deltaG': -6.49186, 'ClusterRank': 15, 'IntraFull': 267.757, 'deltaGvdw': -27.8905}, 'V', ['REMARK  Energy: 232.69\n', 'REMARK  SimpleFitness: 232.69\n', 'REMARK  FullFitness: -837.8615\n', 'REMARK  InterFull: -27.8905\n', 'REMARK  IntraFull: 267.757\n', 'REMARK  solvFull: -1249.7\n', 'REMARK  surfFull: 171.972\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1249.7\n', 'REMARK  deltaGcompsolvnonpol: 171.972\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.71111\n', 'REMARK  deltaGligsolvnonpol: 12.416\n', 'REMARK  deltaGvdw: -27.8905\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.49186\n', 'REMARK  Cluster: 9\n', 'REMARK  ClusterRank: 15\n'], ['ATOM   3191 C1   LIG     1      67.171  -8.109  29.535  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      66.242  -6.947  29.248  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      67.809  -7.914  30.907  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      66.392  -9.413  29.525  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      66.935  -5.606  29.250  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      65.483  -6.997  27.956  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      68.844  -9.025  31.191  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      68.346  -6.492  31.116  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      67.142 -10.536  30.151  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      65.806  -4.696  28.751  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      67.356  -5.416  30.695  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      68.140  -5.529  28.303  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.120  -5.552  27.686  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      68.252 -10.379  30.884  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      69.224  -8.940  32.671  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      70.111  -8.858  30.346  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      66.177  -3.304  28.195  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      68.953 -11.573  31.449  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      70.000 -10.139  33.175  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.948  -2.581  27.653  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.784  -2.405  29.255  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.208 -11.403  32.931  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      65.049  -2.426  26.143  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      69.955 -12.516  33.405  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      63.871  -1.706  25.565  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      62.819  -2.400  24.773  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      62.588  -2.036  26.150  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      62.839  -3.874  24.544  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      62.028  -1.606  23.798  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.938  -8.170  28.760  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      65.489  -6.930  30.042  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      66.998  -8.028  31.633  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      66.149  -9.682  28.493  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      65.445  -9.286  30.058  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      64.595  -7.631  28.027  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      66.116  -7.386  27.158  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      69.282  -6.343  30.577  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      68.580  -6.338  32.172  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      66.758 -11.535  29.986  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      65.100  -4.559  29.575  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      66.476  -5.465  31.342  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.799  -4.434  30.843  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      64.036  -5.412  27.713  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      65.463  -5.288  26.684  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      68.314  -8.844  33.272  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      69.823  -8.044  32.854  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      66.894  -3.404  27.377  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      69.904 -11.719  30.928  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      68.385 -12.495  31.285  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      70.207 -10.029  34.244  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      70.974 -10.206  32.683  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      64.868  -1.584  28.094  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      64.032  -3.109  27.931  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      68.263 -11.365  33.480  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.186  -3.402  25.675  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.950  -1.853  25.909  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      64.074  -0.660  25.376  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      63.487  -4.115  23.698  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      61.831  -4.229  24.312  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      63.194  -4.424  25.420  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      70.254 -12.285  34.301  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      67.769  -2.763  29.559  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      66.139  -2.362  30.137  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.907  -1.389  28.871  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      68.673  -4.586  28.443  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.838  -5.582  27.256  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      68.870  -6.324  28.464  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      69.885  -8.833  29.277  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      70.822  -9.674  30.504  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      70.637  -7.936  30.599  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      62.438  -1.729  22.793  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      62.039  -0.539  24.045  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      60.989  -1.945  23.788  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.101', True, 'REMARK  Energy: 232.69\nREMARK  SimpleFitness: 232.69\nREMARK  FullFitness: -837.8615\nREMARK  InterFull: -27.8905\nREMARK  IntraFull: 267.757\nREMARK  solvFull: -1249.7\nREMARK  surfFull: 171.972\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1249.7\nREMARK  deltaGcompsolvnonpol: 171.972\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.71111\nREMARK  deltaGligsolvnonpol: 12.416\nREMARK  deltaGvdw: -27.8905\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.49186\nREMARK  Cluster: 9\nREMARK  ClusterRank: 15\n', 101), ({'deltaGligsolvpol': -4.8885, 'surfFull': 172.772, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.772, 'SimpleFitness': 227.598, 'InterFull': -34.1272, 'extraFull': 0.0, 'Energy': 227.598, 'solvFull': -1247.65, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 10, 'deltaGligsolvnonpol': 12.7592, 'deltaGcompsolvpol': -1247.65, 'FullFitness': -842.4833, 'deltaG': -6.9023266, 'ClusterRank': 0, 'IntraFull': 266.522, 'deltaGvdw': -34.1272}, 'V', ['REMARK  Energy: 227.598\n', 'REMARK  SimpleFitness: 227.598\n', 'REMARK  FullFitness: -842.4833\n', 'REMARK  InterFull: -34.1272\n', 'REMARK  IntraFull: 266.522\n', 'REMARK  solvFull: -1247.65\n', 'REMARK  surfFull: 172.772\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1247.65\n', 'REMARK  deltaGcompsolvnonpol: 172.772\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.8885\n', 'REMARK  deltaGligsolvnonpol: 12.7592\n', 'REMARK  deltaGvdw: -34.1272\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9023266\n', 'REMARK  Cluster: 10\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      65.597  -5.714  27.594  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.480  -4.953  26.920  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      65.925  -5.076  28.935  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      65.163  -7.155  27.810  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.773  -3.492  26.680  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.026  -5.483  25.587  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      67.127  -5.797  29.592  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      66.088  -3.553  28.822  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      66.067  -7.893  28.729  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      63.497  -3.121  25.915  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      64.955  -2.879  28.059  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      66.017  -3.243  25.819  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      63.327  -4.300  24.956  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      66.968  -7.296  29.518  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      67.177  -5.370  31.060  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      68.448  -5.438  28.903  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.422  -1.763  25.188  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      67.865  -8.120  30.387  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      68.140  -6.183  31.905  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      62.261  -1.686  24.196  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.282  -0.612  26.165  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      67.797  -7.652  31.826  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      60.883  -1.910  24.812  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      68.738  -8.384  32.601  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      59.913  -2.301  23.750  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      58.531  -2.726  24.075  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      58.795  -1.402  23.562  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      58.044  -2.745  25.482  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      57.836  -3.630  23.121  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      66.482  -5.698  26.962  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      63.613  -5.005  27.586  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      65.051  -5.238  29.573  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      65.137  -7.678  26.851  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      64.150  -7.184  28.223  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.353  -6.337  25.693  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      64.877  -5.791  24.974  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      67.029  -3.296  28.333  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      66.136  -3.114  29.821  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      65.987  -8.973  28.739  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      62.679  -3.163  26.638  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.027  -2.980  28.628  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      65.174  -1.813  27.977  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.270  -4.523  24.786  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.782  -4.092  23.984  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      66.178  -5.465  31.497  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      67.457  -4.317  31.135  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      64.332  -1.601  24.607  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      68.895  -8.048  30.024  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      67.614  -9.185  30.342  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      68.105  -5.846  32.945  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      69.171  -6.033  31.574  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      62.432  -2.394  23.381  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      62.263  -0.701  23.722  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      66.800  -7.827  32.241  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      60.555  -1.005  25.333  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      60.909  -2.714  25.549  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      60.380  -2.753  22.884  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      58.381  -3.656  25.983  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      56.951  -2.734  25.493  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      58.395  -1.882  26.054  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      69.618  -8.052  32.352  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      64.210  -0.458  26.717  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      62.482  -0.800  26.886  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      63.057   0.316  25.633  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      65.901  -3.602  24.794  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      66.911  -3.723  26.223  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      66.225  -2.171  25.767  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      68.428  -5.683  27.837  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      69.302  -5.966  29.337  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      68.669  -4.373  28.995  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      58.032  -4.672  23.384  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      58.174  -3.468  22.092  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      56.757  -3.461  23.159  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.102', True, 'REMARK  Energy: 227.598\nREMARK  SimpleFitness: 227.598\nREMARK  FullFitness: -842.4833\nREMARK  InterFull: -34.1272\nREMARK  IntraFull: 266.522\nREMARK  solvFull: -1247.65\nREMARK  surfFull: 172.772\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1247.65\nREMARK  deltaGcompsolvnonpol: 172.772\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.8885\nREMARK  deltaGligsolvnonpol: 12.7592\nREMARK  deltaGvdw: -34.1272\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9023266\nREMARK  Cluster: 10\nREMARK  ClusterRank: 0\n', 102), ({'deltaGligsolvpol': -4.8885, 'surfFull': 172.772, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.772, 'SimpleFitness': 227.598, 'InterFull': -34.1272, 'extraFull': 0.0, 'Energy': 227.598, 'solvFull': -1247.65, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 10, 'deltaGligsolvnonpol': 12.7592, 'deltaGcompsolvpol': -1247.65, 'FullFitness': -842.4833, 'deltaG': -6.9023266, 'ClusterRank': 1, 'IntraFull': 266.522, 'deltaGvdw': -34.1272}, 'V', ['REMARK  Energy: 227.598\n', 'REMARK  SimpleFitness: 227.598\n', 'REMARK  FullFitness: -842.4833\n', 'REMARK  InterFull: -34.1272\n', 'REMARK  IntraFull: 266.522\n', 'REMARK  solvFull: -1247.65\n', 'REMARK  surfFull: 172.772\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1247.65\n', 'REMARK  deltaGcompsolvnonpol: 172.772\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.8885\n', 'REMARK  deltaGligsolvnonpol: 12.7592\n', 'REMARK  deltaGvdw: -34.1272\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9023266\n', 'REMARK  Cluster: 10\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      65.597  -5.714  27.594  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.480  -4.953  26.920  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      65.925  -5.076  28.935  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      65.163  -7.155  27.810  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.773  -3.492  26.680  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.026  -5.483  25.587  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      67.127  -5.797  29.592  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      66.088  -3.553  28.822  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      66.067  -7.893  28.729  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      63.497  -3.121  25.915  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      64.955  -2.879  28.059  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      66.017  -3.243  25.819  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      63.327  -4.300  24.956  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      66.968  -7.296  29.518  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      67.177  -5.370  31.060  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      68.448  -5.438  28.903  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.422  -1.763  25.188  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      67.865  -8.120  30.387  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      68.140  -6.183  31.905  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      62.261  -1.686  24.196  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.282  -0.612  26.165  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      67.797  -7.652  31.826  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      60.883  -1.910  24.812  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      68.738  -8.384  32.601  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      59.913  -2.301  23.750  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      58.531  -2.726  24.075  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      58.795  -1.402  23.562  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      58.044  -2.745  25.482  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      57.836  -3.630  23.121  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      66.482  -5.698  26.962  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      63.613  -5.005  27.586  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      65.051  -5.238  29.573  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      65.137  -7.678  26.851  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      64.150  -7.184  28.223  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.353  -6.337  25.693  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      64.877  -5.791  24.974  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      67.029  -3.296  28.333  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      66.136  -3.114  29.821  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      65.987  -8.973  28.739  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      62.679  -3.163  26.638  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.027  -2.980  28.628  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      65.174  -1.813  27.977  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.270  -4.523  24.786  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.782  -4.092  23.984  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      66.178  -5.465  31.497  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      67.457  -4.317  31.135  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      64.332  -1.601  24.607  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      68.895  -8.048  30.024  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      67.614  -9.185  30.342  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      68.105  -5.846  32.945  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      69.171  -6.033  31.574  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      62.432  -2.394  23.381  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      62.263  -0.701  23.722  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      66.800  -7.827  32.241  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      60.555  -1.005  25.333  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      60.909  -2.714  25.549  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      60.380  -2.753  22.884  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      58.381  -3.656  25.983  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      56.951  -2.734  25.493  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      58.395  -1.882  26.054  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      69.618  -8.052  32.352  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      64.210  -0.458  26.717  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      62.482  -0.800  26.886  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      63.057   0.316  25.633  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      65.901  -3.602  24.794  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      66.911  -3.723  26.223  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      66.225  -2.171  25.767  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      68.428  -5.683  27.837  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      69.302  -5.966  29.337  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      68.669  -4.373  28.995  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      58.032  -4.672  23.384  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      58.174  -3.468  22.092  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      56.757  -3.461  23.159  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.103', True, 'REMARK  Energy: 227.598\nREMARK  SimpleFitness: 227.598\nREMARK  FullFitness: -842.4833\nREMARK  InterFull: -34.1272\nREMARK  IntraFull: 266.522\nREMARK  solvFull: -1247.65\nREMARK  surfFull: 172.772\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1247.65\nREMARK  deltaGcompsolvnonpol: 172.772\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.8885\nREMARK  deltaGligsolvnonpol: 12.7592\nREMARK  deltaGvdw: -34.1272\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9023266\nREMARK  Cluster: 10\nREMARK  ClusterRank: 1\n', 103), ({'deltaGligsolvpol': -4.86618, 'surfFull': 172.541, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.541, 'SimpleFitness': 228.426, 'InterFull': -34.3338, 'extraFull': 0.0, 'Energy': 228.426, 'solvFull': -1247.89, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 10, 'deltaGligsolvnonpol': 12.8586, 'deltaGcompsolvpol': -1247.89, 'FullFitness': -841.5958, 'deltaG': -6.96918, 'ClusterRank': 2, 'IntraFull': 268.087, 'deltaGvdw': -34.3338}, 'V', ['REMARK  Energy: 228.426\n', 'REMARK  SimpleFitness: 228.426\n', 'REMARK  FullFitness: -841.5958\n', 'REMARK  InterFull: -34.3338\n', 'REMARK  IntraFull: 268.087\n', 'REMARK  solvFull: -1247.89\n', 'REMARK  surfFull: 172.541\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1247.89\n', 'REMARK  deltaGcompsolvnonpol: 172.541\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.86618\n', 'REMARK  deltaGligsolvnonpol: 12.8586\n', 'REMARK  deltaGvdw: -34.3338\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.96918\n', 'REMARK  Cluster: 10\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      65.594  -5.733  27.619  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.502  -4.913  26.970  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      65.968  -5.138  28.968  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      65.116  -7.162  27.814  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.868  -3.464  26.764  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.023  -5.386  25.624  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      67.169  -5.905  29.573  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      66.167  -3.617  28.903  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      66.029  -7.948  28.687  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      63.626  -3.004  25.995  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      65.060  -2.889  28.155  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      66.135  -3.262  25.922  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      63.398  -4.151  25.010  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      66.971  -7.397  29.461  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      67.266  -5.522  31.050  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      68.482  -5.554  28.864  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.661  -1.616  25.321  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      67.882  -8.263  30.273  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      68.249  -6.368  31.836  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      62.609  -1.445  24.230  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.456  -0.511  26.339  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      67.891  -7.833  31.726  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      61.174  -1.547  24.732  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      68.864  -8.593  32.432  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      60.328  -2.217  23.700  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      59.341  -3.280  24.023  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      58.915  -1.918  23.787  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      59.114  -3.749  25.419  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      58.968  -4.238  22.948  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      66.470  -5.743  26.974  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      63.636  -4.940  27.639  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      65.105  -5.300  29.622  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      65.046  -7.659  26.843  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      64.116  -7.168  28.254  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.300  -6.202  25.711  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      64.856  -5.732  25.008  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      67.116  -3.364  28.430  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      66.219  -3.210  29.916  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      65.922  -9.026  28.669  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      62.792  -3.015  26.703  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.126  -2.973  28.718  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      65.314  -1.829  28.098  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.332  -4.308  24.824  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.877  -3.954  24.048  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      66.281  -5.623  31.515  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      67.557  -4.474  31.148  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      64.624  -1.453  24.834  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      68.897  -8.211  29.868  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      67.600  -9.320  30.213  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      68.248  -6.064  32.886  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      69.270  -6.208  31.479  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      62.798  -2.157  23.423  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      62.735  -0.459  23.775  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      66.914  -8.016  32.182  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      60.793  -0.541  24.927  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      61.130  -2.087  25.678  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      60.786  -2.220  22.722  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      59.883  -4.474  25.699  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      58.139  -4.235  25.496  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      59.136  -2.926  26.140  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      69.731  -8.219  32.193  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      64.342  -0.390  26.963  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      62.608  -0.727  26.994  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      63.272   0.444  25.839  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      66.009  -3.586  24.886  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      66.999  -3.799  26.317  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      66.405  -2.203  25.902  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      68.425  -5.747  27.789  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      69.331  -6.127  29.246  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      68.738  -4.502  29.001  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      59.577  -5.143  23.027  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      59.120  -3.812  21.953  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      57.917  -4.522  23.043  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.104', True, 'REMARK  Energy: 228.426\nREMARK  SimpleFitness: 228.426\nREMARK  FullFitness: -841.5958\nREMARK  InterFull: -34.3338\nREMARK  IntraFull: 268.087\nREMARK  solvFull: -1247.89\nREMARK  surfFull: 172.541\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1247.89\nREMARK  deltaGcompsolvnonpol: 172.541\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.86618\nREMARK  deltaGligsolvnonpol: 12.8586\nREMARK  deltaGvdw: -34.3338\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.96918\nREMARK  Cluster: 10\nREMARK  ClusterRank: 2\n', 104), ({'deltaGligsolvpol': -4.86618, 'surfFull': 172.541, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.541, 'SimpleFitness': 228.426, 'InterFull': -34.3338, 'extraFull': 0.0, 'Energy': 228.426, 'solvFull': -1247.89, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 10, 'deltaGligsolvnonpol': 12.8586, 'deltaGcompsolvpol': -1247.89, 'FullFitness': -841.5958, 'deltaG': -6.96918, 'ClusterRank': 3, 'IntraFull': 268.087, 'deltaGvdw': -34.3338}, 'V', ['REMARK  Energy: 228.426\n', 'REMARK  SimpleFitness: 228.426\n', 'REMARK  FullFitness: -841.5958\n', 'REMARK  InterFull: -34.3338\n', 'REMARK  IntraFull: 268.087\n', 'REMARK  solvFull: -1247.89\n', 'REMARK  surfFull: 172.541\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1247.89\n', 'REMARK  deltaGcompsolvnonpol: 172.541\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.86618\n', 'REMARK  deltaGligsolvnonpol: 12.8586\n', 'REMARK  deltaGvdw: -34.3338\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.96918\n', 'REMARK  Cluster: 10\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      65.594  -5.733  27.619  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.502  -4.913  26.970  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      65.968  -5.138  28.968  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      65.116  -7.162  27.814  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.868  -3.464  26.764  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.023  -5.386  25.624  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      67.169  -5.905  29.573  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      66.167  -3.617  28.903  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      66.029  -7.948  28.687  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      63.626  -3.004  25.995  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      65.060  -2.889  28.155  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      66.135  -3.262  25.922  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      63.398  -4.151  25.010  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      66.971  -7.397  29.461  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      67.266  -5.522  31.050  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      68.482  -5.554  28.864  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.661  -1.616  25.321  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      67.882  -8.263  30.273  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      68.249  -6.368  31.836  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      62.609  -1.445  24.230  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.456  -0.511  26.339  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      67.891  -7.833  31.726  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      61.174  -1.547  24.732  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      68.864  -8.593  32.432  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      60.328  -2.217  23.700  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      59.341  -3.280  24.023  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      58.915  -1.918  23.787  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      59.114  -3.749  25.419  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      58.968  -4.238  22.948  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      66.470  -5.743  26.974  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      63.636  -4.940  27.639  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      65.105  -5.300  29.622  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      65.046  -7.659  26.843  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      64.116  -7.168  28.254  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.300  -6.202  25.711  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      64.856  -5.732  25.008  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      67.116  -3.364  28.430  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      66.219  -3.210  29.916  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      65.922  -9.026  28.669  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      62.792  -3.015  26.703  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.126  -2.973  28.718  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      65.314  -1.829  28.098  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.332  -4.308  24.824  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.877  -3.954  24.048  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      66.281  -5.623  31.515  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      67.557  -4.474  31.148  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      64.624  -1.453  24.834  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      68.897  -8.211  29.868  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      67.600  -9.320  30.213  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      68.248  -6.064  32.886  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      69.270  -6.208  31.479  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      62.798  -2.157  23.423  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      62.735  -0.459  23.775  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      66.914  -8.016  32.182  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      60.793  -0.541  24.927  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      61.130  -2.087  25.678  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      60.786  -2.220  22.722  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      59.883  -4.474  25.699  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      58.139  -4.235  25.496  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      59.136  -2.926  26.140  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      69.731  -8.219  32.193  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      64.342  -0.390  26.963  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      62.608  -0.727  26.994  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      63.272   0.444  25.839  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      66.009  -3.586  24.886  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      66.999  -3.799  26.317  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      66.405  -2.203  25.902  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      68.425  -5.747  27.789  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      69.331  -6.127  29.246  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      68.738  -4.502  29.001  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      59.577  -5.143  23.027  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      59.120  -3.812  21.953  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      57.917  -4.522  23.043  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.105', True, 'REMARK  Energy: 228.426\nREMARK  SimpleFitness: 228.426\nREMARK  FullFitness: -841.5958\nREMARK  InterFull: -34.3338\nREMARK  IntraFull: 268.087\nREMARK  solvFull: -1247.89\nREMARK  surfFull: 172.541\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1247.89\nREMARK  deltaGcompsolvnonpol: 172.541\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.86618\nREMARK  deltaGligsolvnonpol: 12.8586\nREMARK  deltaGvdw: -34.3338\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.96918\nREMARK  Cluster: 10\nREMARK  ClusterRank: 3\n', 105), ({'deltaGligsolvpol': -4.86499, 'surfFull': 172.494, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.494, 'SimpleFitness': 228.447, 'InterFull': -34.3455, 'extraFull': 0.0, 'Energy': 228.447, 'solvFull': -1247.91, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 10, 'deltaGligsolvnonpol': 12.8653, 'deltaGcompsolvpol': -1247.91, 'FullFitness': -841.5755, 'deltaG': -6.9766645, 'ClusterRank': 4, 'IntraFull': 268.186, 'deltaGvdw': -34.3455}, 'V', ['REMARK  Energy: 228.447\n', 'REMARK  SimpleFitness: 228.447\n', 'REMARK  FullFitness: -841.5755\n', 'REMARK  InterFull: -34.3455\n', 'REMARK  IntraFull: 268.186\n', 'REMARK  solvFull: -1247.91\n', 'REMARK  surfFull: 172.494\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1247.91\n', 'REMARK  deltaGcompsolvnonpol: 172.494\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.86499\n', 'REMARK  deltaGligsolvnonpol: 12.8653\n', 'REMARK  deltaGvdw: -34.3455\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9766645\n', 'REMARK  Cluster: 10\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      65.592  -5.712  27.599  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.498  -4.890  26.957  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      65.972  -5.124  28.950  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      65.117  -7.142  27.789  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.862  -3.440  26.757  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.019  -5.358  25.609  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      67.180  -5.893  29.541  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      66.166  -3.601  28.894  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      66.041  -7.932  28.644  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      63.619  -2.978  25.990  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      65.055  -2.872  28.151  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      66.129  -3.233  25.915  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      63.391  -4.122  25.001  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      66.988  -7.384  29.415  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      67.282  -5.528  31.022  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      68.488  -5.526  28.831  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.653  -1.588  25.320  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      67.911  -8.255  30.208  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      68.276  -6.376  31.792  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      62.603  -1.415  24.228  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.446  -0.487  26.341  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      67.930  -7.843  31.666  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      61.167  -1.525  24.727  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      68.914  -8.606  32.353  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      60.331  -2.214  23.700  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      59.365  -3.294  24.026  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      58.913  -1.942  23.790  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      59.152  -3.767  25.424  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      59.007  -4.261  22.953  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      66.466  -5.717  26.951  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      63.634  -4.922  27.627  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      65.114  -5.294  29.608  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      65.035  -7.632  26.816  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      64.122  -7.150  28.242  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.298  -6.175  25.694  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      64.853  -5.700  24.991  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      67.113  -3.341  28.421  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      66.217  -3.201  29.910  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      65.939  -9.010  28.616  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      62.786  -2.992  26.698  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.122  -2.961  28.715  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      65.306  -1.811  28.100  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.325  -4.279  24.817  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.868  -3.921  24.039  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      66.300  -5.643  31.491  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      67.564  -4.479  31.132  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      64.617  -1.422  24.835  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      68.922  -8.192  29.796  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      67.635  -9.313  30.138  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      68.278  -6.085  32.846  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      69.294  -6.203  31.432  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      62.797  -2.120  23.416  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      62.726  -0.425  23.780  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      66.957  -8.040  32.127  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      60.777  -0.521  24.909  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      61.125  -2.054  25.679  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      60.786  -2.210  22.719  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      59.940  -4.471  25.705  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      58.190  -4.279  25.503  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      59.152  -2.942  26.142  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      69.777  -8.233  32.101  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      64.331  -0.370  26.968  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      62.595  -0.703  26.992  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      63.265   0.470  25.843  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      66.003  -3.553  24.878  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      66.994  -3.770  26.308  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      66.397  -2.173  25.899  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      68.426  -5.703  27.754  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      69.341  -6.101  29.200  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      68.741  -4.476  28.982  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      59.638  -5.151  23.027  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      59.144  -3.829  21.957  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      57.963  -4.568  23.053  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.106', True, 'REMARK  Energy: 228.447\nREMARK  SimpleFitness: 228.447\nREMARK  FullFitness: -841.5755\nREMARK  InterFull: -34.3455\nREMARK  IntraFull: 268.186\nREMARK  solvFull: -1247.91\nREMARK  surfFull: 172.494\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1247.91\nREMARK  deltaGcompsolvnonpol: 172.494\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.86499\nREMARK  deltaGligsolvnonpol: 12.8653\nREMARK  deltaGvdw: -34.3455\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9766645\nREMARK  Cluster: 10\nREMARK  ClusterRank: 4\n', 106), ({'deltaGligsolvpol': -4.86499, 'surfFull': 172.494, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.494, 'SimpleFitness': 228.447, 'InterFull': -34.3455, 'extraFull': 0.0, 'Energy': 228.447, 'solvFull': -1247.91, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 10, 'deltaGligsolvnonpol': 12.8653, 'deltaGcompsolvpol': -1247.91, 'FullFitness': -841.5755, 'deltaG': -6.9766645, 'ClusterRank': 5, 'IntraFull': 268.186, 'deltaGvdw': -34.3455}, 'V', ['REMARK  Energy: 228.447\n', 'REMARK  SimpleFitness: 228.447\n', 'REMARK  FullFitness: -841.5755\n', 'REMARK  InterFull: -34.3455\n', 'REMARK  IntraFull: 268.186\n', 'REMARK  solvFull: -1247.91\n', 'REMARK  surfFull: 172.494\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1247.91\n', 'REMARK  deltaGcompsolvnonpol: 172.494\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.86499\n', 'REMARK  deltaGligsolvnonpol: 12.8653\n', 'REMARK  deltaGvdw: -34.3455\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9766645\n', 'REMARK  Cluster: 10\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      65.592  -5.712  27.599  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.498  -4.890  26.957  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      65.972  -5.124  28.950  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      65.117  -7.142  27.789  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.862  -3.440  26.757  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.019  -5.358  25.609  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      67.180  -5.893  29.541  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      66.166  -3.601  28.894  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      66.041  -7.932  28.644  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      63.619  -2.978  25.990  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      65.055  -2.872  28.151  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      66.129  -3.233  25.915  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      63.391  -4.122  25.001  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      66.988  -7.384  29.415  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      67.282  -5.528  31.022  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      68.488  -5.526  28.831  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.653  -1.588  25.320  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      67.911  -8.255  30.208  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      68.276  -6.376  31.792  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      62.603  -1.415  24.228  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.446  -0.487  26.341  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      67.930  -7.843  31.666  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      61.167  -1.525  24.727  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      68.914  -8.606  32.353  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      60.331  -2.214  23.700  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      59.365  -3.294  24.026  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      58.913  -1.942  23.790  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      59.152  -3.767  25.424  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      59.007  -4.261  22.953  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      66.466  -5.717  26.951  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      63.634  -4.922  27.627  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      65.114  -5.294  29.608  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      65.035  -7.632  26.816  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      64.122  -7.150  28.242  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.298  -6.175  25.694  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      64.853  -5.700  24.991  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      67.113  -3.341  28.421  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      66.217  -3.201  29.910  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      65.939  -9.010  28.616  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      62.786  -2.992  26.698  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.122  -2.961  28.715  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      65.306  -1.811  28.100  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.325  -4.279  24.817  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.868  -3.921  24.039  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      66.300  -5.643  31.491  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      67.564  -4.479  31.132  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      64.617  -1.422  24.835  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      68.922  -8.192  29.796  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      67.635  -9.313  30.138  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      68.278  -6.085  32.846  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      69.294  -6.203  31.432  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      62.797  -2.120  23.416  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      62.726  -0.425  23.780  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      66.957  -8.040  32.127  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      60.777  -0.521  24.909  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      61.125  -2.054  25.679  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      60.786  -2.210  22.719  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      59.940  -4.471  25.705  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      58.190  -4.279  25.503  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      59.152  -2.942  26.142  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      69.777  -8.233  32.101  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      64.331  -0.370  26.968  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      62.595  -0.703  26.992  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      63.265   0.470  25.843  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      66.003  -3.553  24.878  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      66.994  -3.770  26.308  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      66.397  -2.173  25.899  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      68.426  -5.703  27.754  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      69.341  -6.101  29.200  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      68.741  -4.476  28.982  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      59.638  -5.151  23.027  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      59.144  -3.829  21.957  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      57.963  -4.568  23.053  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.107', True, 'REMARK  Energy: 228.447\nREMARK  SimpleFitness: 228.447\nREMARK  FullFitness: -841.5755\nREMARK  InterFull: -34.3455\nREMARK  IntraFull: 268.186\nREMARK  solvFull: -1247.91\nREMARK  surfFull: 172.494\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1247.91\nREMARK  deltaGcompsolvnonpol: 172.494\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.86499\nREMARK  deltaGligsolvnonpol: 12.8653\nREMARK  deltaGvdw: -34.3455\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9766645\nREMARK  Cluster: 10\nREMARK  ClusterRank: 5\n', 107), ({'deltaGligsolvpol': -4.86499, 'surfFull': 172.494, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.494, 'SimpleFitness': 228.447, 'InterFull': -34.3455, 'extraFull': 0.0, 'Energy': 228.447, 'solvFull': -1247.91, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 10, 'deltaGligsolvnonpol': 12.8653, 'deltaGcompsolvpol': -1247.91, 'FullFitness': -841.5755, 'deltaG': -6.9766645, 'ClusterRank': 6, 'IntraFull': 268.186, 'deltaGvdw': -34.3455}, 'V', ['REMARK  Energy: 228.447\n', 'REMARK  SimpleFitness: 228.447\n', 'REMARK  FullFitness: -841.5755\n', 'REMARK  InterFull: -34.3455\n', 'REMARK  IntraFull: 268.186\n', 'REMARK  solvFull: -1247.91\n', 'REMARK  surfFull: 172.494\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1247.91\n', 'REMARK  deltaGcompsolvnonpol: 172.494\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.86499\n', 'REMARK  deltaGligsolvnonpol: 12.8653\n', 'REMARK  deltaGvdw: -34.3455\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9766645\n', 'REMARK  Cluster: 10\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      65.592  -5.712  27.599  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.498  -4.890  26.957  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      65.972  -5.124  28.950  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      65.117  -7.142  27.789  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.862  -3.440  26.757  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.019  -5.358  25.609  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      67.180  -5.893  29.541  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      66.166  -3.601  28.894  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      66.041  -7.932  28.644  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      63.619  -2.978  25.990  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      65.055  -2.872  28.151  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      66.129  -3.233  25.915  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      63.391  -4.122  25.001  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      66.988  -7.384  29.415  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      67.282  -5.528  31.022  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      68.488  -5.526  28.831  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.653  -1.588  25.320  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      67.911  -8.255  30.208  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      68.276  -6.376  31.792  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      62.603  -1.415  24.228  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.446  -0.487  26.341  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      67.930  -7.843  31.666  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      61.167  -1.525  24.727  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      68.914  -8.606  32.353  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      60.331  -2.214  23.700  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      59.365  -3.294  24.026  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      58.913  -1.942  23.790  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      59.152  -3.767  25.424  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      59.007  -4.261  22.953  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      66.466  -5.717  26.951  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      63.634  -4.922  27.627  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      65.114  -5.294  29.608  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      65.035  -7.632  26.816  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      64.122  -7.150  28.242  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.298  -6.175  25.694  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      64.853  -5.700  24.991  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      67.113  -3.341  28.421  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      66.217  -3.201  29.910  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      65.939  -9.010  28.616  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      62.786  -2.992  26.698  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.122  -2.961  28.715  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      65.306  -1.811  28.100  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.325  -4.279  24.817  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.868  -3.921  24.039  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      66.300  -5.643  31.491  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      67.564  -4.479  31.132  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      64.617  -1.422  24.835  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      68.922  -8.192  29.796  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      67.635  -9.313  30.138  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      68.278  -6.085  32.846  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      69.294  -6.203  31.432  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      62.797  -2.120  23.416  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      62.726  -0.425  23.780  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      66.957  -8.040  32.127  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      60.777  -0.521  24.909  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      61.125  -2.054  25.679  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      60.786  -2.210  22.719  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      59.940  -4.471  25.705  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      58.190  -4.279  25.503  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      59.152  -2.942  26.142  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      69.777  -8.233  32.101  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      64.331  -0.370  26.968  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      62.595  -0.703  26.992  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      63.265   0.470  25.843  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      66.003  -3.553  24.878  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      66.994  -3.770  26.308  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      66.397  -2.173  25.899  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      68.426  -5.703  27.754  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      69.341  -6.101  29.200  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      68.741  -4.476  28.982  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      59.638  -5.151  23.027  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      59.144  -3.829  21.957  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      57.963  -4.568  23.053  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.108', True, 'REMARK  Energy: 228.447\nREMARK  SimpleFitness: 228.447\nREMARK  FullFitness: -841.5755\nREMARK  InterFull: -34.3455\nREMARK  IntraFull: 268.186\nREMARK  solvFull: -1247.91\nREMARK  surfFull: 172.494\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1247.91\nREMARK  deltaGcompsolvnonpol: 172.494\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.86499\nREMARK  deltaGligsolvnonpol: 12.8653\nREMARK  deltaGvdw: -34.3455\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9766645\nREMARK  Cluster: 10\nREMARK  ClusterRank: 6\n', 108), ({'deltaGligsolvpol': -4.86499, 'surfFull': 172.494, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.494, 'SimpleFitness': 228.447, 'InterFull': -34.3455, 'extraFull': 0.0, 'Energy': 228.447, 'solvFull': -1247.91, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 10, 'deltaGligsolvnonpol': 12.8653, 'deltaGcompsolvpol': -1247.91, 'FullFitness': -841.5755, 'deltaG': -6.9766645, 'ClusterRank': 7, 'IntraFull': 268.186, 'deltaGvdw': -34.3455}, 'V', ['REMARK  Energy: 228.447\n', 'REMARK  SimpleFitness: 228.447\n', 'REMARK  FullFitness: -841.5755\n', 'REMARK  InterFull: -34.3455\n', 'REMARK  IntraFull: 268.186\n', 'REMARK  solvFull: -1247.91\n', 'REMARK  surfFull: 172.494\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1247.91\n', 'REMARK  deltaGcompsolvnonpol: 172.494\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.86499\n', 'REMARK  deltaGligsolvnonpol: 12.8653\n', 'REMARK  deltaGvdw: -34.3455\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9766645\n', 'REMARK  Cluster: 10\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      65.592  -5.712  27.599  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.498  -4.890  26.957  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      65.972  -5.124  28.950  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      65.117  -7.142  27.789  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.862  -3.440  26.757  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      64.019  -5.358  25.609  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      67.180  -5.893  29.541  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      66.166  -3.601  28.894  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      66.041  -7.932  28.644  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      63.619  -2.978  25.990  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      65.055  -2.872  28.151  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      66.129  -3.233  25.915  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      63.391  -4.122  25.001  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      66.988  -7.384  29.415  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      67.282  -5.528  31.022  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      68.488  -5.526  28.831  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.653  -1.588  25.320  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      67.911  -8.255  30.208  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      68.276  -6.376  31.792  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      62.603  -1.415  24.228  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.446  -0.487  26.341  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      67.930  -7.843  31.666  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      61.167  -1.525  24.727  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      68.914  -8.606  32.353  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      60.331  -2.214  23.700  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      59.365  -3.294  24.026  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      58.913  -1.942  23.790  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      59.152  -3.767  25.424  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      59.007  -4.261  22.953  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      66.466  -5.717  26.951  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      63.634  -4.922  27.627  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      65.114  -5.294  29.608  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      65.035  -7.632  26.816  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      64.122  -7.150  28.242  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      63.298  -6.175  25.694  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      64.853  -5.700  24.991  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      67.113  -3.341  28.421  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      66.217  -3.201  29.910  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      65.939  -9.010  28.616  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      62.786  -2.992  26.698  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.122  -2.961  28.715  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      65.306  -1.811  28.100  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.325  -4.279  24.817  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.868  -3.921  24.039  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      66.300  -5.643  31.491  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      67.564  -4.479  31.132  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      64.617  -1.422  24.835  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      68.922  -8.192  29.796  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      67.635  -9.313  30.138  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      68.278  -6.085  32.846  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      69.294  -6.203  31.432  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      62.797  -2.120  23.416  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      62.726  -0.425  23.780  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      66.957  -8.040  32.127  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      60.777  -0.521  24.909  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      61.125  -2.054  25.679  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      60.786  -2.210  22.719  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      59.940  -4.471  25.705  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      58.190  -4.279  25.503  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      59.152  -2.942  26.142  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      69.777  -8.233  32.101  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      64.331  -0.370  26.968  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      62.595  -0.703  26.992  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      63.265   0.470  25.843  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      66.003  -3.553  24.878  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      66.994  -3.770  26.308  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      66.397  -2.173  25.899  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      68.426  -5.703  27.754  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      69.341  -6.101  29.200  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      68.741  -4.476  28.982  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      59.638  -5.151  23.027  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      59.144  -3.829  21.957  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      57.963  -4.568  23.053  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.109', True, 'REMARK  Energy: 228.447\nREMARK  SimpleFitness: 228.447\nREMARK  FullFitness: -841.5755\nREMARK  InterFull: -34.3455\nREMARK  IntraFull: 268.186\nREMARK  solvFull: -1247.91\nREMARK  surfFull: 172.494\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1247.91\nREMARK  deltaGcompsolvnonpol: 172.494\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.86499\nREMARK  deltaGligsolvnonpol: 12.8653\nREMARK  deltaGvdw: -34.3455\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9766645\nREMARK  Cluster: 10\nREMARK  ClusterRank: 7\n', 109), ({'deltaGligsolvpol': -4.90434, 'surfFull': 171.546, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.546, 'SimpleFitness': 226.331, 'InterFull': -32.6155, 'extraFull': 0.0, 'Energy': 226.331, 'solvFull': -1248.9, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 11, 'deltaGligsolvnonpol': 12.9229, 'deltaGcompsolvpol': -1248.9, 'FullFitness': -842.2985, 'deltaG': -6.9663157, 'ClusterRank': 0, 'IntraFull': 267.671, 'deltaGvdw': -32.6155}, 'V', ['REMARK  Energy: 226.331\n', 'REMARK  SimpleFitness: 226.331\n', 'REMARK  FullFitness: -842.2985\n', 'REMARK  InterFull: -32.6155\n', 'REMARK  IntraFull: 267.671\n', 'REMARK  solvFull: -1248.9\n', 'REMARK  surfFull: 171.546\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1248.9\n', 'REMARK  deltaGcompsolvnonpol: 171.546\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.90434\n', 'REMARK  deltaGligsolvnonpol: 12.9229\n', 'REMARK  deltaGvdw: -32.6155\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9663157\n', 'REMARK  Cluster: 11\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      67.060  -4.721  28.000  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      66.191  -4.121  26.912  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      66.570  -6.147  28.246  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      68.500  -4.711  27.508  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.715  -4.093  27.206  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      66.513  -2.733  26.422  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      67.454  -6.920  29.245  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      65.083  -6.151  28.589  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      69.344  -5.793  28.072  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      64.250  -3.473  25.885  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      64.268  -5.516  27.477  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      64.360  -3.210  28.407  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.240  -2.320  25.702  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      68.903  -6.775  28.866  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      67.037  -8.393  29.179  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      67.267  -6.413  30.673  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      62.762  -3.108  25.757  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      69.868  -7.781  29.410  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      68.018  -9.350  29.823  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      62.539  -1.970  24.761  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      61.988  -4.327  25.270  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.374  -9.191  29.178  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      61.080  -1.573  24.591  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.282 -10.113  29.769  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      60.424  -1.275  25.902  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      60.648  -0.017  26.658  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      59.453  -0.205  25.867  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      61.555   1.055  26.155  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      60.406  -0.032  28.125  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      66.988  -4.134  28.918  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      66.313  -4.770  26.043  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      66.648  -6.672  27.293  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      68.952  -3.744  27.744  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      68.523  -4.810  26.420  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      67.373  -2.727  25.747  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      66.723  -2.056  27.255  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      64.905  -5.626  29.530  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      64.718  -7.171  28.725  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      70.391  -5.764  27.812  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      64.466  -4.196  25.092  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.380  -6.111  26.567  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.211  -5.529  27.753  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.433  -2.128  24.644  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      64.870  -1.393  26.149  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      66.919  -8.687  28.131  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      66.065  -8.530  29.659  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      62.365  -2.807  26.728  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      70.006  -7.611  30.482  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      70.862  -7.679  28.964  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      67.669 -10.380  29.709  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      68.090  -9.167  30.899  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      62.946  -2.250  23.785  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      63.073  -1.076  25.089  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      69.310  -9.409  28.108  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      60.523  -2.366  24.086  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      61.032  -0.707  23.927  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      60.160  -2.167  26.455  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      61.619   1.079  25.065  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      62.565   0.900  26.541  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      61.204   2.033  26.489  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      70.377  -9.848  30.700  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.165  -5.199  25.898  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      62.286  -4.582  24.250  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      60.911  -4.150  25.277  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.529  -2.146  28.228  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      64.933  -3.477  29.297  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.303  -3.328  28.657  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      67.468  -5.340  30.745  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      67.937  -6.918  31.374  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      66.248  -6.591  31.024  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      61.332  -0.274  28.649  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      59.653  -0.776  28.402  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      60.062   0.948  28.464  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.110', True, 'REMARK  Energy: 226.331\nREMARK  SimpleFitness: 226.331\nREMARK  FullFitness: -842.2985\nREMARK  InterFull: -32.6155\nREMARK  IntraFull: 267.671\nREMARK  solvFull: -1248.9\nREMARK  surfFull: 171.546\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1248.9\nREMARK  deltaGcompsolvnonpol: 171.546\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.90434\nREMARK  deltaGligsolvnonpol: 12.9229\nREMARK  deltaGvdw: -32.6155\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9663157\nREMARK  Cluster: 11\nREMARK  ClusterRank: 0\n', 110), ({'deltaGligsolvpol': -4.90417, 'surfFull': 171.48, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.48, 'SimpleFitness': 226.423, 'InterFull': -33.2912, 'extraFull': 0.0, 'Energy': 226.423, 'solvFull': -1248.44, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 11, 'deltaGligsolvnonpol': 12.9236, 'deltaGcompsolvpol': -1248.44, 'FullFitness': -841.9951, 'deltaG': -7.0084004, 'ClusterRank': 1, 'IntraFull': 268.256, 'deltaGvdw': -33.2912}, 'V', ['REMARK  Energy: 226.423\n', 'REMARK  SimpleFitness: 226.423\n', 'REMARK  FullFitness: -841.9951\n', 'REMARK  InterFull: -33.2912\n', 'REMARK  IntraFull: 268.256\n', 'REMARK  solvFull: -1248.44\n', 'REMARK  surfFull: 171.48\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1248.44\n', 'REMARK  deltaGcompsolvnonpol: 171.48\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.90417\n', 'REMARK  deltaGligsolvnonpol: 12.9236\n', 'REMARK  deltaGvdw: -33.2912\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.0084004\n', 'REMARK  Cluster: 11\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      67.191  -4.691  27.966  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      66.304  -4.083  26.897  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      66.673  -6.101  28.246  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      68.613  -4.721  27.428  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.836  -4.026  27.225  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      66.637  -2.706  26.382  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      67.572  -6.888  29.220  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      65.199  -6.063  28.638  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      69.443  -5.832  27.956  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      64.357  -3.425  25.901  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      64.367  -5.432  27.536  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      64.523  -3.112  28.415  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.355  -2.285  25.681  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      69.007  -6.794  28.776  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      67.107  -8.348  29.193  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      67.460  -6.355  30.646  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      62.869  -3.059  25.785  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      69.963  -7.828  29.282  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      68.085  -9.327  29.807  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      62.642  -1.915  24.796  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      62.098  -4.278  25.297  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.412  -9.224  29.096  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      61.180  -1.542  24.604  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.317 -10.166  29.661  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      60.500  -1.254  25.905  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      60.675   0.018  26.650  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      59.497  -0.215  25.846  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      61.560   1.108  26.145  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      60.412   0.011  28.113  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.160  -4.089  28.878  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      66.392  -4.743  26.032  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      66.703  -6.638  27.297  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      69.102  -3.770  27.653  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      68.599  -4.812  26.339  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      67.484  -2.722  25.690  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      66.873  -2.021  27.200  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      65.066  -5.512  29.572  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      64.814  -7.069  28.808  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      70.476  -5.843  27.643  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      64.557  -4.164  25.119  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.444  -6.048  26.635  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.316  -5.419  27.838  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.529  -2.111  24.616  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      65.005  -1.348  26.121  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      66.933  -8.652  28.156  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      66.154  -8.448  29.718  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      62.478  -2.764  26.760  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      70.160  -7.651  30.343  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      70.936  -7.767  28.785  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      67.697 -10.347  29.729  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      68.214  -9.128  30.875  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      63.068  -2.180  23.825  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      63.159  -1.018  25.143  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      69.292  -9.456  28.034  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      60.643  -2.343  24.091  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      61.128  -0.677  23.939  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      60.257  -2.149  26.463  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      61.636   1.122  25.057  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      62.570   0.985  26.543  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      61.179   2.080  26.464  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      70.459  -9.891  30.583  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.297  -5.157  25.909  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      62.379  -4.516  24.267  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      61.019  -4.112  25.327  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.704  -2.054  28.211  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      65.113  -3.370  29.296  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.470  -3.207  28.691  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      67.694  -5.288  30.694  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      68.146  -6.870  31.326  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      66.452  -6.499  31.041  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      61.332  -0.223  28.654  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      59.659  -0.734  28.384  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      60.058   0.991  28.441  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.111', True, 'REMARK  Energy: 226.423\nREMARK  SimpleFitness: 226.423\nREMARK  FullFitness: -841.9951\nREMARK  InterFull: -33.2912\nREMARK  IntraFull: 268.256\nREMARK  solvFull: -1248.44\nREMARK  surfFull: 171.48\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1248.44\nREMARK  deltaGcompsolvnonpol: 171.48\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.90417\nREMARK  deltaGligsolvnonpol: 12.9236\nREMARK  deltaGvdw: -33.2912\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.0084004\nREMARK  Cluster: 11\nREMARK  ClusterRank: 1\n', 111), ({'deltaGligsolvpol': -4.90417, 'surfFull': 171.48, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.48, 'SimpleFitness': 226.423, 'InterFull': -33.2912, 'extraFull': 0.0, 'Energy': 226.423, 'solvFull': -1248.44, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 11, 'deltaGligsolvnonpol': 12.9236, 'deltaGcompsolvpol': -1248.44, 'FullFitness': -841.9951, 'deltaG': -7.0084004, 'ClusterRank': 2, 'IntraFull': 268.256, 'deltaGvdw': -33.2912}, 'V', ['REMARK  Energy: 226.423\n', 'REMARK  SimpleFitness: 226.423\n', 'REMARK  FullFitness: -841.9951\n', 'REMARK  InterFull: -33.2912\n', 'REMARK  IntraFull: 268.256\n', 'REMARK  solvFull: -1248.44\n', 'REMARK  surfFull: 171.48\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1248.44\n', 'REMARK  deltaGcompsolvnonpol: 171.48\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.90417\n', 'REMARK  deltaGligsolvnonpol: 12.9236\n', 'REMARK  deltaGvdw: -33.2912\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.0084004\n', 'REMARK  Cluster: 11\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      67.191  -4.691  27.966  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      66.304  -4.083  26.897  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      66.673  -6.101  28.246  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      68.613  -4.721  27.428  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.836  -4.026  27.225  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      66.637  -2.706  26.382  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      67.572  -6.888  29.220  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      65.199  -6.063  28.638  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      69.443  -5.832  27.956  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      64.357  -3.425  25.901  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      64.367  -5.432  27.536  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      64.523  -3.112  28.415  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.355  -2.285  25.681  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      69.007  -6.794  28.776  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      67.107  -8.348  29.193  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      67.460  -6.355  30.646  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      62.869  -3.059  25.785  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      69.963  -7.828  29.282  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      68.085  -9.327  29.807  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      62.642  -1.915  24.796  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      62.098  -4.278  25.297  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.412  -9.224  29.096  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      61.180  -1.542  24.604  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.317 -10.166  29.661  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      60.500  -1.254  25.905  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      60.675   0.018  26.650  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      59.497  -0.215  25.846  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      61.560   1.108  26.145  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      60.412   0.011  28.113  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.160  -4.089  28.878  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      66.392  -4.743  26.032  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      66.703  -6.638  27.297  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      69.102  -3.770  27.653  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      68.599  -4.812  26.339  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      67.484  -2.722  25.690  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      66.873  -2.021  27.200  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      65.066  -5.512  29.572  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      64.814  -7.069  28.808  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      70.476  -5.843  27.643  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      64.557  -4.164  25.119  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.444  -6.048  26.635  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.316  -5.419  27.838  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.529  -2.111  24.616  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      65.005  -1.348  26.121  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      66.933  -8.652  28.156  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      66.154  -8.448  29.718  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      62.478  -2.764  26.760  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      70.160  -7.651  30.343  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      70.936  -7.767  28.785  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      67.697 -10.347  29.729  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      68.214  -9.128  30.875  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      63.068  -2.180  23.825  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      63.159  -1.018  25.143  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      69.292  -9.456  28.034  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      60.643  -2.343  24.091  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      61.128  -0.677  23.939  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      60.257  -2.149  26.463  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      61.636   1.122  25.057  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      62.570   0.985  26.543  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      61.179   2.080  26.464  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      70.459  -9.891  30.583  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.297  -5.157  25.909  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      62.379  -4.516  24.267  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      61.019  -4.112  25.327  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.704  -2.054  28.211  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      65.113  -3.370  29.296  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.470  -3.207  28.691  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      67.694  -5.288  30.694  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      68.146  -6.870  31.326  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      66.452  -6.499  31.041  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      61.332  -0.223  28.654  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      59.659  -0.734  28.384  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      60.058   0.991  28.441  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.112', True, 'REMARK  Energy: 226.423\nREMARK  SimpleFitness: 226.423\nREMARK  FullFitness: -841.9951\nREMARK  InterFull: -33.2912\nREMARK  IntraFull: 268.256\nREMARK  solvFull: -1248.44\nREMARK  surfFull: 171.48\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1248.44\nREMARK  deltaGcompsolvnonpol: 171.48\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.90417\nREMARK  deltaGligsolvnonpol: 12.9236\nREMARK  deltaGvdw: -33.2912\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.0084004\nREMARK  Cluster: 11\nREMARK  ClusterRank: 2\n', 112), ({'deltaGligsolvpol': -4.90417, 'surfFull': 171.48, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.48, 'SimpleFitness': 226.423, 'InterFull': -33.2912, 'extraFull': 0.0, 'Energy': 226.423, 'solvFull': -1248.44, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 11, 'deltaGligsolvnonpol': 12.9236, 'deltaGcompsolvpol': -1248.44, 'FullFitness': -841.9951, 'deltaG': -7.0084004, 'ClusterRank': 3, 'IntraFull': 268.256, 'deltaGvdw': -33.2912}, 'V', ['REMARK  Energy: 226.423\n', 'REMARK  SimpleFitness: 226.423\n', 'REMARK  FullFitness: -841.9951\n', 'REMARK  InterFull: -33.2912\n', 'REMARK  IntraFull: 268.256\n', 'REMARK  solvFull: -1248.44\n', 'REMARK  surfFull: 171.48\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1248.44\n', 'REMARK  deltaGcompsolvnonpol: 171.48\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.90417\n', 'REMARK  deltaGligsolvnonpol: 12.9236\n', 'REMARK  deltaGvdw: -33.2912\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.0084004\n', 'REMARK  Cluster: 11\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      67.191  -4.691  27.966  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      66.304  -4.083  26.897  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      66.673  -6.101  28.246  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      68.613  -4.721  27.428  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.836  -4.026  27.225  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      66.637  -2.706  26.382  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      67.572  -6.888  29.220  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      65.199  -6.063  28.638  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      69.443  -5.832  27.956  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      64.357  -3.425  25.901  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      64.367  -5.432  27.536  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      64.523  -3.112  28.415  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.355  -2.285  25.681  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      69.007  -6.794  28.776  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      67.107  -8.348  29.193  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      67.460  -6.355  30.646  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      62.869  -3.059  25.785  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      69.963  -7.828  29.282  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      68.085  -9.327  29.807  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      62.642  -1.915  24.796  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      62.098  -4.278  25.297  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.412  -9.224  29.096  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      61.180  -1.542  24.604  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.317 -10.166  29.661  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      60.500  -1.254  25.905  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      60.675   0.018  26.650  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      59.497  -0.215  25.846  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      61.560   1.108  26.145  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      60.412   0.011  28.113  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.160  -4.089  28.878  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      66.392  -4.743  26.032  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      66.703  -6.638  27.297  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      69.102  -3.770  27.653  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      68.599  -4.812  26.339  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      67.484  -2.722  25.690  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      66.873  -2.021  27.200  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      65.066  -5.512  29.572  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      64.814  -7.069  28.808  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      70.476  -5.843  27.643  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      64.557  -4.164  25.119  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.444  -6.048  26.635  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.316  -5.419  27.838  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.529  -2.111  24.616  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      65.005  -1.348  26.121  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      66.933  -8.652  28.156  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      66.154  -8.448  29.718  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      62.478  -2.764  26.760  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      70.160  -7.651  30.343  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      70.936  -7.767  28.785  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      67.697 -10.347  29.729  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      68.214  -9.128  30.875  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      63.068  -2.180  23.825  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      63.159  -1.018  25.143  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      69.292  -9.456  28.034  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      60.643  -2.343  24.091  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      61.128  -0.677  23.939  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      60.257  -2.149  26.463  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      61.636   1.122  25.057  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      62.570   0.985  26.543  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      61.179   2.080  26.464  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      70.459  -9.891  30.583  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.297  -5.157  25.909  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      62.379  -4.516  24.267  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      61.019  -4.112  25.327  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.704  -2.054  28.211  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      65.113  -3.370  29.296  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.470  -3.207  28.691  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      67.694  -5.288  30.694  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      68.146  -6.870  31.326  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      66.452  -6.499  31.041  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      61.332  -0.223  28.654  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      59.659  -0.734  28.384  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      60.058   0.991  28.441  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.113', True, 'REMARK  Energy: 226.423\nREMARK  SimpleFitness: 226.423\nREMARK  FullFitness: -841.9951\nREMARK  InterFull: -33.2912\nREMARK  IntraFull: 268.256\nREMARK  solvFull: -1248.44\nREMARK  surfFull: 171.48\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1248.44\nREMARK  deltaGcompsolvnonpol: 171.48\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.90417\nREMARK  deltaGligsolvnonpol: 12.9236\nREMARK  deltaGvdw: -33.2912\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.0084004\nREMARK  Cluster: 11\nREMARK  ClusterRank: 3\n', 113), ({'deltaGligsolvpol': -4.83704, 'surfFull': 171.482, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.482, 'SimpleFitness': 227.098, 'InterFull': -28.0831, 'extraFull': 0.0, 'Energy': 227.098, 'solvFull': -1252.55, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 11, 'deltaGligsolvnonpol': 12.9246, 'deltaGcompsolvpol': -1252.55, 'FullFitness': -841.22314, 'deltaG': -6.771267, 'ClusterRank': 4, 'IntraFull': 267.928, 'deltaGvdw': -28.0831}, 'V', ['REMARK  Energy: 227.098\n', 'REMARK  SimpleFitness: 227.098\n', 'REMARK  FullFitness: -841.22314\n', 'REMARK  InterFull: -28.0831\n', 'REMARK  IntraFull: 267.928\n', 'REMARK  solvFull: -1252.55\n', 'REMARK  surfFull: 171.482\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.55\n', 'REMARK  deltaGcompsolvnonpol: 171.482\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.83704\n', 'REMARK  deltaGligsolvnonpol: 12.9246\n', 'REMARK  deltaGvdw: -28.0831\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.771267\n', 'REMARK  Cluster: 11\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      67.178  -4.702  27.971  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      66.290  -4.093  26.903  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      66.664  -6.115  28.245  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      68.602  -4.725  27.435  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.822  -4.039  27.230  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      66.621  -2.714  26.392  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      67.566  -6.905  29.214  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      65.190  -6.080  28.638  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      69.434  -5.838  27.956  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      64.342  -3.435  25.907  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      64.357  -5.448  27.537  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      64.505  -3.130  28.422  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.339  -2.294  25.691  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      69.000  -6.807  28.769  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      67.101  -8.365  29.182  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      67.456  -6.377  30.642  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      62.854  -3.065  25.792  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      69.958  -7.844  29.266  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      68.081  -9.347  29.786  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      62.630  -1.929  24.793  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      62.077  -4.285  25.316  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.405  -9.237  29.070  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      61.169  -1.547  24.606  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.312 -10.187  29.617  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      60.493  -1.255  25.908  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      60.681   0.014  26.655  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      59.500  -0.206  25.852  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      61.575   1.096  26.151  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      60.421   0.005  28.119  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.144  -4.104  28.885  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      66.380  -4.750  26.036  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      66.694  -6.647  27.293  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      69.089  -3.774  27.667  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      68.589  -4.809  26.345  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      67.469  -2.727  25.701  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      66.856  -2.031  27.212  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      65.057  -5.533  29.574  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      64.807  -7.088  28.804  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      70.468  -5.845  27.643  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      64.541  -4.171  25.122  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.435  -6.061  26.634  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.306  -5.439  27.839  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.515  -2.115  24.627  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      64.987  -1.358  26.134  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      66.922  -8.663  28.145  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      66.150  -8.466  29.711  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      62.467  -2.759  26.765  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      70.158  -7.675  30.328  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      70.930  -7.778  28.767  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      67.693 -10.366  29.701  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      68.215  -9.156  30.854  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      63.048  -2.206  23.822  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      63.153  -1.032  25.127  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      69.280  -9.457  28.006  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      60.626  -2.345  24.094  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      61.121  -0.682  23.940  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      60.242  -2.148  26.464  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      61.641   1.119  25.061  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      62.586   0.957  26.539  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      61.209   2.071  26.481  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      69.823 -11.024  29.689  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.264  -5.156  25.944  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      62.364  -4.542  24.293  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      60.999  -4.111  25.335  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.686  -2.072  28.223  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      65.093  -3.392  29.304  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.451  -3.228  28.695  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      67.692  -5.311  30.694  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      68.141  -6.896  31.319  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      66.448  -6.521  31.039  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      61.338  -0.243  28.657  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      59.658  -0.731  28.389  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      60.079   0.989  28.450  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.114', True, 'REMARK  Energy: 227.098\nREMARK  SimpleFitness: 227.098\nREMARK  FullFitness: -841.22314\nREMARK  InterFull: -28.0831\nREMARK  IntraFull: 267.928\nREMARK  solvFull: -1252.55\nREMARK  surfFull: 171.482\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.55\nREMARK  deltaGcompsolvnonpol: 171.482\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.83704\nREMARK  deltaGligsolvnonpol: 12.9246\nREMARK  deltaGvdw: -28.0831\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.771267\nREMARK  Cluster: 11\nREMARK  ClusterRank: 4\n', 114), ({'deltaGligsolvpol': -4.83704, 'surfFull': 171.482, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.482, 'SimpleFitness': 227.098, 'InterFull': -28.0831, 'extraFull': 0.0, 'Energy': 227.098, 'solvFull': -1252.55, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 11, 'deltaGligsolvnonpol': 12.9246, 'deltaGcompsolvpol': -1252.55, 'FullFitness': -841.22314, 'deltaG': -6.771267, 'ClusterRank': 5, 'IntraFull': 267.928, 'deltaGvdw': -28.0831}, 'V', ['REMARK  Energy: 227.098\n', 'REMARK  SimpleFitness: 227.098\n', 'REMARK  FullFitness: -841.22314\n', 'REMARK  InterFull: -28.0831\n', 'REMARK  IntraFull: 267.928\n', 'REMARK  solvFull: -1252.55\n', 'REMARK  surfFull: 171.482\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.55\n', 'REMARK  deltaGcompsolvnonpol: 171.482\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.83704\n', 'REMARK  deltaGligsolvnonpol: 12.9246\n', 'REMARK  deltaGvdw: -28.0831\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.771267\n', 'REMARK  Cluster: 11\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      67.178  -4.702  27.971  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      66.290  -4.093  26.903  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      66.664  -6.115  28.245  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      68.602  -4.725  27.435  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.822  -4.039  27.230  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      66.621  -2.714  26.392  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      67.566  -6.905  29.214  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      65.190  -6.080  28.638  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      69.434  -5.838  27.956  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      64.342  -3.435  25.907  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      64.357  -5.448  27.537  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      64.505  -3.130  28.422  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.339  -2.294  25.691  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      69.000  -6.807  28.769  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      67.101  -8.365  29.182  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      67.456  -6.377  30.642  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      62.854  -3.065  25.792  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      69.958  -7.844  29.266  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      68.081  -9.347  29.786  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      62.630  -1.929  24.793  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      62.077  -4.285  25.316  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.405  -9.237  29.070  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      61.169  -1.547  24.606  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.312 -10.187  29.617  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      60.493  -1.255  25.908  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      60.681   0.014  26.655  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      59.500  -0.206  25.852  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      61.575   1.096  26.151  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      60.421   0.005  28.119  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.144  -4.104  28.885  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      66.380  -4.750  26.036  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      66.694  -6.647  27.293  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      69.089  -3.774  27.667  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      68.589  -4.809  26.345  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      67.469  -2.727  25.701  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      66.856  -2.031  27.212  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      65.057  -5.533  29.574  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      64.807  -7.088  28.804  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      70.468  -5.845  27.643  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      64.541  -4.171  25.122  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.435  -6.061  26.634  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.306  -5.439  27.839  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.515  -2.115  24.627  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      64.987  -1.358  26.134  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      66.922  -8.663  28.145  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      66.150  -8.466  29.711  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      62.467  -2.759  26.765  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      70.158  -7.675  30.328  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      70.930  -7.778  28.767  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      67.693 -10.366  29.701  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      68.215  -9.156  30.854  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      63.048  -2.206  23.822  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      63.153  -1.032  25.127  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      69.280  -9.457  28.006  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      60.626  -2.345  24.094  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      61.121  -0.682  23.940  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      60.242  -2.148  26.464  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      61.641   1.119  25.061  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      62.586   0.957  26.539  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      61.209   2.071  26.481  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      69.823 -11.024  29.689  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.264  -5.156  25.944  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      62.364  -4.542  24.293  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      60.999  -4.111  25.335  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.686  -2.072  28.223  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      65.093  -3.392  29.304  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.451  -3.228  28.695  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      67.692  -5.311  30.694  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      68.141  -6.896  31.319  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      66.448  -6.521  31.039  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      61.338  -0.243  28.657  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      59.658  -0.731  28.389  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      60.079   0.989  28.450  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.115', True, 'REMARK  Energy: 227.098\nREMARK  SimpleFitness: 227.098\nREMARK  FullFitness: -841.22314\nREMARK  InterFull: -28.0831\nREMARK  IntraFull: 267.928\nREMARK  solvFull: -1252.55\nREMARK  surfFull: 171.482\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.55\nREMARK  deltaGcompsolvnonpol: 171.482\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.83704\nREMARK  deltaGligsolvnonpol: 12.9246\nREMARK  deltaGvdw: -28.0831\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.771267\nREMARK  Cluster: 11\nREMARK  ClusterRank: 5\n', 115), ({'deltaGligsolvpol': -4.83704, 'surfFull': 171.482, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.482, 'SimpleFitness': 227.098, 'InterFull': -28.0831, 'extraFull': 0.0, 'Energy': 227.098, 'solvFull': -1252.55, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 11, 'deltaGligsolvnonpol': 12.9246, 'deltaGcompsolvpol': -1252.55, 'FullFitness': -841.22314, 'deltaG': -6.771267, 'ClusterRank': 6, 'IntraFull': 267.928, 'deltaGvdw': -28.0831}, 'V', ['REMARK  Energy: 227.098\n', 'REMARK  SimpleFitness: 227.098\n', 'REMARK  FullFitness: -841.22314\n', 'REMARK  InterFull: -28.0831\n', 'REMARK  IntraFull: 267.928\n', 'REMARK  solvFull: -1252.55\n', 'REMARK  surfFull: 171.482\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.55\n', 'REMARK  deltaGcompsolvnonpol: 171.482\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.83704\n', 'REMARK  deltaGligsolvnonpol: 12.9246\n', 'REMARK  deltaGvdw: -28.0831\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.771267\n', 'REMARK  Cluster: 11\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      67.178  -4.702  27.971  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      66.290  -4.093  26.903  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      66.664  -6.115  28.245  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      68.602  -4.725  27.435  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.822  -4.039  27.230  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      66.621  -2.714  26.392  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      67.566  -6.905  29.214  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      65.190  -6.080  28.638  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      69.434  -5.838  27.956  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      64.342  -3.435  25.907  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      64.357  -5.448  27.537  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      64.505  -3.130  28.422  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.339  -2.294  25.691  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      69.000  -6.807  28.769  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      67.101  -8.365  29.182  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      67.456  -6.377  30.642  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      62.854  -3.065  25.792  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      69.958  -7.844  29.266  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      68.081  -9.347  29.786  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      62.630  -1.929  24.793  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      62.077  -4.285  25.316  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.405  -9.237  29.070  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      61.169  -1.547  24.606  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.312 -10.187  29.617  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      60.493  -1.255  25.908  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      60.681   0.014  26.655  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      59.500  -0.206  25.852  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      61.575   1.096  26.151  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      60.421   0.005  28.119  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.144  -4.104  28.885  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      66.380  -4.750  26.036  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      66.694  -6.647  27.293  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      69.089  -3.774  27.667  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      68.589  -4.809  26.345  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      67.469  -2.727  25.701  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      66.856  -2.031  27.212  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      65.057  -5.533  29.574  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      64.807  -7.088  28.804  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      70.468  -5.845  27.643  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      64.541  -4.171  25.122  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.435  -6.061  26.634  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.306  -5.439  27.839  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.515  -2.115  24.627  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      64.987  -1.358  26.134  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      66.922  -8.663  28.145  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      66.150  -8.466  29.711  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      62.467  -2.759  26.765  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      70.158  -7.675  30.328  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      70.930  -7.778  28.767  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      67.693 -10.366  29.701  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      68.215  -9.156  30.854  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      63.048  -2.206  23.822  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      63.153  -1.032  25.127  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      69.280  -9.457  28.006  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      60.626  -2.345  24.094  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      61.121  -0.682  23.940  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      60.242  -2.148  26.464  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      61.641   1.119  25.061  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      62.586   0.957  26.539  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      61.209   2.071  26.481  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      69.823 -11.024  29.689  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.264  -5.156  25.944  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      62.364  -4.542  24.293  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      60.999  -4.111  25.335  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.686  -2.072  28.223  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      65.093  -3.392  29.304  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.451  -3.228  28.695  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      67.692  -5.311  30.694  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      68.141  -6.896  31.319  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      66.448  -6.521  31.039  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      61.338  -0.243  28.657  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      59.658  -0.731  28.389  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      60.079   0.989  28.450  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.116', True, 'REMARK  Energy: 227.098\nREMARK  SimpleFitness: 227.098\nREMARK  FullFitness: -841.22314\nREMARK  InterFull: -28.0831\nREMARK  IntraFull: 267.928\nREMARK  solvFull: -1252.55\nREMARK  surfFull: 171.482\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.55\nREMARK  deltaGcompsolvnonpol: 171.482\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.83704\nREMARK  deltaGligsolvnonpol: 12.9246\nREMARK  deltaGvdw: -28.0831\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.771267\nREMARK  Cluster: 11\nREMARK  ClusterRank: 6\n', 116), ({'deltaGligsolvpol': -4.83704, 'surfFull': 171.482, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.482, 'SimpleFitness': 227.098, 'InterFull': -28.0831, 'extraFull': 0.0, 'Energy': 227.098, 'solvFull': -1252.55, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 11, 'deltaGligsolvnonpol': 12.9246, 'deltaGcompsolvpol': -1252.55, 'FullFitness': -841.22314, 'deltaG': -6.771267, 'ClusterRank': 7, 'IntraFull': 267.928, 'deltaGvdw': -28.0831}, 'V', ['REMARK  Energy: 227.098\n', 'REMARK  SimpleFitness: 227.098\n', 'REMARK  FullFitness: -841.22314\n', 'REMARK  InterFull: -28.0831\n', 'REMARK  IntraFull: 267.928\n', 'REMARK  solvFull: -1252.55\n', 'REMARK  surfFull: 171.482\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.55\n', 'REMARK  deltaGcompsolvnonpol: 171.482\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.83704\n', 'REMARK  deltaGligsolvnonpol: 12.9246\n', 'REMARK  deltaGvdw: -28.0831\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.771267\n', 'REMARK  Cluster: 11\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      67.178  -4.702  27.971  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      66.290  -4.093  26.903  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      66.664  -6.115  28.245  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      68.602  -4.725  27.435  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.822  -4.039  27.230  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      66.621  -2.714  26.392  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      67.566  -6.905  29.214  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      65.190  -6.080  28.638  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      69.434  -5.838  27.956  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      64.342  -3.435  25.907  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      64.357  -5.448  27.537  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      64.505  -3.130  28.422  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      65.339  -2.294  25.691  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      69.000  -6.807  28.769  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      67.101  -8.365  29.182  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      67.456  -6.377  30.642  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      62.854  -3.065  25.792  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      69.958  -7.844  29.266  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      68.081  -9.347  29.786  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      62.630  -1.929  24.793  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      62.077  -4.285  25.316  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      69.405  -9.237  29.070  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      61.169  -1.547  24.606  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      70.312 -10.187  29.617  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      60.493  -1.255  25.908  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      60.681   0.014  26.655  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      59.500  -0.206  25.852  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      61.575   1.096  26.151  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      60.421   0.005  28.119  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.144  -4.104  28.885  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      66.380  -4.750  26.036  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      66.694  -6.647  27.293  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      69.089  -3.774  27.667  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      68.589  -4.809  26.345  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      67.469  -2.727  25.701  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      66.856  -2.031  27.212  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      65.057  -5.533  29.574  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      64.807  -7.088  28.804  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      70.468  -5.845  27.643  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      64.541  -4.171  25.122  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.435  -6.061  26.634  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.306  -5.439  27.839  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      65.515  -2.115  24.627  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      64.987  -1.358  26.134  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      66.922  -8.663  28.145  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      66.150  -8.466  29.711  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      62.467  -2.759  26.765  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      70.158  -7.675  30.328  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      70.930  -7.778  28.767  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      67.693 -10.366  29.701  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      68.215  -9.156  30.854  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      63.048  -2.206  23.822  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      63.153  -1.032  25.127  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      69.280  -9.457  28.006  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      60.626  -2.345  24.094  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      61.121  -0.682  23.940  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      60.242  -2.148  26.464  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      61.641   1.119  25.061  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      62.586   0.957  26.539  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      61.209   2.071  26.481  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      69.823 -11.024  29.689  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.264  -5.156  25.944  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      62.364  -4.542  24.293  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      60.999  -4.111  25.335  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.686  -2.072  28.223  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      65.093  -3.392  29.304  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.451  -3.228  28.695  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      67.692  -5.311  30.694  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      68.141  -6.896  31.319  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      66.448  -6.521  31.039  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      61.338  -0.243  28.657  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      59.658  -0.731  28.389  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      60.079   0.989  28.450  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.117', True, 'REMARK  Energy: 227.098\nREMARK  SimpleFitness: 227.098\nREMARK  FullFitness: -841.22314\nREMARK  InterFull: -28.0831\nREMARK  IntraFull: 267.928\nREMARK  solvFull: -1252.55\nREMARK  surfFull: 171.482\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.55\nREMARK  deltaGcompsolvnonpol: 171.482\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.83704\nREMARK  deltaGligsolvnonpol: 12.9246\nREMARK  deltaGvdw: -28.0831\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.771267\nREMARK  Cluster: 11\nREMARK  ClusterRank: 7\n', 117), ({'deltaGligsolvpol': -4.5794, 'surfFull': 174.232, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.232, 'SimpleFitness': 237.539, 'InterFull': -20.9664, 'extraFull': 0.0, 'Energy': 237.539, 'solvFull': -1262.74, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 12, 'deltaGligsolvnonpol': 12.7115, 'deltaGcompsolvpol': -1262.74, 'FullFitness': -841.8864, 'deltaG': -6.45711, 'ClusterRank': 0, 'IntraFull': 267.588, 'deltaGvdw': -20.9664}, 'V', ['REMARK  Energy: 237.539\n', 'REMARK  SimpleFitness: 237.539\n', 'REMARK  FullFitness: -841.8864\n', 'REMARK  InterFull: -20.9664\n', 'REMARK  IntraFull: 267.588\n', 'REMARK  solvFull: -1262.74\n', 'REMARK  surfFull: 174.232\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.74\n', 'REMARK  deltaGcompsolvnonpol: 174.232\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.5794\n', 'REMARK  deltaGligsolvnonpol: 12.7115\n', 'REMARK  deltaGvdw: -20.9664\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.45711\n', 'REMARK  Cluster: 12\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      80.068   8.050  32.460  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      79.593   7.069  31.412  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.374   9.395  32.248  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      79.724   7.523  33.842  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.849   7.531  30.004  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.157   5.671  31.464  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.922  10.444  33.243  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      79.386   9.860  30.782  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.849   8.566  34.896  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.362   6.294  29.255  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      79.000   8.767  29.794  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      81.323   7.847  29.730  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      79.901   5.120  30.070  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      79.965   9.875  34.641  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      78.995  11.658  33.208  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.334  10.902  32.864  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.593   6.241  27.737  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      80.132  10.843  35.769  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      79.259  12.655  34.320  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.939   5.672  27.295  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.505   5.375  27.136  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      79.130  11.972  35.663  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.349   6.246  25.950  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      79.379  12.922  36.692  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.827   6.120  25.769  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.682   7.177  25.163  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.578   7.039  26.597  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      83.098   8.439  24.627  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      85.033   6.819  24.653  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      81.153   8.164  32.396  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.511   6.969  31.532  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      78.319   9.230  32.493  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      80.388   6.690  34.087  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.701   7.137  33.852  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.674   5.065  32.234  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      81.230   5.693  31.671  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.365  10.248  30.502  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.687  10.691  30.655  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.864   8.224  35.924  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.276   6.287  29.395  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      77.946   8.514  29.935  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.114   9.135  28.771  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.167   4.310  30.097  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.831   4.703  29.681  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      77.957  11.320  33.285  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      79.091  12.179  32.252  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.479   7.252  27.338  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      81.146  11.252  35.755  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      80.025  10.358  36.746  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      78.549  13.484  34.255  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      80.252  13.100  34.219  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      80.900   4.582  27.234  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      81.711   5.901  28.029  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      78.114  11.589  35.791  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      81.040   7.292  25.906  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.830   5.721  25.143  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      83.158   5.090  25.731  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      83.882   9.191  24.507  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      82.335   8.858  25.290  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.645   8.258  23.649  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      78.963  13.753  36.407  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.520   5.801  27.343  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.534   4.368  27.559  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.622   5.294  26.052  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.962   6.971  29.856  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.727   8.621  30.384  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      81.446   8.205  28.705  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      82.018  10.057  32.754  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      81.769  11.570  33.612  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      81.327  11.455  31.922  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      85.033   6.806  23.562  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      85.350   5.835  25.009  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      85.768   7.558  24.984  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.118', True, 'REMARK  Energy: 237.539\nREMARK  SimpleFitness: 237.539\nREMARK  FullFitness: -841.8864\nREMARK  InterFull: -20.9664\nREMARK  IntraFull: 267.588\nREMARK  solvFull: -1262.74\nREMARK  surfFull: 174.232\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.74\nREMARK  deltaGcompsolvnonpol: 174.232\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.5794\nREMARK  deltaGligsolvnonpol: 12.7115\nREMARK  deltaGvdw: -20.9664\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.45711\nREMARK  Cluster: 12\nREMARK  ClusterRank: 0\n', 118), ({'deltaGligsolvpol': -4.5794, 'surfFull': 174.232, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.232, 'SimpleFitness': 237.539, 'InterFull': -20.9664, 'extraFull': 0.0, 'Energy': 237.539, 'solvFull': -1262.74, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 12, 'deltaGligsolvnonpol': 12.7115, 'deltaGcompsolvpol': -1262.74, 'FullFitness': -841.8864, 'deltaG': -6.45711, 'ClusterRank': 1, 'IntraFull': 267.588, 'deltaGvdw': -20.9664}, 'V', ['REMARK  Energy: 237.539\n', 'REMARK  SimpleFitness: 237.539\n', 'REMARK  FullFitness: -841.8864\n', 'REMARK  InterFull: -20.9664\n', 'REMARK  IntraFull: 267.588\n', 'REMARK  solvFull: -1262.74\n', 'REMARK  surfFull: 174.232\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.74\n', 'REMARK  deltaGcompsolvnonpol: 174.232\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.5794\n', 'REMARK  deltaGligsolvnonpol: 12.7115\n', 'REMARK  deltaGvdw: -20.9664\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.45711\n', 'REMARK  Cluster: 12\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      80.068   8.050  32.460  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      79.593   7.069  31.412  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.374   9.395  32.248  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      79.724   7.523  33.842  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.849   7.531  30.004  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.157   5.671  31.464  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.922  10.444  33.243  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      79.386   9.860  30.782  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.849   8.566  34.896  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.362   6.294  29.255  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      79.000   8.767  29.794  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      81.323   7.847  29.730  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      79.901   5.120  30.070  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      79.965   9.875  34.641  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      78.995  11.658  33.208  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.334  10.902  32.864  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.593   6.241  27.737  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      80.132  10.843  35.769  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      79.259  12.655  34.320  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.939   5.672  27.295  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.505   5.375  27.136  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      79.130  11.972  35.663  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.349   6.246  25.950  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      79.379  12.922  36.692  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.827   6.120  25.769  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.682   7.177  25.163  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.578   7.039  26.597  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      83.098   8.439  24.627  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      85.033   6.819  24.653  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      81.153   8.164  32.396  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.511   6.969  31.532  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      78.319   9.230  32.493  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      80.388   6.690  34.087  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.701   7.137  33.852  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.674   5.065  32.234  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      81.230   5.693  31.671  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.365  10.248  30.502  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.687  10.691  30.655  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.864   8.224  35.924  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.276   6.287  29.395  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      77.946   8.514  29.935  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.114   9.135  28.771  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.167   4.310  30.097  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.831   4.703  29.681  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      77.957  11.320  33.285  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      79.091  12.179  32.252  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.479   7.252  27.338  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      81.146  11.252  35.755  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      80.025  10.358  36.746  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      78.549  13.484  34.255  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      80.252  13.100  34.219  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      80.900   4.582  27.234  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      81.711   5.901  28.029  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      78.114  11.589  35.791  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      81.040   7.292  25.906  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.830   5.721  25.143  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      83.158   5.090  25.731  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      83.882   9.191  24.507  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      82.335   8.858  25.290  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.645   8.258  23.649  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      78.963  13.753  36.407  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.520   5.801  27.343  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.534   4.368  27.559  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.622   5.294  26.052  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.962   6.971  29.856  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.727   8.621  30.384  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      81.446   8.205  28.705  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      82.018  10.057  32.754  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      81.769  11.570  33.612  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      81.327  11.455  31.922  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      85.033   6.806  23.562  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      85.350   5.835  25.009  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      85.768   7.558  24.984  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.119', True, 'REMARK  Energy: 237.539\nREMARK  SimpleFitness: 237.539\nREMARK  FullFitness: -841.8864\nREMARK  InterFull: -20.9664\nREMARK  IntraFull: 267.588\nREMARK  solvFull: -1262.74\nREMARK  surfFull: 174.232\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.74\nREMARK  deltaGcompsolvnonpol: 174.232\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.5794\nREMARK  deltaGligsolvnonpol: 12.7115\nREMARK  deltaGvdw: -20.9664\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.45711\nREMARK  Cluster: 12\nREMARK  ClusterRank: 1\n', 119), ({'deltaGligsolvpol': -4.64365, 'surfFull': 174.242, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.242, 'SimpleFitness': 237.128, 'InterFull': -23.05, 'extraFull': 0.0, 'Energy': 237.128, 'solvFull': -1260.83, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 12, 'deltaGligsolvnonpol': 12.71, 'deltaGcompsolvpol': -1260.83, 'FullFitness': -841.884, 'deltaG': -6.5323033, 'ClusterRank': 2, 'IntraFull': 267.754, 'deltaGvdw': -23.05}, 'V', ['REMARK  Energy: 237.128\n', 'REMARK  SimpleFitness: 237.128\n', 'REMARK  FullFitness: -841.884\n', 'REMARK  InterFull: -23.05\n', 'REMARK  IntraFull: 267.754\n', 'REMARK  solvFull: -1260.83\n', 'REMARK  surfFull: 174.242\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1260.83\n', 'REMARK  deltaGcompsolvnonpol: 174.242\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.64365\n', 'REMARK  deltaGligsolvnonpol: 12.71\n', 'REMARK  deltaGvdw: -23.05\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.5323033\n', 'REMARK  Cluster: 12\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      80.085   8.026  32.508  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      79.609   7.052  31.454  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.393   9.373  32.298  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      79.735   7.493  33.886  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.873   7.518  30.049  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.163   5.650  31.502  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.933  10.417  33.302  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      79.420   9.845  30.835  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.852   8.531  34.945  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.378   6.288  29.294  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      79.034   8.760  29.840  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      81.350   7.823  29.781  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      79.911   5.107  30.104  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      79.967   9.842  34.698  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      79.004  11.630  33.266  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.347  10.879  32.936  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.608   6.241  27.776  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      80.120  10.805  35.832  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      79.252  12.619  34.388  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.949   5.665  27.329  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.513   5.386  27.171  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      79.108  11.925  35.723  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.357   6.234  25.981  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      79.333  12.868  36.764  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.835   6.105  25.799  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.691   7.152  25.178  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.588   7.033  26.614  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      83.108   8.409  24.627  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      85.040   6.784  24.670  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      81.169   8.138  32.448  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.526   6.958  31.569  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      78.337   9.209  32.533  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      80.399   6.660  34.131  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.712   7.105  33.889  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.671   5.043  32.266  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      81.235   5.663  31.716  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.406  10.226  30.564  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.730  10.682  30.705  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.858   8.185  35.972  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.292   6.286  29.435  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      77.976   8.514  29.973  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.156   9.132  28.819  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.176   4.298  30.123  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.842   4.691  29.716  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      77.967  11.290  33.328  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      79.110  12.158  32.314  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.499   7.255  27.382  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      81.131  11.223  35.826  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      80.010  10.314  36.805  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      78.542  13.448  34.320  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      80.247  13.066  34.303  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      80.904   4.575  27.271  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      81.724   5.892  28.060  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      78.093  11.531  35.833  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      81.049   7.281  25.934  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.836   5.708  25.177  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      83.165   5.074  25.773  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      83.894   9.156  24.493  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      82.350   8.839  25.288  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.650   8.216  23.654  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      80.222  13.233  36.619  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.530   5.815  27.387  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.539   4.375  27.585  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.624   5.315  26.086  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.982   6.941  29.903  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.757   8.590  30.442  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      81.479   8.186  28.758  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      82.032  10.035  32.826  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      81.775  11.543  33.691  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      81.347  11.438  31.998  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      85.039   6.759  23.579  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      85.354   5.802  25.036  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      85.778   7.524  24.993  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.120', True, 'REMARK  Energy: 237.128\nREMARK  SimpleFitness: 237.128\nREMARK  FullFitness: -841.884\nREMARK  InterFull: -23.05\nREMARK  IntraFull: 267.754\nREMARK  solvFull: -1260.83\nREMARK  surfFull: 174.242\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1260.83\nREMARK  deltaGcompsolvnonpol: 174.242\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.64365\nREMARK  deltaGligsolvnonpol: 12.71\nREMARK  deltaGvdw: -23.05\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.5323033\nREMARK  Cluster: 12\nREMARK  ClusterRank: 2\n', 120), ({'deltaGligsolvpol': -4.64365, 'surfFull': 174.242, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.242, 'SimpleFitness': 237.128, 'InterFull': -23.05, 'extraFull': 0.0, 'Energy': 237.128, 'solvFull': -1260.83, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 12, 'deltaGligsolvnonpol': 12.71, 'deltaGcompsolvpol': -1260.83, 'FullFitness': -841.884, 'deltaG': -6.5323033, 'ClusterRank': 3, 'IntraFull': 267.754, 'deltaGvdw': -23.05}, 'V', ['REMARK  Energy: 237.128\n', 'REMARK  SimpleFitness: 237.128\n', 'REMARK  FullFitness: -841.884\n', 'REMARK  InterFull: -23.05\n', 'REMARK  IntraFull: 267.754\n', 'REMARK  solvFull: -1260.83\n', 'REMARK  surfFull: 174.242\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1260.83\n', 'REMARK  deltaGcompsolvnonpol: 174.242\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.64365\n', 'REMARK  deltaGligsolvnonpol: 12.71\n', 'REMARK  deltaGvdw: -23.05\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.5323033\n', 'REMARK  Cluster: 12\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      80.085   8.026  32.508  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      79.609   7.052  31.454  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.393   9.373  32.298  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      79.735   7.493  33.886  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.873   7.518  30.049  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.163   5.650  31.502  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.933  10.417  33.302  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      79.420   9.845  30.835  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.852   8.531  34.945  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.378   6.288  29.294  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      79.034   8.760  29.840  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      81.350   7.823  29.781  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      79.911   5.107  30.104  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      79.967   9.842  34.698  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      79.004  11.630  33.266  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.347  10.879  32.936  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.608   6.241  27.776  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      80.120  10.805  35.832  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      79.252  12.619  34.388  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.949   5.665  27.329  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.513   5.386  27.171  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      79.108  11.925  35.723  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.357   6.234  25.981  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      79.333  12.868  36.764  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.835   6.105  25.799  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.691   7.152  25.178  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.588   7.033  26.614  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      83.108   8.409  24.627  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      85.040   6.784  24.670  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      81.169   8.138  32.448  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.526   6.958  31.569  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      78.337   9.209  32.533  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      80.399   6.660  34.131  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.712   7.105  33.889  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.671   5.043  32.266  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      81.235   5.663  31.716  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.406  10.226  30.564  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.730  10.682  30.705  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.858   8.185  35.972  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.292   6.286  29.435  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      77.976   8.514  29.973  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.156   9.132  28.819  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.176   4.298  30.123  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.842   4.691  29.716  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      77.967  11.290  33.328  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      79.110  12.158  32.314  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.499   7.255  27.382  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      81.131  11.223  35.826  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      80.010  10.314  36.805  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      78.542  13.448  34.320  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      80.247  13.066  34.303  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      80.904   4.575  27.271  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      81.724   5.892  28.060  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      78.093  11.531  35.833  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      81.049   7.281  25.934  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.836   5.708  25.177  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      83.165   5.074  25.773  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      83.894   9.156  24.493  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      82.350   8.839  25.288  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.650   8.216  23.654  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      80.222  13.233  36.619  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.530   5.815  27.387  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.539   4.375  27.585  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.624   5.315  26.086  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.982   6.941  29.903  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.757   8.590  30.442  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      81.479   8.186  28.758  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      82.032  10.035  32.826  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      81.775  11.543  33.691  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      81.347  11.438  31.998  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      85.039   6.759  23.579  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      85.354   5.802  25.036  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      85.778   7.524  24.993  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.121', True, 'REMARK  Energy: 237.128\nREMARK  SimpleFitness: 237.128\nREMARK  FullFitness: -841.884\nREMARK  InterFull: -23.05\nREMARK  IntraFull: 267.754\nREMARK  solvFull: -1260.83\nREMARK  surfFull: 174.242\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1260.83\nREMARK  deltaGcompsolvnonpol: 174.242\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.64365\nREMARK  deltaGligsolvnonpol: 12.71\nREMARK  deltaGvdw: -23.05\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.5323033\nREMARK  Cluster: 12\nREMARK  ClusterRank: 3\n', 121), ({'deltaGligsolvpol': -4.64735, 'surfFull': 174.276, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.276, 'SimpleFitness': 237.148, 'InterFull': -22.9115, 'extraFull': 0.0, 'Energy': 237.148, 'solvFull': -1260.82, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 12, 'deltaGligsolvnonpol': 12.7081, 'deltaGcompsolvpol': -1260.82, 'FullFitness': -841.8024, 'deltaG': -6.5149665, 'ClusterRank': 4, 'IntraFull': 267.653, 'deltaGvdw': -22.9115}, 'V', ['REMARK  Energy: 237.148\n', 'REMARK  SimpleFitness: 237.148\n', 'REMARK  FullFitness: -841.8024\n', 'REMARK  InterFull: -22.9115\n', 'REMARK  IntraFull: 267.653\n', 'REMARK  solvFull: -1260.82\n', 'REMARK  surfFull: 174.276\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1260.82\n', 'REMARK  deltaGcompsolvnonpol: 174.276\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.64735\n', 'REMARK  deltaGligsolvnonpol: 12.7081\n', 'REMARK  deltaGvdw: -22.9115\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.5149665\n', 'REMARK  Cluster: 12\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      80.123   8.029  32.528  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      79.652   7.057  31.470  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.431   9.375  32.317  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      79.767   7.492  33.902  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.920   7.525  30.066  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.208   5.655  31.516  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.960  10.418  33.328  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      79.469   9.851  30.855  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.871   8.527  34.965  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.425   6.296  29.308  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      79.083   8.769  29.857  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      81.398   7.828  29.801  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      79.953   5.114  30.118  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      79.982   9.839  34.722  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      79.028  11.630  33.285  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.375  10.883  32.975  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.662   6.252  27.790  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      80.118  10.800  35.861  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      79.260  12.615  34.413  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.998   5.662  27.349  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.560   5.413  27.177  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      79.101  11.914  35.744  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.411   6.218  25.997  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      79.306  12.855  36.791  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.886   6.067  25.813  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.756   7.107  25.197  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.655   6.980  26.632  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      83.189   8.376  24.656  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      85.098   6.723  24.682  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      81.208   8.143  32.472  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.569   6.961  31.582  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      78.373   9.207  32.542  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      80.434   6.661  34.150  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.747   7.098  33.898  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.720   5.047  32.282  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      81.281   5.671  31.726  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.458  10.229  30.593  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.782  10.691  30.723  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.869   8.179  35.991  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.340   6.296  29.445  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      78.025   8.524  29.986  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.209   9.143  28.837  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.213   4.309  30.139  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.881   4.691  29.731  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      77.991  11.287  33.334  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      79.144  12.161  32.337  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.568   7.269  27.399  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      81.126  11.224  35.867  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      80.002  10.306  36.831  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      78.548  13.442  34.340  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      80.254  13.065  34.343  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      80.944   4.572  27.298  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      81.774   5.889  28.079  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      78.088  11.514  35.838  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      81.116   7.268  25.944  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.882   5.693  25.197  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      83.201   5.032  25.780  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      83.986   9.111  24.519  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      82.443   8.815  25.324  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.721   8.195  23.685  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      80.190  13.236  36.651  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.582   5.852  27.390  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.572   4.400  27.587  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.675   5.345  26.092  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      82.028   6.945  29.919  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.806   8.592  30.465  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      81.528   8.196  28.779  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      82.063  10.041  32.869  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      81.796  11.546  33.737  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      81.382  11.446  32.039  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      85.090   6.695  23.591  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      85.403   5.738  25.049  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      85.846   7.455  24.998  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.122', True, 'REMARK  Energy: 237.148\nREMARK  SimpleFitness: 237.148\nREMARK  FullFitness: -841.8024\nREMARK  InterFull: -22.9115\nREMARK  IntraFull: 267.653\nREMARK  solvFull: -1260.82\nREMARK  surfFull: 174.276\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1260.82\nREMARK  deltaGcompsolvnonpol: 174.276\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.64735\nREMARK  deltaGligsolvnonpol: 12.7081\nREMARK  deltaGvdw: -22.9115\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.5149665\nREMARK  Cluster: 12\nREMARK  ClusterRank: 4\n', 122), ({'deltaGligsolvpol': -4.64735, 'surfFull': 174.276, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.276, 'SimpleFitness': 237.148, 'InterFull': -22.9115, 'extraFull': 0.0, 'Energy': 237.148, 'solvFull': -1260.82, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 12, 'deltaGligsolvnonpol': 12.7081, 'deltaGcompsolvpol': -1260.82, 'FullFitness': -841.8024, 'deltaG': -6.5149665, 'ClusterRank': 5, 'IntraFull': 267.653, 'deltaGvdw': -22.9115}, 'V', ['REMARK  Energy: 237.148\n', 'REMARK  SimpleFitness: 237.148\n', 'REMARK  FullFitness: -841.8024\n', 'REMARK  InterFull: -22.9115\n', 'REMARK  IntraFull: 267.653\n', 'REMARK  solvFull: -1260.82\n', 'REMARK  surfFull: 174.276\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1260.82\n', 'REMARK  deltaGcompsolvnonpol: 174.276\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.64735\n', 'REMARK  deltaGligsolvnonpol: 12.7081\n', 'REMARK  deltaGvdw: -22.9115\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.5149665\n', 'REMARK  Cluster: 12\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      80.123   8.029  32.528  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      79.652   7.057  31.470  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.431   9.375  32.317  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      79.767   7.492  33.902  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.920   7.525  30.066  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.208   5.655  31.516  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.960  10.418  33.328  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      79.469   9.851  30.855  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.871   8.527  34.965  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.425   6.296  29.308  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      79.083   8.769  29.857  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      81.398   7.828  29.801  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      79.953   5.114  30.118  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      79.982   9.839  34.722  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      79.028  11.630  33.285  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.375  10.883  32.975  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.662   6.252  27.790  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      80.118  10.800  35.861  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      79.260  12.615  34.413  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.998   5.662  27.349  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.560   5.413  27.177  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      79.101  11.914  35.744  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.411   6.218  25.997  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      79.306  12.855  36.791  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.886   6.067  25.813  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.756   7.107  25.197  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.655   6.980  26.632  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      83.189   8.376  24.656  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      85.098   6.723  24.682  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      81.208   8.143  32.472  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.569   6.961  31.582  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      78.373   9.207  32.542  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      80.434   6.661  34.150  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.747   7.098  33.898  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.720   5.047  32.282  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      81.281   5.671  31.726  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.458  10.229  30.593  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.782  10.691  30.723  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.869   8.179  35.991  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.340   6.296  29.445  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      78.025   8.524  29.986  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.209   9.143  28.837  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.213   4.309  30.139  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.881   4.691  29.731  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      77.991  11.287  33.334  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      79.144  12.161  32.337  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.568   7.269  27.399  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      81.126  11.224  35.867  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      80.002  10.306  36.831  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      78.548  13.442  34.340  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      80.254  13.065  34.343  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      80.944   4.572  27.298  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      81.774   5.889  28.079  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      78.088  11.514  35.838  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      81.116   7.268  25.944  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.882   5.693  25.197  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      83.201   5.032  25.780  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      83.986   9.111  24.519  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      82.443   8.815  25.324  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.721   8.195  23.685  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      80.190  13.236  36.651  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.582   5.852  27.390  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.572   4.400  27.587  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.675   5.345  26.092  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      82.028   6.945  29.919  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.806   8.592  30.465  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      81.528   8.196  28.779  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      82.063  10.041  32.869  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      81.796  11.546  33.737  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      81.382  11.446  32.039  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      85.090   6.695  23.591  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      85.403   5.738  25.049  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      85.846   7.455  24.998  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.123', True, 'REMARK  Energy: 237.148\nREMARK  SimpleFitness: 237.148\nREMARK  FullFitness: -841.8024\nREMARK  InterFull: -22.9115\nREMARK  IntraFull: 267.653\nREMARK  solvFull: -1260.82\nREMARK  surfFull: 174.276\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1260.82\nREMARK  deltaGcompsolvnonpol: 174.276\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.64735\nREMARK  deltaGligsolvnonpol: 12.7081\nREMARK  deltaGvdw: -22.9115\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.5149665\nREMARK  Cluster: 12\nREMARK  ClusterRank: 5\n', 123), ({'deltaGligsolvpol': -4.64735, 'surfFull': 174.276, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.276, 'SimpleFitness': 237.148, 'InterFull': -22.9115, 'extraFull': 0.0, 'Energy': 237.148, 'solvFull': -1260.82, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 12, 'deltaGligsolvnonpol': 12.7081, 'deltaGcompsolvpol': -1260.82, 'FullFitness': -841.8024, 'deltaG': -6.5149665, 'ClusterRank': 6, 'IntraFull': 267.653, 'deltaGvdw': -22.9115}, 'V', ['REMARK  Energy: 237.148\n', 'REMARK  SimpleFitness: 237.148\n', 'REMARK  FullFitness: -841.8024\n', 'REMARK  InterFull: -22.9115\n', 'REMARK  IntraFull: 267.653\n', 'REMARK  solvFull: -1260.82\n', 'REMARK  surfFull: 174.276\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1260.82\n', 'REMARK  deltaGcompsolvnonpol: 174.276\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.64735\n', 'REMARK  deltaGligsolvnonpol: 12.7081\n', 'REMARK  deltaGvdw: -22.9115\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.5149665\n', 'REMARK  Cluster: 12\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      80.123   8.029  32.528  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      79.652   7.057  31.470  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.431   9.375  32.317  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      79.767   7.492  33.902  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.920   7.525  30.066  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.208   5.655  31.516  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.960  10.418  33.328  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      79.469   9.851  30.855  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.871   8.527  34.965  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.425   6.296  29.308  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      79.083   8.769  29.857  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      81.398   7.828  29.801  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      79.953   5.114  30.118  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      79.982   9.839  34.722  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      79.028  11.630  33.285  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.375  10.883  32.975  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.662   6.252  27.790  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      80.118  10.800  35.861  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      79.260  12.615  34.413  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.998   5.662  27.349  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.560   5.413  27.177  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      79.101  11.914  35.744  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.411   6.218  25.997  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      79.306  12.855  36.791  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.886   6.067  25.813  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.756   7.107  25.197  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.655   6.980  26.632  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      83.189   8.376  24.656  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      85.098   6.723  24.682  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      81.208   8.143  32.472  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.569   6.961  31.582  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      78.373   9.207  32.542  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      80.434   6.661  34.150  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.747   7.098  33.898  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.720   5.047  32.282  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      81.281   5.671  31.726  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.458  10.229  30.593  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.782  10.691  30.723  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.869   8.179  35.991  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.340   6.296  29.445  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      78.025   8.524  29.986  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.209   9.143  28.837  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.213   4.309  30.139  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.881   4.691  29.731  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      77.991  11.287  33.334  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      79.144  12.161  32.337  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.568   7.269  27.399  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      81.126  11.224  35.867  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      80.002  10.306  36.831  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      78.548  13.442  34.340  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      80.254  13.065  34.343  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      80.944   4.572  27.298  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      81.774   5.889  28.079  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      78.088  11.514  35.838  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      81.116   7.268  25.944  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.882   5.693  25.197  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      83.201   5.032  25.780  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      83.986   9.111  24.519  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      82.443   8.815  25.324  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.721   8.195  23.685  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      80.190  13.236  36.651  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.582   5.852  27.390  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.572   4.400  27.587  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.675   5.345  26.092  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      82.028   6.945  29.919  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.806   8.592  30.465  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      81.528   8.196  28.779  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      82.063  10.041  32.869  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      81.796  11.546  33.737  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      81.382  11.446  32.039  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      85.090   6.695  23.591  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      85.403   5.738  25.049  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      85.846   7.455  24.998  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.124', True, 'REMARK  Energy: 237.148\nREMARK  SimpleFitness: 237.148\nREMARK  FullFitness: -841.8024\nREMARK  InterFull: -22.9115\nREMARK  IntraFull: 267.653\nREMARK  solvFull: -1260.82\nREMARK  surfFull: 174.276\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1260.82\nREMARK  deltaGcompsolvnonpol: 174.276\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.64735\nREMARK  deltaGligsolvnonpol: 12.7081\nREMARK  deltaGvdw: -22.9115\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.5149665\nREMARK  Cluster: 12\nREMARK  ClusterRank: 6\n', 124), ({'deltaGligsolvpol': -4.64735, 'surfFull': 174.276, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.276, 'SimpleFitness': 237.148, 'InterFull': -22.9115, 'extraFull': 0.0, 'Energy': 237.148, 'solvFull': -1260.82, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 12, 'deltaGligsolvnonpol': 12.7081, 'deltaGcompsolvpol': -1260.82, 'FullFitness': -841.8024, 'deltaG': -6.5149665, 'ClusterRank': 7, 'IntraFull': 267.653, 'deltaGvdw': -22.9115}, 'V', ['REMARK  Energy: 237.148\n', 'REMARK  SimpleFitness: 237.148\n', 'REMARK  FullFitness: -841.8024\n', 'REMARK  InterFull: -22.9115\n', 'REMARK  IntraFull: 267.653\n', 'REMARK  solvFull: -1260.82\n', 'REMARK  surfFull: 174.276\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1260.82\n', 'REMARK  deltaGcompsolvnonpol: 174.276\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.64735\n', 'REMARK  deltaGligsolvnonpol: 12.7081\n', 'REMARK  deltaGvdw: -22.9115\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.5149665\n', 'REMARK  Cluster: 12\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      80.123   8.029  32.528  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      79.652   7.057  31.470  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.431   9.375  32.317  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      79.767   7.492  33.902  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.920   7.525  30.066  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.208   5.655  31.516  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.960  10.418  33.328  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      79.469   9.851  30.855  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      79.871   8.527  34.965  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      79.425   6.296  29.308  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      79.083   8.769  29.857  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      81.398   7.828  29.801  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      79.953   5.114  30.118  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      79.982   9.839  34.722  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      79.028  11.630  33.285  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.375  10.883  32.975  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.662   6.252  27.790  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      80.118  10.800  35.861  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      79.260  12.615  34.413  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.998   5.662  27.349  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.560   5.413  27.177  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      79.101  11.914  35.744  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.411   6.218  25.997  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      79.306  12.855  36.791  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.886   6.067  25.813  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.756   7.107  25.197  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.655   6.980  26.632  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      83.189   8.376  24.656  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      85.098   6.723  24.682  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      81.208   8.143  32.472  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.569   6.961  31.582  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      78.373   9.207  32.542  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      80.434   6.661  34.150  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.747   7.098  33.898  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.720   5.047  32.282  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      81.281   5.671  31.726  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.458  10.229  30.593  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.782  10.691  30.723  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      79.869   8.179  35.991  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.340   6.296  29.445  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      78.025   8.524  29.986  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.209   9.143  28.837  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.213   4.309  30.139  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.881   4.691  29.731  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      77.991  11.287  33.334  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      79.144  12.161  32.337  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.568   7.269  27.399  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      81.126  11.224  35.867  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      80.002  10.306  36.831  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      78.548  13.442  34.340  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      80.254  13.065  34.343  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      80.944   4.572  27.298  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      81.774   5.889  28.079  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      78.088  11.514  35.838  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      81.116   7.268  25.944  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.882   5.693  25.197  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      83.201   5.032  25.780  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      83.986   9.111  24.519  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      82.443   8.815  25.324  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.721   8.195  23.685  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      80.190  13.236  36.651  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.582   5.852  27.390  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.572   4.400  27.587  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.675   5.345  26.092  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      82.028   6.945  29.919  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.806   8.592  30.465  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      81.528   8.196  28.779  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      82.063  10.041  32.869  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      81.796  11.546  33.737  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      81.382  11.446  32.039  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      85.090   6.695  23.591  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      85.403   5.738  25.049  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      85.846   7.455  24.998  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.125', True, 'REMARK  Energy: 237.148\nREMARK  SimpleFitness: 237.148\nREMARK  FullFitness: -841.8024\nREMARK  InterFull: -22.9115\nREMARK  IntraFull: 267.653\nREMARK  solvFull: -1260.82\nREMARK  surfFull: 174.276\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1260.82\nREMARK  deltaGcompsolvnonpol: 174.276\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.64735\nREMARK  deltaGligsolvnonpol: 12.7081\nREMARK  deltaGvdw: -22.9115\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.5149665\nREMARK  Cluster: 12\nREMARK  ClusterRank: 7\n', 125), ({'deltaGligsolvpol': -4.79291, 'surfFull': 174.188, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.188, 'SimpleFitness': 236.392, 'InterFull': -29.0946, 'extraFull': 0.0, 'Energy': 236.392, 'solvFull': -1258.37, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 13, 'deltaGligsolvnonpol': 12.8569, 'deltaGcompsolvpol': -1258.37, 'FullFitness': -841.5396, 'deltaG': -6.9634433, 'ClusterRank': 0, 'IntraFull': 271.737, 'deltaGvdw': -29.0946}, 'V', ['REMARK  Energy: 236.392\n', 'REMARK  SimpleFitness: 236.392\n', 'REMARK  FullFitness: -841.5396\n', 'REMARK  InterFull: -29.0946\n', 'REMARK  IntraFull: 271.737\n', 'REMARK  solvFull: -1258.37\n', 'REMARK  surfFull: 174.188\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.37\n', 'REMARK  deltaGcompsolvnonpol: 174.188\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79291\n', 'REMARK  deltaGligsolvnonpol: 12.8569\n', 'REMARK  deltaGvdw: -29.0946\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9634433\n', 'REMARK  Cluster: 13\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      53.612   8.932  18.764  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.379   7.630  18.657  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      54.599  10.096  18.843  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      52.734   9.108  17.538  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      55.352   7.391  19.783  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      53.574   6.355  18.600  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      53.852  11.434  19.049  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      55.721   9.853  19.860  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      52.230  10.502  17.388  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.855   6.012  19.358  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      56.385   8.492  19.710  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      54.668   7.388  21.153  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      54.599   5.273  18.902  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      52.706  11.549  18.074  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      54.846  12.573  18.817  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      53.295  11.561  20.469  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      56.901   5.244  20.198  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      52.107  12.907  17.882  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      54.200  13.941  18.704  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.620   4.832  21.651  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      57.345   4.021  19.419  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      53.176  13.939  17.590  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      55.538   3.788  21.875  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      52.572  15.225  17.502  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      55.512   3.366  23.307  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      54.569   3.925  24.311  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      54.314   2.648  23.682  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      53.583   4.986  23.958  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      54.917   3.821  25.752  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.970   8.914  19.647  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      54.955   7.680  17.727  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      55.092  10.141  17.866  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      51.881   8.427  17.604  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      53.292   8.841  16.636  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      53.099   6.208  17.628  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      52.788   6.359  19.360  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      55.353   9.954  20.882  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      56.490  10.617  19.735  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      51.420  10.657  16.686  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      56.393   6.206  18.424  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      56.901   8.448  18.747  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      57.138   8.357  20.491  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      54.810   4.687  18.004  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      54.200   4.591  19.650  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      55.404  12.376  17.897  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      55.576  12.606  19.629  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.771   5.904  20.253  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      51.559  13.195  18.784  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      51.366  12.917  17.075  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      54.961  14.702  18.510  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      53.725  14.226  19.647  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      56.421   5.706  22.271  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.551   4.423  22.049  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      53.658  13.722  16.632  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      55.733   2.899  21.270  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      54.568   4.178  21.569  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      56.462   2.975  23.646  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      53.120   4.816  22.983  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      54.075   5.962  23.944  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      52.785   5.015  24.705  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      53.262  15.851  17.215  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      57.658   4.305  18.413  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      56.542   3.287  19.319  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      58.189   3.535  19.917  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.073   6.486  21.315  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      54.006   8.242  21.306  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      55.417   7.440  21.945  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      52.660  10.711  20.733  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      52.691  12.464  20.597  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      54.100  11.622  21.204  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      55.320   4.773  26.107  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      55.664   3.043  25.932  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      54.026   3.586  26.340  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.126', True, 'REMARK  Energy: 236.392\nREMARK  SimpleFitness: 236.392\nREMARK  FullFitness: -841.5396\nREMARK  InterFull: -29.0946\nREMARK  IntraFull: 271.737\nREMARK  solvFull: -1258.37\nREMARK  surfFull: 174.188\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.37\nREMARK  deltaGcompsolvnonpol: 174.188\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79291\nREMARK  deltaGligsolvnonpol: 12.8569\nREMARK  deltaGvdw: -29.0946\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9634433\nREMARK  Cluster: 13\nREMARK  ClusterRank: 0\n', 126), ({'deltaGligsolvpol': -4.79291, 'surfFull': 174.188, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.188, 'SimpleFitness': 236.392, 'InterFull': -29.0946, 'extraFull': 0.0, 'Energy': 236.392, 'solvFull': -1258.37, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 13, 'deltaGligsolvnonpol': 12.8569, 'deltaGcompsolvpol': -1258.37, 'FullFitness': -841.5396, 'deltaG': -6.9634433, 'ClusterRank': 1, 'IntraFull': 271.737, 'deltaGvdw': -29.0946}, 'V', ['REMARK  Energy: 236.392\n', 'REMARK  SimpleFitness: 236.392\n', 'REMARK  FullFitness: -841.5396\n', 'REMARK  InterFull: -29.0946\n', 'REMARK  IntraFull: 271.737\n', 'REMARK  solvFull: -1258.37\n', 'REMARK  surfFull: 174.188\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.37\n', 'REMARK  deltaGcompsolvnonpol: 174.188\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79291\n', 'REMARK  deltaGligsolvnonpol: 12.8569\n', 'REMARK  deltaGvdw: -29.0946\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9634433\n', 'REMARK  Cluster: 13\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      53.612   8.932  18.764  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.379   7.630  18.657  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      54.599  10.096  18.843  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      52.734   9.108  17.538  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      55.352   7.391  19.783  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      53.574   6.355  18.600  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      53.852  11.434  19.049  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      55.721   9.853  19.860  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      52.230  10.502  17.388  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.855   6.012  19.358  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      56.385   8.492  19.710  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      54.668   7.388  21.153  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      54.599   5.273  18.902  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      52.706  11.549  18.074  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      54.846  12.573  18.817  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      53.295  11.561  20.469  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      56.901   5.244  20.198  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      52.107  12.907  17.882  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      54.200  13.941  18.704  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.620   4.832  21.651  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      57.345   4.021  19.419  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      53.176  13.939  17.590  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      55.538   3.788  21.875  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      52.572  15.225  17.502  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      55.512   3.366  23.307  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      54.569   3.925  24.311  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      54.314   2.648  23.682  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      53.583   4.986  23.958  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      54.917   3.821  25.752  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.970   8.914  19.647  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      54.955   7.680  17.727  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      55.092  10.141  17.866  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      51.881   8.427  17.604  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      53.292   8.841  16.636  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      53.099   6.208  17.628  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      52.788   6.359  19.360  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      55.353   9.954  20.882  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      56.490  10.617  19.735  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      51.420  10.657  16.686  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      56.393   6.206  18.424  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      56.901   8.448  18.747  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      57.138   8.357  20.491  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      54.810   4.687  18.004  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      54.200   4.591  19.650  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      55.404  12.376  17.897  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      55.576  12.606  19.629  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.771   5.904  20.253  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      51.559  13.195  18.784  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      51.366  12.917  17.075  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      54.961  14.702  18.510  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      53.725  14.226  19.647  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      56.421   5.706  22.271  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.551   4.423  22.049  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      53.658  13.722  16.632  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      55.733   2.899  21.270  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      54.568   4.178  21.569  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      56.462   2.975  23.646  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      53.120   4.816  22.983  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      54.075   5.962  23.944  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      52.785   5.015  24.705  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      53.262  15.851  17.215  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      57.658   4.305  18.413  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      56.542   3.287  19.319  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      58.189   3.535  19.917  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.073   6.486  21.315  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      54.006   8.242  21.306  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      55.417   7.440  21.945  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      52.660  10.711  20.733  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      52.691  12.464  20.597  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      54.100  11.622  21.204  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      55.320   4.773  26.107  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      55.664   3.043  25.932  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      54.026   3.586  26.340  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.127', True, 'REMARK  Energy: 236.392\nREMARK  SimpleFitness: 236.392\nREMARK  FullFitness: -841.5396\nREMARK  InterFull: -29.0946\nREMARK  IntraFull: 271.737\nREMARK  solvFull: -1258.37\nREMARK  surfFull: 174.188\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.37\nREMARK  deltaGcompsolvnonpol: 174.188\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79291\nREMARK  deltaGligsolvnonpol: 12.8569\nREMARK  deltaGvdw: -29.0946\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9634433\nREMARK  Cluster: 13\nREMARK  ClusterRank: 1\n', 127), ({'deltaGligsolvpol': -4.79418, 'surfFull': 174.235, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.235, 'SimpleFitness': 236.538, 'InterFull': -28.7631, 'extraFull': 0.0, 'Energy': 236.538, 'solvFull': -1258.43, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 13, 'deltaGligsolvnonpol': 12.8495, 'deltaGcompsolvpol': -1258.43, 'FullFitness': -841.2711, 'deltaG': -6.9305353, 'ClusterRank': 2, 'IntraFull': 271.687, 'deltaGvdw': -28.7631}, 'V', ['REMARK  Energy: 236.538\n', 'REMARK  SimpleFitness: 236.538\n', 'REMARK  FullFitness: -841.2711\n', 'REMARK  InterFull: -28.7631\n', 'REMARK  IntraFull: 271.687\n', 'REMARK  solvFull: -1258.43\n', 'REMARK  surfFull: 174.235\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.43\n', 'REMARK  deltaGcompsolvnonpol: 174.235\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79418\n', 'REMARK  deltaGligsolvnonpol: 12.8495\n', 'REMARK  deltaGvdw: -28.7631\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9305353\n', 'REMARK  Cluster: 13\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      53.661   8.791  18.734  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.443   7.496  18.669  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      54.631   9.967  18.819  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      52.818   8.935  17.479  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      55.390   7.287  19.824  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      53.651   6.213  18.619  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      53.859  11.297  18.986  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      55.731   9.755  19.867  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      52.295  10.316  17.297  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.917   5.907  19.431  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      56.413   8.399  19.758  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      54.673   7.298  21.177  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      54.683   5.148  18.950  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      52.735  11.380  17.982  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      54.839  12.450  18.760  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      53.268  11.437  20.391  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      56.944   5.157  20.310  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      52.115  12.724  17.758  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      54.167  13.804  18.626  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.618   4.751  21.754  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      57.426   3.935  19.552  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      53.172  13.775  17.487  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      55.539   3.699  21.952  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      52.547  15.049  17.375  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      55.494   3.260  23.379  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      54.569   3.838  24.387  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      54.273   2.578  23.744  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      53.623   4.937  24.044  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      54.907   3.705  25.829  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.994   8.779  19.598  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      55.041   7.535  17.753  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      55.147  10.004  17.854  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      51.976   8.239  17.526  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      53.410   8.667  16.599  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      53.191   6.046  17.644  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      52.855   6.218  19.368  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      55.339   9.871  20.878  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      56.494  10.525  19.746  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      51.501  10.448  16.572  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      56.481   6.094  18.512  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      56.954   8.344  18.810  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      57.146   8.285  20.561  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      54.925   4.566  18.058  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      54.277   4.460  19.689  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      55.415  12.257  17.850  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      55.555  12.503  19.584  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.805   5.827  20.389  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      51.535  13.010  18.640  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      51.399  12.711  16.929  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      54.918  14.579  18.445  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      53.665  14.085  19.556  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      56.392   5.626  22.363  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.538   4.352  22.184  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      53.682  13.561  16.543  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      55.744   2.819  21.340  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      54.570   4.089  21.638  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      56.432   2.836  23.715  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      53.156   4.793  23.066  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      54.149   5.895  24.039  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      52.825   4.988  24.789  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      53.242  15.693  17.148  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      57.786   4.220  18.562  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      56.630   3.199  19.414  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      58.248   3.451  20.088  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.082   6.394  21.339  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      54.001   8.148  21.300  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      55.403   7.367  21.985  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      52.651  10.576  20.658  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      52.637  12.325  20.489  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      54.057  11.534  21.140  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      55.333   4.640  26.200  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      55.633   2.904  26.001  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      54.007   3.484  26.408  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.128', True, 'REMARK  Energy: 236.538\nREMARK  SimpleFitness: 236.538\nREMARK  FullFitness: -841.2711\nREMARK  InterFull: -28.7631\nREMARK  IntraFull: 271.687\nREMARK  solvFull: -1258.43\nREMARK  surfFull: 174.235\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.43\nREMARK  deltaGcompsolvnonpol: 174.235\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79418\nREMARK  deltaGligsolvnonpol: 12.8495\nREMARK  deltaGvdw: -28.7631\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9305353\nREMARK  Cluster: 13\nREMARK  ClusterRank: 2\n', 128), ({'deltaGligsolvpol': -4.79418, 'surfFull': 174.235, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.235, 'SimpleFitness': 236.538, 'InterFull': -28.7631, 'extraFull': 0.0, 'Energy': 236.538, 'solvFull': -1258.43, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 13, 'deltaGligsolvnonpol': 12.8495, 'deltaGcompsolvpol': -1258.43, 'FullFitness': -841.2711, 'deltaG': -6.9305353, 'ClusterRank': 3, 'IntraFull': 271.687, 'deltaGvdw': -28.7631}, 'V', ['REMARK  Energy: 236.538\n', 'REMARK  SimpleFitness: 236.538\n', 'REMARK  FullFitness: -841.2711\n', 'REMARK  InterFull: -28.7631\n', 'REMARK  IntraFull: 271.687\n', 'REMARK  solvFull: -1258.43\n', 'REMARK  surfFull: 174.235\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.43\n', 'REMARK  deltaGcompsolvnonpol: 174.235\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79418\n', 'REMARK  deltaGligsolvnonpol: 12.8495\n', 'REMARK  deltaGvdw: -28.7631\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9305353\n', 'REMARK  Cluster: 13\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      53.661   8.791  18.734  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.443   7.496  18.669  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      54.631   9.967  18.819  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      52.818   8.935  17.479  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      55.390   7.287  19.824  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      53.651   6.213  18.619  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      53.859  11.297  18.986  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      55.731   9.755  19.867  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      52.295  10.316  17.297  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.917   5.907  19.431  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      56.413   8.399  19.758  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      54.673   7.298  21.177  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      54.683   5.148  18.950  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      52.735  11.380  17.982  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      54.839  12.450  18.760  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      53.268  11.437  20.391  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      56.944   5.157  20.310  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      52.115  12.724  17.758  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      54.167  13.804  18.626  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.618   4.751  21.754  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      57.426   3.935  19.552  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      53.172  13.775  17.487  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      55.539   3.699  21.952  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      52.547  15.049  17.375  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      55.494   3.260  23.379  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      54.569   3.838  24.387  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      54.273   2.578  23.744  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      53.623   4.937  24.044  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      54.907   3.705  25.829  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.994   8.779  19.598  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      55.041   7.535  17.753  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      55.147  10.004  17.854  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      51.976   8.239  17.526  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      53.410   8.667  16.599  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      53.191   6.046  17.644  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      52.855   6.218  19.368  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      55.339   9.871  20.878  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      56.494  10.525  19.746  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      51.501  10.448  16.572  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      56.481   6.094  18.512  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      56.954   8.344  18.810  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      57.146   8.285  20.561  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      54.925   4.566  18.058  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      54.277   4.460  19.689  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      55.415  12.257  17.850  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      55.555  12.503  19.584  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.805   5.827  20.389  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      51.535  13.010  18.640  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      51.399  12.711  16.929  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      54.918  14.579  18.445  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      53.665  14.085  19.556  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      56.392   5.626  22.363  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.538   4.352  22.184  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      53.682  13.561  16.543  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      55.744   2.819  21.340  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      54.570   4.089  21.638  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      56.432   2.836  23.715  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      53.156   4.793  23.066  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      54.149   5.895  24.039  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      52.825   4.988  24.789  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      53.242  15.693  17.148  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      57.786   4.220  18.562  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      56.630   3.199  19.414  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      58.248   3.451  20.088  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.082   6.394  21.339  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      54.001   8.148  21.300  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      55.403   7.367  21.985  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      52.651  10.576  20.658  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      52.637  12.325  20.489  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      54.057  11.534  21.140  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      55.333   4.640  26.200  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      55.633   2.904  26.001  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      54.007   3.484  26.408  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.129', True, 'REMARK  Energy: 236.538\nREMARK  SimpleFitness: 236.538\nREMARK  FullFitness: -841.2711\nREMARK  InterFull: -28.7631\nREMARK  IntraFull: 271.687\nREMARK  solvFull: -1258.43\nREMARK  surfFull: 174.235\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.43\nREMARK  deltaGcompsolvnonpol: 174.235\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79418\nREMARK  deltaGligsolvnonpol: 12.8495\nREMARK  deltaGvdw: -28.7631\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9305353\nREMARK  Cluster: 13\nREMARK  ClusterRank: 3\n', 129), ({'deltaGligsolvpol': -4.79468, 'surfFull': 174.224, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.224, 'SimpleFitness': 236.548, 'InterFull': -28.9066, 'extraFull': 0.0, 'Energy': 236.548, 'solvFull': -1258.02, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 13, 'deltaGligsolvnonpol': 12.8547, 'deltaGcompsolvpol': -1258.02, 'FullFitness': -841.1366, 'deltaG': -6.9205184, 'ClusterRank': 4, 'IntraFull': 271.566, 'deltaGvdw': -28.9066}, 'V', ['REMARK  Energy: 236.548\n', 'REMARK  SimpleFitness: 236.548\n', 'REMARK  FullFitness: -841.1366\n', 'REMARK  InterFull: -28.9066\n', 'REMARK  IntraFull: 271.566\n', 'REMARK  solvFull: -1258.02\n', 'REMARK  surfFull: 174.224\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.02\n', 'REMARK  deltaGcompsolvnonpol: 174.224\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79468\n', 'REMARK  deltaGligsolvnonpol: 12.8547\n', 'REMARK  deltaGvdw: -28.9066\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9205184\n', 'REMARK  Cluster: 13\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      53.661   8.869  18.705  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.474   7.592  18.680  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      54.599  10.068  18.826  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      52.870   8.985  17.413  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      55.378   7.409  19.873  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      53.717   6.290  18.603  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      53.792  11.382  18.944  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      55.649   9.885  19.928  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      52.328  10.353  17.195  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.956   6.044  19.501  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      56.372   8.548  19.850  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      54.605   7.402  21.194  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      54.759   5.251  18.982  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      52.713  11.432  17.889  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      54.757  12.552  18.751  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      53.136  11.520  20.320  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      56.974   5.326  20.415  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      52.077  12.761  17.624  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      54.068  13.891  18.567  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.614   4.924  21.852  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      57.508   4.110  19.681  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      53.125  13.828  17.385  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      55.541   3.861  22.021  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      52.483  15.088  17.227  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      55.468   3.419  23.444  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      54.530   4.004  24.438  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      54.235   2.745  23.789  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      53.597   5.109  24.080  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      54.848   3.869  25.883  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.959   8.845  19.540  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      55.109   7.641  17.789  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      55.161  10.109  17.887  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      52.042   8.272  17.432  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      53.504   8.720  16.562  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      53.303   6.108  17.611  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      52.889   6.279  19.317  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      55.201   9.986  20.917  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      56.396  10.677  19.850  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      51.565  10.462  16.432  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      56.544   6.243  18.600  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      56.956   8.508  18.926  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      57.073   8.453  20.684  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      55.046   4.662  18.107  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      54.340   4.564  19.715  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      55.381  12.359  17.873  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      55.432  12.629  19.607  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.816   6.017  20.515  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      51.453  13.044  18.476  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      51.398  12.725  16.765  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      54.812  14.677  18.409  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      53.519  14.174  19.469  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      56.359   5.801  22.447  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.526   4.541  22.313  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      53.681  13.611  16.468  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      55.767   2.985  21.410  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      54.577   4.244  21.687  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      56.396   2.987  23.796  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      53.149   4.972  23.092  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      54.127   6.064  24.091  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      52.784   5.161  24.809  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      53.175  15.744  17.029  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      57.900   4.401  18.705  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      56.733   3.358  19.515  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      58.318   3.645  20.249  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.030   6.484  21.334  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      53.906   8.235  21.288  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      55.298   7.491  22.033  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      52.529  10.646  20.568  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      52.480  12.393  20.380  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      53.888  11.643  21.102  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      55.280   4.801  26.257  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      55.563   3.061  26.066  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      53.939   3.660  26.452  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.130', True, 'REMARK  Energy: 236.548\nREMARK  SimpleFitness: 236.548\nREMARK  FullFitness: -841.1366\nREMARK  InterFull: -28.9066\nREMARK  IntraFull: 271.566\nREMARK  solvFull: -1258.02\nREMARK  surfFull: 174.224\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.02\nREMARK  deltaGcompsolvnonpol: 174.224\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79468\nREMARK  deltaGligsolvnonpol: 12.8547\nREMARK  deltaGvdw: -28.9066\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9205184\nREMARK  Cluster: 13\nREMARK  ClusterRank: 4\n', 130), ({'deltaGligsolvpol': -4.79468, 'surfFull': 174.224, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.224, 'SimpleFitness': 236.548, 'InterFull': -28.9066, 'extraFull': 0.0, 'Energy': 236.548, 'solvFull': -1258.02, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 13, 'deltaGligsolvnonpol': 12.8547, 'deltaGcompsolvpol': -1258.02, 'FullFitness': -841.1366, 'deltaG': -6.9205184, 'ClusterRank': 5, 'IntraFull': 271.566, 'deltaGvdw': -28.9066}, 'V', ['REMARK  Energy: 236.548\n', 'REMARK  SimpleFitness: 236.548\n', 'REMARK  FullFitness: -841.1366\n', 'REMARK  InterFull: -28.9066\n', 'REMARK  IntraFull: 271.566\n', 'REMARK  solvFull: -1258.02\n', 'REMARK  surfFull: 174.224\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.02\n', 'REMARK  deltaGcompsolvnonpol: 174.224\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79468\n', 'REMARK  deltaGligsolvnonpol: 12.8547\n', 'REMARK  deltaGvdw: -28.9066\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9205184\n', 'REMARK  Cluster: 13\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      53.661   8.869  18.705  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.474   7.592  18.680  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      54.599  10.068  18.826  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      52.870   8.985  17.413  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      55.378   7.409  19.873  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      53.717   6.290  18.603  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      53.792  11.382  18.944  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      55.649   9.885  19.928  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      52.328  10.353  17.195  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.956   6.044  19.501  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      56.372   8.548  19.850  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      54.605   7.402  21.194  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      54.759   5.251  18.982  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      52.713  11.432  17.889  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      54.757  12.552  18.751  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      53.136  11.520  20.320  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      56.974   5.326  20.415  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      52.077  12.761  17.624  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      54.068  13.891  18.567  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.614   4.924  21.852  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      57.508   4.110  19.681  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      53.125  13.828  17.385  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      55.541   3.861  22.021  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      52.483  15.088  17.227  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      55.468   3.419  23.444  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      54.530   4.004  24.438  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      54.235   2.745  23.789  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      53.597   5.109  24.080  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      54.848   3.869  25.883  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.959   8.845  19.540  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      55.109   7.641  17.789  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      55.161  10.109  17.887  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      52.042   8.272  17.432  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      53.504   8.720  16.562  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      53.303   6.108  17.611  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      52.889   6.279  19.317  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      55.201   9.986  20.917  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      56.396  10.677  19.850  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      51.565  10.462  16.432  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      56.544   6.243  18.600  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      56.956   8.508  18.926  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      57.073   8.453  20.684  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      55.046   4.662  18.107  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      54.340   4.564  19.715  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      55.381  12.359  17.873  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      55.432  12.629  19.607  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.816   6.017  20.515  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      51.453  13.044  18.476  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      51.398  12.725  16.765  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      54.812  14.677  18.409  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      53.519  14.174  19.469  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      56.359   5.801  22.447  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.526   4.541  22.313  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      53.681  13.611  16.468  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      55.767   2.985  21.410  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      54.577   4.244  21.687  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      56.396   2.987  23.796  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      53.149   4.972  23.092  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      54.127   6.064  24.091  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      52.784   5.161  24.809  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      53.175  15.744  17.029  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      57.900   4.401  18.705  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      56.733   3.358  19.515  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      58.318   3.645  20.249  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.030   6.484  21.334  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      53.906   8.235  21.288  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      55.298   7.491  22.033  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      52.529  10.646  20.568  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      52.480  12.393  20.380  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      53.888  11.643  21.102  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      55.280   4.801  26.257  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      55.563   3.061  26.066  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      53.939   3.660  26.452  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.131', True, 'REMARK  Energy: 236.548\nREMARK  SimpleFitness: 236.548\nREMARK  FullFitness: -841.1366\nREMARK  InterFull: -28.9066\nREMARK  IntraFull: 271.566\nREMARK  solvFull: -1258.02\nREMARK  surfFull: 174.224\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.02\nREMARK  deltaGcompsolvnonpol: 174.224\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79468\nREMARK  deltaGligsolvnonpol: 12.8547\nREMARK  deltaGvdw: -28.9066\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9205184\nREMARK  Cluster: 13\nREMARK  ClusterRank: 5\n', 131), ({'deltaGligsolvpol': -4.79468, 'surfFull': 174.224, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.224, 'SimpleFitness': 236.548, 'InterFull': -28.9066, 'extraFull': 0.0, 'Energy': 236.548, 'solvFull': -1258.02, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 13, 'deltaGligsolvnonpol': 12.8547, 'deltaGcompsolvpol': -1258.02, 'FullFitness': -841.1366, 'deltaG': -6.9205184, 'ClusterRank': 6, 'IntraFull': 271.566, 'deltaGvdw': -28.9066}, 'V', ['REMARK  Energy: 236.548\n', 'REMARK  SimpleFitness: 236.548\n', 'REMARK  FullFitness: -841.1366\n', 'REMARK  InterFull: -28.9066\n', 'REMARK  IntraFull: 271.566\n', 'REMARK  solvFull: -1258.02\n', 'REMARK  surfFull: 174.224\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.02\n', 'REMARK  deltaGcompsolvnonpol: 174.224\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79468\n', 'REMARK  deltaGligsolvnonpol: 12.8547\n', 'REMARK  deltaGvdw: -28.9066\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9205184\n', 'REMARK  Cluster: 13\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      53.661   8.869  18.705  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.474   7.592  18.680  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      54.599  10.068  18.826  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      52.870   8.985  17.413  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      55.378   7.409  19.873  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      53.717   6.290  18.603  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      53.792  11.382  18.944  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      55.649   9.885  19.928  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      52.328  10.353  17.195  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.956   6.044  19.501  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      56.372   8.548  19.850  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      54.605   7.402  21.194  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      54.759   5.251  18.982  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      52.713  11.432  17.889  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      54.757  12.552  18.751  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      53.136  11.520  20.320  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      56.974   5.326  20.415  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      52.077  12.761  17.624  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      54.068  13.891  18.567  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.614   4.924  21.852  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      57.508   4.110  19.681  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      53.125  13.828  17.385  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      55.541   3.861  22.021  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      52.483  15.088  17.227  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      55.468   3.419  23.444  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      54.530   4.004  24.438  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      54.235   2.745  23.789  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      53.597   5.109  24.080  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      54.848   3.869  25.883  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.959   8.845  19.540  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      55.109   7.641  17.789  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      55.161  10.109  17.887  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      52.042   8.272  17.432  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      53.504   8.720  16.562  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      53.303   6.108  17.611  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      52.889   6.279  19.317  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      55.201   9.986  20.917  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      56.396  10.677  19.850  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      51.565  10.462  16.432  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      56.544   6.243  18.600  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      56.956   8.508  18.926  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      57.073   8.453  20.684  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      55.046   4.662  18.107  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      54.340   4.564  19.715  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      55.381  12.359  17.873  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      55.432  12.629  19.607  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.816   6.017  20.515  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      51.453  13.044  18.476  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      51.398  12.725  16.765  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      54.812  14.677  18.409  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      53.519  14.174  19.469  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      56.359   5.801  22.447  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.526   4.541  22.313  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      53.681  13.611  16.468  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      55.767   2.985  21.410  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      54.577   4.244  21.687  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      56.396   2.987  23.796  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      53.149   4.972  23.092  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      54.127   6.064  24.091  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      52.784   5.161  24.809  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      53.175  15.744  17.029  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      57.900   4.401  18.705  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      56.733   3.358  19.515  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      58.318   3.645  20.249  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.030   6.484  21.334  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      53.906   8.235  21.288  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      55.298   7.491  22.033  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      52.529  10.646  20.568  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      52.480  12.393  20.380  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      53.888  11.643  21.102  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      55.280   4.801  26.257  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      55.563   3.061  26.066  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      53.939   3.660  26.452  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.132', True, 'REMARK  Energy: 236.548\nREMARK  SimpleFitness: 236.548\nREMARK  FullFitness: -841.1366\nREMARK  InterFull: -28.9066\nREMARK  IntraFull: 271.566\nREMARK  solvFull: -1258.02\nREMARK  surfFull: 174.224\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.02\nREMARK  deltaGcompsolvnonpol: 174.224\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79468\nREMARK  deltaGligsolvnonpol: 12.8547\nREMARK  deltaGvdw: -28.9066\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9205184\nREMARK  Cluster: 13\nREMARK  ClusterRank: 6\n', 132), ({'deltaGligsolvpol': -4.79468, 'surfFull': 174.224, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.224, 'SimpleFitness': 236.548, 'InterFull': -28.9066, 'extraFull': 0.0, 'Energy': 236.548, 'solvFull': -1258.02, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 13, 'deltaGligsolvnonpol': 12.8547, 'deltaGcompsolvpol': -1258.02, 'FullFitness': -841.1366, 'deltaG': -6.9205184, 'ClusterRank': 7, 'IntraFull': 271.566, 'deltaGvdw': -28.9066}, 'V', ['REMARK  Energy: 236.548\n', 'REMARK  SimpleFitness: 236.548\n', 'REMARK  FullFitness: -841.1366\n', 'REMARK  InterFull: -28.9066\n', 'REMARK  IntraFull: 271.566\n', 'REMARK  solvFull: -1258.02\n', 'REMARK  surfFull: 174.224\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.02\n', 'REMARK  deltaGcompsolvnonpol: 174.224\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79468\n', 'REMARK  deltaGligsolvnonpol: 12.8547\n', 'REMARK  deltaGvdw: -28.9066\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9205184\n', 'REMARK  Cluster: 13\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      53.661   8.869  18.705  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.474   7.592  18.680  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      54.599  10.068  18.826  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      52.870   8.985  17.413  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      55.378   7.409  19.873  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      53.717   6.290  18.603  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      53.792  11.382  18.944  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      55.649   9.885  19.928  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      52.328  10.353  17.195  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.956   6.044  19.501  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      56.372   8.548  19.850  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      54.605   7.402  21.194  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      54.759   5.251  18.982  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      52.713  11.432  17.889  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      54.757  12.552  18.751  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      53.136  11.520  20.320  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      56.974   5.326  20.415  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      52.077  12.761  17.624  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      54.068  13.891  18.567  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.614   4.924  21.852  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      57.508   4.110  19.681  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      53.125  13.828  17.385  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      55.541   3.861  22.021  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      52.483  15.088  17.227  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      55.468   3.419  23.444  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      54.530   4.004  24.438  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      54.235   2.745  23.789  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      53.597   5.109  24.080  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      54.848   3.869  25.883  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.959   8.845  19.540  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      55.109   7.641  17.789  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      55.161  10.109  17.887  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      52.042   8.272  17.432  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      53.504   8.720  16.562  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      53.303   6.108  17.611  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      52.889   6.279  19.317  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      55.201   9.986  20.917  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      56.396  10.677  19.850  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      51.565  10.462  16.432  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      56.544   6.243  18.600  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      56.956   8.508  18.926  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      57.073   8.453  20.684  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      55.046   4.662  18.107  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      54.340   4.564  19.715  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      55.381  12.359  17.873  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      55.432  12.629  19.607  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.816   6.017  20.515  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      51.453  13.044  18.476  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      51.398  12.725  16.765  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      54.812  14.677  18.409  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      53.519  14.174  19.469  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      56.359   5.801  22.447  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.526   4.541  22.313  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      53.681  13.611  16.468  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      55.767   2.985  21.410  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      54.577   4.244  21.687  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      56.396   2.987  23.796  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      53.149   4.972  23.092  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      54.127   6.064  24.091  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      52.784   5.161  24.809  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      53.175  15.744  17.029  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      57.900   4.401  18.705  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      56.733   3.358  19.515  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      58.318   3.645  20.249  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.030   6.484  21.334  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      53.906   8.235  21.288  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      55.298   7.491  22.033  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      52.529  10.646  20.568  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      52.480  12.393  20.380  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      53.888  11.643  21.102  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      55.280   4.801  26.257  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      55.563   3.061  26.066  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      53.939   3.660  26.452  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.133', True, 'REMARK  Energy: 236.548\nREMARK  SimpleFitness: 236.548\nREMARK  FullFitness: -841.1366\nREMARK  InterFull: -28.9066\nREMARK  IntraFull: 271.566\nREMARK  solvFull: -1258.02\nREMARK  surfFull: 174.224\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.02\nREMARK  deltaGcompsolvnonpol: 174.224\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79468\nREMARK  deltaGligsolvnonpol: 12.8547\nREMARK  deltaGvdw: -28.9066\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9205184\nREMARK  Cluster: 13\nREMARK  ClusterRank: 7\n', 133), ({'deltaGligsolvpol': -4.78575, 'surfFull': 174.683, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.683, 'SimpleFitness': 237.576, 'InterFull': -21.0296, 'extraFull': 0.0, 'Energy': 237.576, 'solvFull': -1264.79, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 14, 'deltaGligsolvnonpol': 13.3374, 'deltaGcompsolvpol': -1264.79, 'FullFitness': -840.5676, 'deltaG': -6.5924683, 'ClusterRank': 0, 'IntraFull': 270.569, 'deltaGvdw': -21.0296}, 'V', ['REMARK  Energy: 237.576\n', 'REMARK  SimpleFitness: 237.576\n', 'REMARK  FullFitness: -840.5676\n', 'REMARK  InterFull: -21.0296\n', 'REMARK  IntraFull: 270.569\n', 'REMARK  solvFull: -1264.79\n', 'REMARK  surfFull: 174.683\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1264.79\n', 'REMARK  deltaGcompsolvnonpol: 174.683\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.78575\n', 'REMARK  deltaGligsolvnonpol: 13.3374\n', 'REMARK  deltaGvdw: -21.0296\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.5924683\n', 'REMARK  Cluster: 14\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      53.270   6.589  18.899  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.643   6.212  19.416  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      53.445   7.591  17.757  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      52.555   5.345  18.409  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      55.409   7.398  19.929  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      54.717   5.200  20.533  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      52.079   8.042  17.191  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      54.383   8.755  18.113  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      51.381   5.661  17.554  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      56.635   6.700  20.502  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      55.689   8.297  18.745  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      54.649   8.171  21.004  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      56.057   5.469  21.201  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      51.151   6.864  17.012  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      52.337   8.713  15.840  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      51.397   9.050  18.117  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      57.619   7.597  21.282  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      49.944   7.073  16.154  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      51.083   8.962  15.027  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      57.829   7.324  22.772  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      58.986   7.424  20.657  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      50.337   7.664  14.816  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      56.766   7.872  23.713  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      49.163   7.924  14.057  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      56.622   9.353  23.575  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      55.340  10.042  23.875  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      56.442  10.087  24.805  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      54.153   9.327  24.424  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      55.066  11.309  23.147  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.664   7.027  19.695  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      55.204   5.792  18.575  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      53.966   7.047  16.967  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      52.220   4.758  19.269  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      53.244   4.717  17.838  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      54.653   4.175  20.157  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      53.903   5.351  21.247  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      53.898   9.459  18.790  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      54.626   9.325  17.215  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      50.687   4.853  17.357  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      57.177   6.319  19.632  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      56.279   7.753  18.003  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      56.276   9.165  19.057  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      56.733   4.616  21.095  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      55.882   5.620  22.266  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      53.008   8.087  15.246  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      52.844   9.670  15.987  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.348   8.642  21.134  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      49.243   7.742  16.660  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      49.392   6.141  15.988  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      51.345   9.402  14.060  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      50.435   9.689  15.526  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      58.779   7.777  23.071  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.944   6.250  22.929  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      50.959   6.960  14.255  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      57.048   7.624  24.740  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      55.817   7.371  23.518  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      57.303   9.794  22.865  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      54.434   8.493  25.073  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      53.536   8.940  23.610  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      53.543  10.018  25.012  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      49.441   8.453  13.291  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      58.962   7.766  19.624  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      59.294   6.374  20.678  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      59.737   8.017  21.185  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.470   7.571  21.897  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      53.675   8.537  20.678  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      55.220   9.054  21.291  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      51.320   8.666  19.138  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      50.384   9.299  17.787  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      51.950   9.991  18.150  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      54.570  11.095  22.197  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      55.987  11.861  22.936  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      54.405  11.949  23.735  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.134', True, 'REMARK  Energy: 237.576\nREMARK  SimpleFitness: 237.576\nREMARK  FullFitness: -840.5676\nREMARK  InterFull: -21.0296\nREMARK  IntraFull: 270.569\nREMARK  solvFull: -1264.79\nREMARK  surfFull: 174.683\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1264.79\nREMARK  deltaGcompsolvnonpol: 174.683\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.78575\nREMARK  deltaGligsolvnonpol: 13.3374\nREMARK  deltaGvdw: -21.0296\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.5924683\nREMARK  Cluster: 14\nREMARK  ClusterRank: 0\n', 134), ({'deltaGligsolvpol': -4.78575, 'surfFull': 174.683, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.683, 'SimpleFitness': 237.576, 'InterFull': -21.0296, 'extraFull': 0.0, 'Energy': 237.576, 'solvFull': -1264.79, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 14, 'deltaGligsolvnonpol': 13.3374, 'deltaGcompsolvpol': -1264.79, 'FullFitness': -840.5676, 'deltaG': -6.5924683, 'ClusterRank': 1, 'IntraFull': 270.569, 'deltaGvdw': -21.0296}, 'V', ['REMARK  Energy: 237.576\n', 'REMARK  SimpleFitness: 237.576\n', 'REMARK  FullFitness: -840.5676\n', 'REMARK  InterFull: -21.0296\n', 'REMARK  IntraFull: 270.569\n', 'REMARK  solvFull: -1264.79\n', 'REMARK  surfFull: 174.683\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1264.79\n', 'REMARK  deltaGcompsolvnonpol: 174.683\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.78575\n', 'REMARK  deltaGligsolvnonpol: 13.3374\n', 'REMARK  deltaGvdw: -21.0296\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.5924683\n', 'REMARK  Cluster: 14\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      53.270   6.589  18.899  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.643   6.212  19.416  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      53.445   7.591  17.757  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      52.555   5.345  18.409  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      55.409   7.398  19.929  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      54.717   5.200  20.533  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      52.079   8.042  17.191  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      54.383   8.755  18.113  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      51.381   5.661  17.554  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      56.635   6.700  20.502  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      55.689   8.297  18.745  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      54.649   8.171  21.004  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      56.057   5.469  21.201  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      51.151   6.864  17.012  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      52.337   8.713  15.840  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      51.397   9.050  18.117  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      57.619   7.597  21.282  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      49.944   7.073  16.154  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      51.083   8.962  15.027  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      57.829   7.324  22.772  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      58.986   7.424  20.657  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      50.337   7.664  14.816  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      56.766   7.872  23.713  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      49.163   7.924  14.057  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      56.622   9.353  23.575  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      55.340  10.042  23.875  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      56.442  10.087  24.805  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      54.153   9.327  24.424  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      55.066  11.309  23.147  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.664   7.027  19.695  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      55.204   5.792  18.575  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      53.966   7.047  16.967  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      52.220   4.758  19.269  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      53.244   4.717  17.838  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      54.653   4.175  20.157  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      53.903   5.351  21.247  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      53.898   9.459  18.790  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      54.626   9.325  17.215  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      50.687   4.853  17.357  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      57.177   6.319  19.632  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      56.279   7.753  18.003  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      56.276   9.165  19.057  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      56.733   4.616  21.095  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      55.882   5.620  22.266  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      53.008   8.087  15.246  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      52.844   9.670  15.987  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.348   8.642  21.134  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      49.243   7.742  16.660  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      49.392   6.141  15.988  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      51.345   9.402  14.060  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      50.435   9.689  15.526  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      58.779   7.777  23.071  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.944   6.250  22.929  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      50.959   6.960  14.255  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      57.048   7.624  24.740  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      55.817   7.371  23.518  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      57.303   9.794  22.865  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      54.434   8.493  25.073  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      53.536   8.940  23.610  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      53.543  10.018  25.012  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      49.441   8.453  13.291  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      58.962   7.766  19.624  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      59.294   6.374  20.678  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      59.737   8.017  21.185  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.470   7.571  21.897  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      53.675   8.537  20.678  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      55.220   9.054  21.291  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      51.320   8.666  19.138  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      50.384   9.299  17.787  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      51.950   9.991  18.150  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      54.570  11.095  22.197  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      55.987  11.861  22.936  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      54.405  11.949  23.735  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.135', True, 'REMARK  Energy: 237.576\nREMARK  SimpleFitness: 237.576\nREMARK  FullFitness: -840.5676\nREMARK  InterFull: -21.0296\nREMARK  IntraFull: 270.569\nREMARK  solvFull: -1264.79\nREMARK  surfFull: 174.683\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1264.79\nREMARK  deltaGcompsolvnonpol: 174.683\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.78575\nREMARK  deltaGligsolvnonpol: 13.3374\nREMARK  deltaGvdw: -21.0296\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.5924683\nREMARK  Cluster: 14\nREMARK  ClusterRank: 1\n', 135), ({'deltaGligsolvpol': -4.78575, 'surfFull': 174.683, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.683, 'SimpleFitness': 237.576, 'InterFull': -21.0296, 'extraFull': 0.0, 'Energy': 237.576, 'solvFull': -1264.79, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 14, 'deltaGligsolvnonpol': 13.3374, 'deltaGcompsolvpol': -1264.79, 'FullFitness': -840.5676, 'deltaG': -6.5924683, 'ClusterRank': 2, 'IntraFull': 270.569, 'deltaGvdw': -21.0296}, 'V', ['REMARK  Energy: 237.576\n', 'REMARK  SimpleFitness: 237.576\n', 'REMARK  FullFitness: -840.5676\n', 'REMARK  InterFull: -21.0296\n', 'REMARK  IntraFull: 270.569\n', 'REMARK  solvFull: -1264.79\n', 'REMARK  surfFull: 174.683\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1264.79\n', 'REMARK  deltaGcompsolvnonpol: 174.683\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.78575\n', 'REMARK  deltaGligsolvnonpol: 13.3374\n', 'REMARK  deltaGvdw: -21.0296\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.5924683\n', 'REMARK  Cluster: 14\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      53.270   6.589  18.899  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.643   6.212  19.416  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      53.445   7.591  17.757  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      52.555   5.345  18.409  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      55.409   7.398  19.929  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      54.717   5.200  20.533  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      52.079   8.042  17.191  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      54.383   8.755  18.113  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      51.381   5.661  17.554  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      56.635   6.700  20.502  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      55.689   8.297  18.745  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      54.649   8.171  21.004  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      56.057   5.469  21.201  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      51.151   6.864  17.012  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      52.337   8.713  15.840  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      51.397   9.050  18.117  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      57.619   7.597  21.282  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      49.944   7.073  16.154  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      51.083   8.962  15.027  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      57.829   7.324  22.772  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      58.986   7.424  20.657  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      50.337   7.664  14.816  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      56.766   7.872  23.713  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      49.163   7.924  14.057  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      56.622   9.353  23.575  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      55.340  10.042  23.875  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      56.442  10.087  24.805  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      54.153   9.327  24.424  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      55.066  11.309  23.147  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.664   7.027  19.695  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      55.204   5.792  18.575  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      53.966   7.047  16.967  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      52.220   4.758  19.269  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      53.244   4.717  17.838  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      54.653   4.175  20.157  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      53.903   5.351  21.247  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      53.898   9.459  18.790  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      54.626   9.325  17.215  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      50.687   4.853  17.357  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      57.177   6.319  19.632  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      56.279   7.753  18.003  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      56.276   9.165  19.057  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      56.733   4.616  21.095  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      55.882   5.620  22.266  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      53.008   8.087  15.246  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      52.844   9.670  15.987  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.348   8.642  21.134  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      49.243   7.742  16.660  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      49.392   6.141  15.988  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      51.345   9.402  14.060  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      50.435   9.689  15.526  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      58.779   7.777  23.071  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.944   6.250  22.929  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      50.959   6.960  14.255  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      57.048   7.624  24.740  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      55.817   7.371  23.518  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      57.303   9.794  22.865  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      54.434   8.493  25.073  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      53.536   8.940  23.610  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      53.543  10.018  25.012  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      49.441   8.453  13.291  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      58.962   7.766  19.624  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      59.294   6.374  20.678  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      59.737   8.017  21.185  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.470   7.571  21.897  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      53.675   8.537  20.678  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      55.220   9.054  21.291  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      51.320   8.666  19.138  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      50.384   9.299  17.787  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      51.950   9.991  18.150  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      54.570  11.095  22.197  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      55.987  11.861  22.936  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      54.405  11.949  23.735  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.136', True, 'REMARK  Energy: 237.576\nREMARK  SimpleFitness: 237.576\nREMARK  FullFitness: -840.5676\nREMARK  InterFull: -21.0296\nREMARK  IntraFull: 270.569\nREMARK  solvFull: -1264.79\nREMARK  surfFull: 174.683\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1264.79\nREMARK  deltaGcompsolvnonpol: 174.683\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.78575\nREMARK  deltaGligsolvnonpol: 13.3374\nREMARK  deltaGvdw: -21.0296\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.5924683\nREMARK  Cluster: 14\nREMARK  ClusterRank: 2\n', 136), ({'deltaGligsolvpol': -4.7848, 'surfFull': 174.668, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.668, 'SimpleFitness': 237.538, 'InterFull': -21.0105, 'extraFull': 0.0, 'Energy': 237.538, 'solvFull': -1264.81, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 14, 'deltaGligsolvnonpol': 13.3349, 'deltaGcompsolvpol': -1264.81, 'FullFitness': -840.5665, 'deltaG': -6.593127, 'ClusterRank': 3, 'IntraFull': 270.586, 'deltaGvdw': -21.0105}, 'V', ['REMARK  Energy: 237.538\n', 'REMARK  SimpleFitness: 237.538\n', 'REMARK  FullFitness: -840.5665\n', 'REMARK  InterFull: -21.0105\n', 'REMARK  IntraFull: 270.586\n', 'REMARK  solvFull: -1264.81\n', 'REMARK  surfFull: 174.668\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1264.81\n', 'REMARK  deltaGcompsolvnonpol: 174.668\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.7848\n', 'REMARK  deltaGligsolvnonpol: 13.3349\n', 'REMARK  deltaGvdw: -21.0105\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.593127\n', 'REMARK  Cluster: 14\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      53.223   6.621  18.878  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.589   6.234  19.406  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      53.418   7.618  17.735  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      52.505   5.378  18.388  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      55.360   7.412  19.929  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      54.649   5.215  20.519  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      52.063   8.070  17.144  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      54.349   8.781  18.112  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      51.347   5.695  17.511  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      56.578   6.701  20.503  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      55.649   8.318  18.752  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      54.602   8.182  21.008  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      55.988   5.473  21.195  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      51.134   6.895  16.956  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      52.348   8.732  15.793  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      51.368   9.087  18.050  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      57.567   7.587  21.290  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      49.947   7.099  16.070  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      51.112   8.973  14.951  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      57.780   7.298  22.776  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      58.930   7.415  20.656  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      50.372   7.673  14.735  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      56.726   7.851  23.725  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      49.217   7.924  13.944  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      56.579   9.333  23.587  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      55.297  10.020  23.893  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      56.404  10.068  24.817  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      54.113   9.306  24.451  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      55.016  11.284  23.159  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.614   7.067  19.666  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      55.156   5.814  18.569  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      53.954   7.073  16.956  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      52.152   4.802  19.247  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      53.197   4.739  17.833  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      54.581   4.193  20.137  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      53.831   5.368  21.229  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      53.854   9.476  18.792  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      54.599   9.361  17.222  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      50.653   4.889  17.305  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      57.119   6.319  19.633  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      56.244   7.778  18.011  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      56.234   9.184  19.073  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      56.657   4.615  21.089  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      55.809   5.620  22.260  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      53.034   8.103  15.219  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      52.851   9.691  15.945  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.301   8.635  21.152  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      49.238   7.777  16.553  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      49.394   6.168  15.902  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      51.394   9.406  13.987  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      50.453   9.702  15.430  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      58.735   7.738  23.076  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.883   6.223  22.927  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      51.008   6.963  14.197  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      57.019   7.606  24.750  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      55.775   7.350  23.541  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      57.259   9.776  22.876  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      54.397   8.470  25.095  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      53.487   8.922  23.642  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      53.509   9.997  25.046  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      49.514   8.445  13.179  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      58.905   7.776  19.629  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      59.229   6.363  20.656  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      59.688   7.991  21.193  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.426   7.580  21.901  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      53.628   8.549  20.685  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      55.175   9.062  21.297  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      51.271   8.711  19.072  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      50.364   9.339  17.699  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      51.925  10.027  18.087  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      54.514  11.063  22.214  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      55.936  11.834  22.937  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      54.359  11.929  23.747  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.137', True, 'REMARK  Energy: 237.538\nREMARK  SimpleFitness: 237.538\nREMARK  FullFitness: -840.5665\nREMARK  InterFull: -21.0105\nREMARK  IntraFull: 270.586\nREMARK  solvFull: -1264.81\nREMARK  surfFull: 174.668\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1264.81\nREMARK  deltaGcompsolvnonpol: 174.668\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.7848\nREMARK  deltaGligsolvnonpol: 13.3349\nREMARK  deltaGvdw: -21.0105\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.593127\nREMARK  Cluster: 14\nREMARK  ClusterRank: 3\n', 137), ({'deltaGligsolvpol': -4.7848, 'surfFull': 174.668, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.668, 'SimpleFitness': 237.538, 'InterFull': -21.0105, 'extraFull': 0.0, 'Energy': 237.538, 'solvFull': -1264.81, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 14, 'deltaGligsolvnonpol': 13.3349, 'deltaGcompsolvpol': -1264.81, 'FullFitness': -840.5665, 'deltaG': -6.593127, 'ClusterRank': 4, 'IntraFull': 270.586, 'deltaGvdw': -21.0105}, 'V', ['REMARK  Energy: 237.538\n', 'REMARK  SimpleFitness: 237.538\n', 'REMARK  FullFitness: -840.5665\n', 'REMARK  InterFull: -21.0105\n', 'REMARK  IntraFull: 270.586\n', 'REMARK  solvFull: -1264.81\n', 'REMARK  surfFull: 174.668\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1264.81\n', 'REMARK  deltaGcompsolvnonpol: 174.668\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.7848\n', 'REMARK  deltaGligsolvnonpol: 13.3349\n', 'REMARK  deltaGvdw: -21.0105\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.593127\n', 'REMARK  Cluster: 14\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      53.223   6.621  18.878  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.589   6.234  19.406  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      53.418   7.618  17.735  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      52.505   5.378  18.388  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      55.360   7.412  19.929  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      54.649   5.215  20.519  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      52.063   8.070  17.144  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      54.349   8.781  18.112  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      51.347   5.695  17.511  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      56.578   6.701  20.503  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      55.649   8.318  18.752  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      54.602   8.182  21.008  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      55.988   5.473  21.195  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      51.134   6.895  16.956  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      52.348   8.732  15.793  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      51.368   9.087  18.050  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      57.567   7.587  21.290  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      49.947   7.099  16.070  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      51.112   8.973  14.951  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      57.780   7.298  22.776  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      58.930   7.415  20.656  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      50.372   7.673  14.735  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      56.726   7.851  23.725  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      49.217   7.924  13.944  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      56.579   9.333  23.587  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      55.297  10.020  23.893  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      56.404  10.068  24.817  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      54.113   9.306  24.451  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      55.016  11.284  23.159  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.614   7.067  19.666  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      55.156   5.814  18.569  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      53.954   7.073  16.956  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      52.152   4.802  19.247  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      53.197   4.739  17.833  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      54.581   4.193  20.137  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      53.831   5.368  21.229  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      53.854   9.476  18.792  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      54.599   9.361  17.222  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      50.653   4.889  17.305  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      57.119   6.319  19.633  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      56.244   7.778  18.011  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      56.234   9.184  19.073  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      56.657   4.615  21.089  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      55.809   5.620  22.260  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      53.034   8.103  15.219  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      52.851   9.691  15.945  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.301   8.635  21.152  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      49.238   7.777  16.553  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      49.394   6.168  15.902  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      51.394   9.406  13.987  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      50.453   9.702  15.430  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      58.735   7.738  23.076  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.883   6.223  22.927  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      51.008   6.963  14.197  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      57.019   7.606  24.750  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      55.775   7.350  23.541  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      57.259   9.776  22.876  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      54.397   8.470  25.095  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      53.487   8.922  23.642  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      53.509   9.997  25.046  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      49.514   8.445  13.179  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      58.905   7.776  19.629  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      59.229   6.363  20.656  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      59.688   7.991  21.193  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.426   7.580  21.901  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      53.628   8.549  20.685  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      55.175   9.062  21.297  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      51.271   8.711  19.072  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      50.364   9.339  17.699  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      51.925  10.027  18.087  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      54.514  11.063  22.214  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      55.936  11.834  22.937  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      54.359  11.929  23.747  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.138', True, 'REMARK  Energy: 237.538\nREMARK  SimpleFitness: 237.538\nREMARK  FullFitness: -840.5665\nREMARK  InterFull: -21.0105\nREMARK  IntraFull: 270.586\nREMARK  solvFull: -1264.81\nREMARK  surfFull: 174.668\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1264.81\nREMARK  deltaGcompsolvnonpol: 174.668\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.7848\nREMARK  deltaGligsolvnonpol: 13.3349\nREMARK  deltaGvdw: -21.0105\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.593127\nREMARK  Cluster: 14\nREMARK  ClusterRank: 4\n', 138), ({'deltaGligsolvpol': -4.7848, 'surfFull': 174.668, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.668, 'SimpleFitness': 237.538, 'InterFull': -21.0105, 'extraFull': 0.0, 'Energy': 237.538, 'solvFull': -1264.81, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 14, 'deltaGligsolvnonpol': 13.3349, 'deltaGcompsolvpol': -1264.81, 'FullFitness': -840.5665, 'deltaG': -6.593127, 'ClusterRank': 5, 'IntraFull': 270.586, 'deltaGvdw': -21.0105}, 'V', ['REMARK  Energy: 237.538\n', 'REMARK  SimpleFitness: 237.538\n', 'REMARK  FullFitness: -840.5665\n', 'REMARK  InterFull: -21.0105\n', 'REMARK  IntraFull: 270.586\n', 'REMARK  solvFull: -1264.81\n', 'REMARK  surfFull: 174.668\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1264.81\n', 'REMARK  deltaGcompsolvnonpol: 174.668\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.7848\n', 'REMARK  deltaGligsolvnonpol: 13.3349\n', 'REMARK  deltaGvdw: -21.0105\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.593127\n', 'REMARK  Cluster: 14\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      53.223   6.621  18.878  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.589   6.234  19.406  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      53.418   7.618  17.735  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      52.505   5.378  18.388  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      55.360   7.412  19.929  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      54.649   5.215  20.519  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      52.063   8.070  17.144  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      54.349   8.781  18.112  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      51.347   5.695  17.511  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      56.578   6.701  20.503  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      55.649   8.318  18.752  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      54.602   8.182  21.008  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      55.988   5.473  21.195  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      51.134   6.895  16.956  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      52.348   8.732  15.793  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      51.368   9.087  18.050  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      57.567   7.587  21.290  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      49.947   7.099  16.070  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      51.112   8.973  14.951  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      57.780   7.298  22.776  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      58.930   7.415  20.656  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      50.372   7.673  14.735  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      56.726   7.851  23.725  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      49.217   7.924  13.944  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      56.579   9.333  23.587  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      55.297  10.020  23.893  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      56.404  10.068  24.817  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      54.113   9.306  24.451  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      55.016  11.284  23.159  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.614   7.067  19.666  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      55.156   5.814  18.569  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      53.954   7.073  16.956  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      52.152   4.802  19.247  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      53.197   4.739  17.833  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      54.581   4.193  20.137  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      53.831   5.368  21.229  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      53.854   9.476  18.792  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      54.599   9.361  17.222  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      50.653   4.889  17.305  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      57.119   6.319  19.633  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      56.244   7.778  18.011  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      56.234   9.184  19.073  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      56.657   4.615  21.089  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      55.809   5.620  22.260  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      53.034   8.103  15.219  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      52.851   9.691  15.945  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.301   8.635  21.152  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      49.238   7.777  16.553  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      49.394   6.168  15.902  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      51.394   9.406  13.987  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      50.453   9.702  15.430  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      58.735   7.738  23.076  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.883   6.223  22.927  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      51.008   6.963  14.197  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      57.019   7.606  24.750  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      55.775   7.350  23.541  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      57.259   9.776  22.876  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      54.397   8.470  25.095  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      53.487   8.922  23.642  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      53.509   9.997  25.046  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      49.514   8.445  13.179  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      58.905   7.776  19.629  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      59.229   6.363  20.656  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      59.688   7.991  21.193  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.426   7.580  21.901  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      53.628   8.549  20.685  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      55.175   9.062  21.297  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      51.271   8.711  19.072  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      50.364   9.339  17.699  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      51.925  10.027  18.087  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      54.514  11.063  22.214  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      55.936  11.834  22.937  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      54.359  11.929  23.747  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.139', True, 'REMARK  Energy: 237.538\nREMARK  SimpleFitness: 237.538\nREMARK  FullFitness: -840.5665\nREMARK  InterFull: -21.0105\nREMARK  IntraFull: 270.586\nREMARK  solvFull: -1264.81\nREMARK  surfFull: 174.668\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1264.81\nREMARK  deltaGcompsolvnonpol: 174.668\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.7848\nREMARK  deltaGligsolvnonpol: 13.3349\nREMARK  deltaGvdw: -21.0105\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.593127\nREMARK  Cluster: 14\nREMARK  ClusterRank: 5\n', 139), ({'deltaGligsolvpol': -4.7848, 'surfFull': 174.668, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.668, 'SimpleFitness': 237.538, 'InterFull': -21.0105, 'extraFull': 0.0, 'Energy': 237.538, 'solvFull': -1264.81, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 14, 'deltaGligsolvnonpol': 13.3349, 'deltaGcompsolvpol': -1264.81, 'FullFitness': -840.5665, 'deltaG': -6.593127, 'ClusterRank': 6, 'IntraFull': 270.586, 'deltaGvdw': -21.0105}, 'V', ['REMARK  Energy: 237.538\n', 'REMARK  SimpleFitness: 237.538\n', 'REMARK  FullFitness: -840.5665\n', 'REMARK  InterFull: -21.0105\n', 'REMARK  IntraFull: 270.586\n', 'REMARK  solvFull: -1264.81\n', 'REMARK  surfFull: 174.668\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1264.81\n', 'REMARK  deltaGcompsolvnonpol: 174.668\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.7848\n', 'REMARK  deltaGligsolvnonpol: 13.3349\n', 'REMARK  deltaGvdw: -21.0105\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.593127\n', 'REMARK  Cluster: 14\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      53.223   6.621  18.878  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.589   6.234  19.406  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      53.418   7.618  17.735  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      52.505   5.378  18.388  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      55.360   7.412  19.929  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      54.649   5.215  20.519  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      52.063   8.070  17.144  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      54.349   8.781  18.112  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      51.347   5.695  17.511  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      56.578   6.701  20.503  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      55.649   8.318  18.752  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      54.602   8.182  21.008  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      55.988   5.473  21.195  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      51.134   6.895  16.956  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      52.348   8.732  15.793  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      51.368   9.087  18.050  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      57.567   7.587  21.290  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      49.947   7.099  16.070  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      51.112   8.973  14.951  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      57.780   7.298  22.776  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      58.930   7.415  20.656  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      50.372   7.673  14.735  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      56.726   7.851  23.725  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      49.217   7.924  13.944  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      56.579   9.333  23.587  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      55.297  10.020  23.893  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      56.404  10.068  24.817  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      54.113   9.306  24.451  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      55.016  11.284  23.159  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.614   7.067  19.666  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      55.156   5.814  18.569  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      53.954   7.073  16.956  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      52.152   4.802  19.247  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      53.197   4.739  17.833  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      54.581   4.193  20.137  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      53.831   5.368  21.229  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      53.854   9.476  18.792  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      54.599   9.361  17.222  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      50.653   4.889  17.305  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      57.119   6.319  19.633  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      56.244   7.778  18.011  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      56.234   9.184  19.073  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      56.657   4.615  21.089  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      55.809   5.620  22.260  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      53.034   8.103  15.219  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      52.851   9.691  15.945  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.301   8.635  21.152  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      49.238   7.777  16.553  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      49.394   6.168  15.902  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      51.394   9.406  13.987  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      50.453   9.702  15.430  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      58.735   7.738  23.076  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.883   6.223  22.927  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      51.008   6.963  14.197  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      57.019   7.606  24.750  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      55.775   7.350  23.541  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      57.259   9.776  22.876  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      54.397   8.470  25.095  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      53.487   8.922  23.642  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      53.509   9.997  25.046  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      49.514   8.445  13.179  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      58.905   7.776  19.629  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      59.229   6.363  20.656  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      59.688   7.991  21.193  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.426   7.580  21.901  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      53.628   8.549  20.685  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      55.175   9.062  21.297  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      51.271   8.711  19.072  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      50.364   9.339  17.699  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      51.925  10.027  18.087  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      54.514  11.063  22.214  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      55.936  11.834  22.937  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      54.359  11.929  23.747  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.140', True, 'REMARK  Energy: 237.538\nREMARK  SimpleFitness: 237.538\nREMARK  FullFitness: -840.5665\nREMARK  InterFull: -21.0105\nREMARK  IntraFull: 270.586\nREMARK  solvFull: -1264.81\nREMARK  surfFull: 174.668\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1264.81\nREMARK  deltaGcompsolvnonpol: 174.668\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.7848\nREMARK  deltaGligsolvnonpol: 13.3349\nREMARK  deltaGvdw: -21.0105\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.593127\nREMARK  Cluster: 14\nREMARK  ClusterRank: 6\n', 140), ({'deltaGligsolvpol': -4.78793, 'surfFull': 174.691, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.691, 'SimpleFitness': 237.545, 'InterFull': -20.8776, 'extraFull': 0.0, 'Energy': 237.545, 'solvFull': -1264.81, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 14, 'deltaGligsolvnonpol': 13.3322, 'deltaGcompsolvpol': -1264.81, 'FullFitness': -840.5467, 'deltaG': -6.5779324, 'ClusterRank': 7, 'IntraFull': 270.45, 'deltaGvdw': -20.8776}, 'V', ['REMARK  Energy: 237.545\n', 'REMARK  SimpleFitness: 237.545\n', 'REMARK  FullFitness: -840.5467\n', 'REMARK  InterFull: -20.8776\n', 'REMARK  IntraFull: 270.45\n', 'REMARK  solvFull: -1264.81\n', 'REMARK  surfFull: 174.691\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1264.81\n', 'REMARK  deltaGcompsolvnonpol: 174.691\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.78793\n', 'REMARK  deltaGligsolvnonpol: 13.3322\n', 'REMARK  deltaGvdw: -20.8776\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.5779324\n', 'REMARK  Cluster: 14\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      53.227   6.595  18.890  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      54.598   6.222  19.415  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      53.408   7.593  17.746  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      52.517   5.345  18.404  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      55.361   7.409  19.930  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      54.671   5.208  20.531  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      52.047   8.032  17.160  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      54.332   8.764  18.113  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      51.355   5.651  17.529  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      56.588   6.710  20.501  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      55.638   8.312  18.748  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      54.601   8.176  21.009  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      56.013   5.477  21.197  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      51.129   6.848  16.974  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      52.322   8.700  15.810  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      51.345   9.040  18.072  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      57.572   7.608  21.280  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      49.937   7.043  16.092  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      51.081   8.932  14.974  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      57.796   7.324  22.766  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      58.934   7.450  20.641  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      50.351   7.626  14.757  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      56.735   7.862  23.716  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      49.190   7.870  13.973  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      56.573   9.343  23.585  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      55.287  10.013  23.911  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      56.406  10.071  24.820  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      54.121   9.278  24.478  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      54.980  11.277  23.190  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      52.617   7.037  19.681  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      55.164   5.803  18.576  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      53.944   7.051  16.965  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      52.170   4.769  19.266  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      53.214   4.710  17.849  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      54.607   4.184  20.154  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      53.857   5.359  21.246  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      53.835   9.458  18.792  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      54.574   9.341  17.219  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      50.668   4.838  17.326  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      57.130   6.330  19.629  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      56.232   7.772  18.006  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      56.219   9.183  19.062  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      56.688   4.624  21.087  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      55.840   5.623  22.264  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      53.010   8.077  15.232  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      52.817   9.662  15.961  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.293   8.652  21.142  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      49.222   7.712  16.579  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      49.393   6.107  15.923  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      51.356   9.369  14.009  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      50.418   9.655  15.458  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      58.745   7.780  23.062  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.916   6.250  22.916  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      50.990   6.923  14.214  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      57.027   7.613  24.740  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      55.790   7.353  23.526  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      57.232   9.795  22.861  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      54.426   8.452  25.127  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      53.500   8.875  23.675  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      53.506   9.960  25.072  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      49.477   8.402  13.212  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      58.899   7.806  19.612  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      59.249   6.403  20.645  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      59.687   8.041  21.171  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.428   7.575  21.903  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      53.624   8.537  20.686  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      55.169   9.061  21.297  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      51.257   8.660  19.093  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      50.336   9.282  17.726  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      51.892   9.985  18.108  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      54.474  11.057  22.247  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      55.889  11.844  22.967  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      54.317  11.905  23.789  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.141', True, 'REMARK  Energy: 237.545\nREMARK  SimpleFitness: 237.545\nREMARK  FullFitness: -840.5467\nREMARK  InterFull: -20.8776\nREMARK  IntraFull: 270.45\nREMARK  solvFull: -1264.81\nREMARK  surfFull: 174.691\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1264.81\nREMARK  deltaGcompsolvnonpol: 174.691\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.78793\nREMARK  deltaGligsolvnonpol: 13.3322\nREMARK  deltaGvdw: -20.8776\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.5779324\nREMARK  Cluster: 14\nREMARK  ClusterRank: 7\n', 141), ({'deltaGligsolvpol': -4.87707, 'surfFull': 170.616, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.616, 'SimpleFitness': 225.399, 'InterFull': -40.4576, 'extraFull': 0.0, 'Energy': 225.399, 'solvFull': -1243.11, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 15, 'deltaGligsolvnonpol': 12.5627, 'deltaGcompsolvpol': -1243.11, 'FullFitness': -840.0636, 'deltaG': -7.4094005, 'ClusterRank': 0, 'IntraFull': 272.888, 'deltaGvdw': -40.4576}, 'V', ['REMARK  Energy: 225.399\n', 'REMARK  SimpleFitness: 225.399\n', 'REMARK  FullFitness: -840.0636\n', 'REMARK  InterFull: -40.4576\n', 'REMARK  IntraFull: 272.888\n', 'REMARK  solvFull: -1243.11\n', 'REMARK  surfFull: 170.616\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1243.11\n', 'REMARK  deltaGcompsolvnonpol: 170.616\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.87707\n', 'REMARK  deltaGligsolvnonpol: 12.5627\n', 'REMARK  deltaGvdw: -40.4576\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.4094005\n', 'REMARK  Cluster: 15\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      78.462  -2.033  11.649  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.969  -0.827  10.883  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      77.165  -1.709  12.389  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.192  -3.233  10.758  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.232   0.353  11.794  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.249  -1.025  10.123  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      76.885  -2.837  13.420  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      77.091  -0.280  12.960  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.588  -4.349  11.548  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      80.072   1.298  10.906  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      77.832   0.806  12.171  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.017   0.008  13.061  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.821   0.361   9.962  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      77.036  -4.187  12.762  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      75.460  -2.692  13.945  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      77.831  -2.780  14.625  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      81.061   2.254  11.624  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      76.527  -5.362  13.535  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      74.997  -3.856  14.798  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      82.092   2.948  10.731  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      80.341   3.305  12.447  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.102  -5.142  14.007  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.519   3.837   9.645  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      74.713  -6.227  14.840  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.616   4.500   8.886  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.266   3.886   7.701  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      82.257   4.913   7.547  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.856   2.547   7.188  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      84.643   4.329   7.354  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      79.236  -2.344  12.351  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.210  -0.540  10.149  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      76.375  -1.748  11.632  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      79.129  -3.581  10.315  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.521  -2.959   9.940  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      80.090  -1.518   9.160  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      80.948  -1.624  10.703  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.468  -0.270  13.978  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      76.041   0.012  13.048  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      77.643  -5.343  11.121  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.381   1.885  10.302  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      77.267   1.043  11.265  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      77.872   1.721  12.766  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      80.707   0.703   8.929  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      81.891   0.317  10.179  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      74.780  -2.632  13.099  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      75.357  -1.767  14.517  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      81.687   1.684  12.312  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      77.173  -5.543  14.398  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      76.573  -6.283  12.947  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      73.960  -3.700  15.109  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      75.578  -3.930  15.722  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      82.764   2.214  10.281  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      82.733   3.563  11.370  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      74.421  -5.107  13.152  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.910   4.623  10.094  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.869   3.260   8.983  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      83.190   5.187   9.494  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.772   2.405   7.213  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      83.322   1.760   7.786  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      83.184   2.428   6.152  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.280  -6.187  15.629  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.689   2.860  13.200  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      79.735   3.966  11.827  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      81.081   3.908  12.973  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.020  -0.342  12.813  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.553  -0.756  13.679  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.118   0.871  13.720  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      78.877  -2.816  14.320  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      77.685  -3.611  15.320  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.679  -1.867  15.206  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      85.376   3.643   7.787  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      84.850   5.334   7.732  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      84.774   4.336   6.269  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.142', True, 'REMARK  Energy: 225.399\nREMARK  SimpleFitness: 225.399\nREMARK  FullFitness: -840.0636\nREMARK  InterFull: -40.4576\nREMARK  IntraFull: 272.888\nREMARK  solvFull: -1243.11\nREMARK  surfFull: 170.616\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1243.11\nREMARK  deltaGcompsolvnonpol: 170.616\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.87707\nREMARK  deltaGligsolvnonpol: 12.5627\nREMARK  deltaGvdw: -40.4576\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.4094005\nREMARK  Cluster: 15\nREMARK  ClusterRank: 0\n', 142), ({'deltaGligsolvpol': -4.87707, 'surfFull': 170.616, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.616, 'SimpleFitness': 225.399, 'InterFull': -40.4576, 'extraFull': 0.0, 'Energy': 225.399, 'solvFull': -1243.11, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 15, 'deltaGligsolvnonpol': 12.5627, 'deltaGcompsolvpol': -1243.11, 'FullFitness': -840.0636, 'deltaG': -7.4094005, 'ClusterRank': 1, 'IntraFull': 272.888, 'deltaGvdw': -40.4576}, 'V', ['REMARK  Energy: 225.399\n', 'REMARK  SimpleFitness: 225.399\n', 'REMARK  FullFitness: -840.0636\n', 'REMARK  InterFull: -40.4576\n', 'REMARK  IntraFull: 272.888\n', 'REMARK  solvFull: -1243.11\n', 'REMARK  surfFull: 170.616\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1243.11\n', 'REMARK  deltaGcompsolvnonpol: 170.616\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.87707\n', 'REMARK  deltaGligsolvnonpol: 12.5627\n', 'REMARK  deltaGvdw: -40.4576\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.4094005\n', 'REMARK  Cluster: 15\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      78.462  -2.033  11.649  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.969  -0.827  10.883  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      77.165  -1.709  12.389  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.192  -3.233  10.758  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.232   0.353  11.794  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.249  -1.025  10.123  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      76.885  -2.837  13.420  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      77.091  -0.280  12.960  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.588  -4.349  11.548  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      80.072   1.298  10.906  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      77.832   0.806  12.171  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.017   0.008  13.061  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.821   0.361   9.962  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      77.036  -4.187  12.762  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      75.460  -2.692  13.945  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      77.831  -2.780  14.625  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      81.061   2.254  11.624  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      76.527  -5.362  13.535  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      74.997  -3.856  14.798  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      82.092   2.948  10.731  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      80.341   3.305  12.447  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.102  -5.142  14.007  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.519   3.837   9.645  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      74.713  -6.227  14.840  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.616   4.500   8.886  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.266   3.886   7.701  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      82.257   4.913   7.547  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.856   2.547   7.188  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      84.643   4.329   7.354  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      79.236  -2.344  12.351  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.210  -0.540  10.149  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      76.375  -1.748  11.632  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      79.129  -3.581  10.315  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.521  -2.959   9.940  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      80.090  -1.518   9.160  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      80.948  -1.624  10.703  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.468  -0.270  13.978  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      76.041   0.012  13.048  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      77.643  -5.343  11.121  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.381   1.885  10.302  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      77.267   1.043  11.265  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      77.872   1.721  12.766  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      80.707   0.703   8.929  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      81.891   0.317  10.179  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      74.780  -2.632  13.099  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      75.357  -1.767  14.517  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      81.687   1.684  12.312  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      77.173  -5.543  14.398  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      76.573  -6.283  12.947  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      73.960  -3.700  15.109  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      75.578  -3.930  15.722  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      82.764   2.214  10.281  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      82.733   3.563  11.370  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      74.421  -5.107  13.152  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.910   4.623  10.094  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.869   3.260   8.983  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      83.190   5.187   9.494  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.772   2.405   7.213  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      83.322   1.760   7.786  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      83.184   2.428   6.152  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.280  -6.187  15.629  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.689   2.860  13.200  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      79.735   3.966  11.827  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      81.081   3.908  12.973  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.020  -0.342  12.813  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.553  -0.756  13.679  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.118   0.871  13.720  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      78.877  -2.816  14.320  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      77.685  -3.611  15.320  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.679  -1.867  15.206  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      85.376   3.643   7.787  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      84.850   5.334   7.732  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      84.774   4.336   6.269  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.143', True, 'REMARK  Energy: 225.399\nREMARK  SimpleFitness: 225.399\nREMARK  FullFitness: -840.0636\nREMARK  InterFull: -40.4576\nREMARK  IntraFull: 272.888\nREMARK  solvFull: -1243.11\nREMARK  surfFull: 170.616\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1243.11\nREMARK  deltaGcompsolvnonpol: 170.616\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.87707\nREMARK  deltaGligsolvnonpol: 12.5627\nREMARK  deltaGvdw: -40.4576\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.4094005\nREMARK  Cluster: 15\nREMARK  ClusterRank: 1\n', 143), ({'deltaGligsolvpol': -4.87707, 'surfFull': 170.616, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.616, 'SimpleFitness': 225.399, 'InterFull': -40.4576, 'extraFull': 0.0, 'Energy': 225.399, 'solvFull': -1243.11, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 15, 'deltaGligsolvnonpol': 12.5627, 'deltaGcompsolvpol': -1243.11, 'FullFitness': -840.0636, 'deltaG': -7.4094005, 'ClusterRank': 2, 'IntraFull': 272.888, 'deltaGvdw': -40.4576}, 'V', ['REMARK  Energy: 225.399\n', 'REMARK  SimpleFitness: 225.399\n', 'REMARK  FullFitness: -840.0636\n', 'REMARK  InterFull: -40.4576\n', 'REMARK  IntraFull: 272.888\n', 'REMARK  solvFull: -1243.11\n', 'REMARK  surfFull: 170.616\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1243.11\n', 'REMARK  deltaGcompsolvnonpol: 170.616\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.87707\n', 'REMARK  deltaGligsolvnonpol: 12.5627\n', 'REMARK  deltaGvdw: -40.4576\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.4094005\n', 'REMARK  Cluster: 15\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      78.462  -2.033  11.649  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.969  -0.827  10.883  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      77.165  -1.709  12.389  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.192  -3.233  10.758  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.232   0.353  11.794  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.249  -1.025  10.123  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      76.885  -2.837  13.420  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      77.091  -0.280  12.960  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.588  -4.349  11.548  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      80.072   1.298  10.906  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      77.832   0.806  12.171  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.017   0.008  13.061  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.821   0.361   9.962  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      77.036  -4.187  12.762  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      75.460  -2.692  13.945  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      77.831  -2.780  14.625  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      81.061   2.254  11.624  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      76.527  -5.362  13.535  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      74.997  -3.856  14.798  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      82.092   2.948  10.731  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      80.341   3.305  12.447  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.102  -5.142  14.007  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.519   3.837   9.645  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      74.713  -6.227  14.840  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.616   4.500   8.886  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.266   3.886   7.701  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      82.257   4.913   7.547  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.856   2.547   7.188  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      84.643   4.329   7.354  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      79.236  -2.344  12.351  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.210  -0.540  10.149  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      76.375  -1.748  11.632  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      79.129  -3.581  10.315  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.521  -2.959   9.940  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      80.090  -1.518   9.160  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      80.948  -1.624  10.703  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.468  -0.270  13.978  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      76.041   0.012  13.048  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      77.643  -5.343  11.121  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.381   1.885  10.302  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      77.267   1.043  11.265  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      77.872   1.721  12.766  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      80.707   0.703   8.929  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      81.891   0.317  10.179  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      74.780  -2.632  13.099  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      75.357  -1.767  14.517  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      81.687   1.684  12.312  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      77.173  -5.543  14.398  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      76.573  -6.283  12.947  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      73.960  -3.700  15.109  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      75.578  -3.930  15.722  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      82.764   2.214  10.281  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      82.733   3.563  11.370  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      74.421  -5.107  13.152  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.910   4.623  10.094  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.869   3.260   8.983  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      83.190   5.187   9.494  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.772   2.405   7.213  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      83.322   1.760   7.786  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      83.184   2.428   6.152  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.280  -6.187  15.629  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.689   2.860  13.200  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      79.735   3.966  11.827  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      81.081   3.908  12.973  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.020  -0.342  12.813  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.553  -0.756  13.679  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.118   0.871  13.720  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      78.877  -2.816  14.320  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      77.685  -3.611  15.320  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.679  -1.867  15.206  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      85.376   3.643   7.787  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      84.850   5.334   7.732  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      84.774   4.336   6.269  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.144', True, 'REMARK  Energy: 225.399\nREMARK  SimpleFitness: 225.399\nREMARK  FullFitness: -840.0636\nREMARK  InterFull: -40.4576\nREMARK  IntraFull: 272.888\nREMARK  solvFull: -1243.11\nREMARK  surfFull: 170.616\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1243.11\nREMARK  deltaGcompsolvnonpol: 170.616\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.87707\nREMARK  deltaGligsolvnonpol: 12.5627\nREMARK  deltaGvdw: -40.4576\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.4094005\nREMARK  Cluster: 15\nREMARK  ClusterRank: 2\n', 144), ({'deltaGligsolvpol': -4.87284, 'surfFull': 170.544, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.544, 'SimpleFitness': 225.111, 'InterFull': -40.6692, 'extraFull': 0.0, 'Energy': 225.111, 'solvFull': -1242.68, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 15, 'deltaGligsolvnonpol': 12.5604, 'deltaGcompsolvpol': -1242.68, 'FullFitness': -839.99927, 'deltaG': -7.4099574, 'ClusterRank': 3, 'IntraFull': 272.806, 'deltaGvdw': -40.6692}, 'V', ['REMARK  Energy: 225.111\n', 'REMARK  SimpleFitness: 225.111\n', 'REMARK  FullFitness: -839.99927\n', 'REMARK  InterFull: -40.6692\n', 'REMARK  IntraFull: 272.806\n', 'REMARK  solvFull: -1242.68\n', 'REMARK  surfFull: 170.544\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1242.68\n', 'REMARK  deltaGcompsolvnonpol: 170.544\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.87284\n', 'REMARK  deltaGligsolvnonpol: 12.5604\n', 'REMARK  deltaGvdw: -40.6692\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.4099574\n', 'REMARK  Cluster: 15\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      78.487  -2.027  11.618  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.997  -0.826  10.845  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      77.195  -1.692  12.361  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.211  -3.229  10.734  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.268   0.360  11.748  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.275  -1.032  10.085  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      76.911  -2.816  13.399  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      77.132  -0.261  12.928  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.604  -4.338  11.531  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      80.106   1.298  10.850  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      77.872   0.821  12.130  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.056   0.019  13.012  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.845   0.353   9.906  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      77.057  -4.169  12.746  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      75.489  -2.666  13.932  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      77.855  -2.751  14.603  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      81.109   2.253  11.551  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      76.548  -5.342  13.522  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      75.026  -3.831  14.785  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      82.119   2.948  10.631  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      80.407   3.303  12.394  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.124  -5.117  13.993  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.518   3.860   9.580  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      74.731  -6.203  14.825  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.589   4.493   8.760  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.102   3.905   7.499  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      82.145   4.989   7.477  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.574   2.621   6.952  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      84.468   4.294   7.056  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      79.263  -2.336  12.320  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.238  -0.541  10.111  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      76.402  -1.729  11.607  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      79.146  -3.584  10.291  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.540  -2.957   9.914  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      80.118  -1.537   9.127  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      80.977  -1.623  10.670  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.520  -0.250  13.941  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      76.085   0.037  13.027  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      77.654  -5.333  11.108  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.414   1.886  10.247  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      77.303   1.056  11.226  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      77.921   1.737  12.723  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      80.718   0.688   8.874  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      81.918   0.312  10.106  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      74.805  -2.600  13.091  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      75.396  -1.743  14.509  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      81.747   1.678  12.223  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      77.196  -5.521  14.385  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      76.591  -6.265  12.935  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      73.991  -3.672  15.101  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      75.611  -3.906  15.705  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      82.764   2.212  10.142  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      82.788   3.548  11.256  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      74.443  -5.079  13.137  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.959   4.664  10.062  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.814   3.311   8.953  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      83.244   5.124   9.349  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.485   2.553   7.032  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      83.013   1.774   7.485  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.836   2.531   5.895  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.307  -6.172  15.608  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.753   2.857  13.146  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      79.805   3.980  11.789  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      81.156   3.891  12.924  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.059  -0.329  12.766  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.594  -0.747  13.629  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.153   0.881  13.672  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      78.900  -2.750  14.298  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      77.735  -3.597  15.284  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.676  -1.853  15.197  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      85.194   3.540   7.368  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      84.769   5.256   7.483  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      84.502   4.377   5.967  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.145', True, 'REMARK  Energy: 225.111\nREMARK  SimpleFitness: 225.111\nREMARK  FullFitness: -839.99927\nREMARK  InterFull: -40.6692\nREMARK  IntraFull: 272.806\nREMARK  solvFull: -1242.68\nREMARK  surfFull: 170.544\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1242.68\nREMARK  deltaGcompsolvnonpol: 170.544\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.87284\nREMARK  deltaGligsolvnonpol: 12.5604\nREMARK  deltaGvdw: -40.6692\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.4099574\nREMARK  Cluster: 15\nREMARK  ClusterRank: 3\n', 145), ({'deltaGligsolvpol': -4.87284, 'surfFull': 170.544, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.544, 'SimpleFitness': 225.111, 'InterFull': -40.6692, 'extraFull': 0.0, 'Energy': 225.111, 'solvFull': -1242.68, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 15, 'deltaGligsolvnonpol': 12.5604, 'deltaGcompsolvpol': -1242.68, 'FullFitness': -839.99927, 'deltaG': -7.4099574, 'ClusterRank': 4, 'IntraFull': 272.806, 'deltaGvdw': -40.6692}, 'V', ['REMARK  Energy: 225.111\n', 'REMARK  SimpleFitness: 225.111\n', 'REMARK  FullFitness: -839.99927\n', 'REMARK  InterFull: -40.6692\n', 'REMARK  IntraFull: 272.806\n', 'REMARK  solvFull: -1242.68\n', 'REMARK  surfFull: 170.544\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1242.68\n', 'REMARK  deltaGcompsolvnonpol: 170.544\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.87284\n', 'REMARK  deltaGligsolvnonpol: 12.5604\n', 'REMARK  deltaGvdw: -40.6692\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.4099574\n', 'REMARK  Cluster: 15\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      78.487  -2.027  11.618  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.997  -0.826  10.845  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      77.195  -1.692  12.361  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.211  -3.229  10.734  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.268   0.360  11.748  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.275  -1.032  10.085  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      76.911  -2.816  13.399  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      77.132  -0.261  12.928  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.604  -4.338  11.531  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      80.106   1.298  10.850  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      77.872   0.821  12.130  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.056   0.019  13.012  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.845   0.353   9.906  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      77.057  -4.169  12.746  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      75.489  -2.666  13.932  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      77.855  -2.751  14.603  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      81.109   2.253  11.551  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      76.548  -5.342  13.522  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      75.026  -3.831  14.785  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      82.119   2.948  10.631  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      80.407   3.303  12.394  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.124  -5.117  13.993  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.518   3.860   9.580  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      74.731  -6.203  14.825  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.589   4.493   8.760  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.102   3.905   7.499  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      82.145   4.989   7.477  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.574   2.621   6.952  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      84.468   4.294   7.056  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      79.263  -2.336  12.320  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.238  -0.541  10.111  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      76.402  -1.729  11.607  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      79.146  -3.584  10.291  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.540  -2.957   9.914  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      80.118  -1.537   9.127  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      80.977  -1.623  10.670  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.520  -0.250  13.941  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      76.085   0.037  13.027  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      77.654  -5.333  11.108  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.414   1.886  10.247  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      77.303   1.056  11.226  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      77.921   1.737  12.723  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      80.718   0.688   8.874  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      81.918   0.312  10.106  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      74.805  -2.600  13.091  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      75.396  -1.743  14.509  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      81.747   1.678  12.223  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      77.196  -5.521  14.385  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      76.591  -6.265  12.935  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      73.991  -3.672  15.101  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      75.611  -3.906  15.705  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      82.764   2.212  10.142  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      82.788   3.548  11.256  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      74.443  -5.079  13.137  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.959   4.664  10.062  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.814   3.311   8.953  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      83.244   5.124   9.349  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.485   2.553   7.032  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      83.013   1.774   7.485  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.836   2.531   5.895  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.307  -6.172  15.608  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.753   2.857  13.146  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      79.805   3.980  11.789  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      81.156   3.891  12.924  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.059  -0.329  12.766  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.594  -0.747  13.629  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.153   0.881  13.672  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      78.900  -2.750  14.298  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      77.735  -3.597  15.284  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.676  -1.853  15.197  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      85.194   3.540   7.368  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      84.769   5.256   7.483  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      84.502   4.377   5.967  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.146', True, 'REMARK  Energy: 225.111\nREMARK  SimpleFitness: 225.111\nREMARK  FullFitness: -839.99927\nREMARK  InterFull: -40.6692\nREMARK  IntraFull: 272.806\nREMARK  solvFull: -1242.68\nREMARK  surfFull: 170.544\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1242.68\nREMARK  deltaGcompsolvnonpol: 170.544\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.87284\nREMARK  deltaGligsolvnonpol: 12.5604\nREMARK  deltaGvdw: -40.6692\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.4099574\nREMARK  Cluster: 15\nREMARK  ClusterRank: 4\n', 146), ({'deltaGligsolvpol': -4.87284, 'surfFull': 170.544, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.544, 'SimpleFitness': 225.111, 'InterFull': -40.6692, 'extraFull': 0.0, 'Energy': 225.111, 'solvFull': -1242.68, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 15, 'deltaGligsolvnonpol': 12.5604, 'deltaGcompsolvpol': -1242.68, 'FullFitness': -839.99927, 'deltaG': -7.4099574, 'ClusterRank': 5, 'IntraFull': 272.806, 'deltaGvdw': -40.6692}, 'V', ['REMARK  Energy: 225.111\n', 'REMARK  SimpleFitness: 225.111\n', 'REMARK  FullFitness: -839.99927\n', 'REMARK  InterFull: -40.6692\n', 'REMARK  IntraFull: 272.806\n', 'REMARK  solvFull: -1242.68\n', 'REMARK  surfFull: 170.544\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1242.68\n', 'REMARK  deltaGcompsolvnonpol: 170.544\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.87284\n', 'REMARK  deltaGligsolvnonpol: 12.5604\n', 'REMARK  deltaGvdw: -40.6692\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.4099574\n', 'REMARK  Cluster: 15\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      78.487  -2.027  11.618  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.997  -0.826  10.845  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      77.195  -1.692  12.361  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.211  -3.229  10.734  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.268   0.360  11.748  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.275  -1.032  10.085  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      76.911  -2.816  13.399  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      77.132  -0.261  12.928  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.604  -4.338  11.531  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      80.106   1.298  10.850  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      77.872   0.821  12.130  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.056   0.019  13.012  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.845   0.353   9.906  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      77.057  -4.169  12.746  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      75.489  -2.666  13.932  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      77.855  -2.751  14.603  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      81.109   2.253  11.551  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      76.548  -5.342  13.522  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      75.026  -3.831  14.785  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      82.119   2.948  10.631  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      80.407   3.303  12.394  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.124  -5.117  13.993  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.518   3.860   9.580  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      74.731  -6.203  14.825  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.589   4.493   8.760  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.102   3.905   7.499  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      82.145   4.989   7.477  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.574   2.621   6.952  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      84.468   4.294   7.056  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      79.263  -2.336  12.320  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.238  -0.541  10.111  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      76.402  -1.729  11.607  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      79.146  -3.584  10.291  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.540  -2.957   9.914  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      80.118  -1.537   9.127  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      80.977  -1.623  10.670  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.520  -0.250  13.941  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      76.085   0.037  13.027  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      77.654  -5.333  11.108  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.414   1.886  10.247  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      77.303   1.056  11.226  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      77.921   1.737  12.723  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      80.718   0.688   8.874  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      81.918   0.312  10.106  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      74.805  -2.600  13.091  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      75.396  -1.743  14.509  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      81.747   1.678  12.223  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      77.196  -5.521  14.385  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      76.591  -6.265  12.935  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      73.991  -3.672  15.101  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      75.611  -3.906  15.705  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      82.764   2.212  10.142  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      82.788   3.548  11.256  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      74.443  -5.079  13.137  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.959   4.664  10.062  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.814   3.311   8.953  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      83.244   5.124   9.349  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.485   2.553   7.032  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      83.013   1.774   7.485  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.836   2.531   5.895  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.307  -6.172  15.608  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.753   2.857  13.146  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      79.805   3.980  11.789  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      81.156   3.891  12.924  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.059  -0.329  12.766  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.594  -0.747  13.629  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.153   0.881  13.672  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      78.900  -2.750  14.298  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      77.735  -3.597  15.284  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.676  -1.853  15.197  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      85.194   3.540   7.368  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      84.769   5.256   7.483  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      84.502   4.377   5.967  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.147', True, 'REMARK  Energy: 225.111\nREMARK  SimpleFitness: 225.111\nREMARK  FullFitness: -839.99927\nREMARK  InterFull: -40.6692\nREMARK  IntraFull: 272.806\nREMARK  solvFull: -1242.68\nREMARK  surfFull: 170.544\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1242.68\nREMARK  deltaGcompsolvnonpol: 170.544\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.87284\nREMARK  deltaGligsolvnonpol: 12.5604\nREMARK  deltaGvdw: -40.6692\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.4099574\nREMARK  Cluster: 15\nREMARK  ClusterRank: 5\n', 147), ({'deltaGligsolvpol': -4.82252, 'surfFull': 170.538, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.538, 'SimpleFitness': 225.152, 'InterFull': -39.8373, 'extraFull': 0.0, 'Energy': 225.152, 'solvFull': -1242.86, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 15, 'deltaGligsolvnonpol': 12.5529, 'deltaGcompsolvpol': -1242.86, 'FullFitness': -839.5842, 'deltaG': -7.3452106, 'ClusterRank': 6, 'IntraFull': 272.575, 'deltaGvdw': -39.8373}, 'V', ['REMARK  Energy: 225.152\n', 'REMARK  SimpleFitness: 225.152\n', 'REMARK  FullFitness: -839.5842\n', 'REMARK  InterFull: -39.8373\n', 'REMARK  IntraFull: 272.575\n', 'REMARK  solvFull: -1242.86\n', 'REMARK  surfFull: 170.538\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1242.86\n', 'REMARK  deltaGcompsolvnonpol: 170.538\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82252\n', 'REMARK  deltaGligsolvnonpol: 12.5529\n', 'REMARK  deltaGvdw: -39.8373\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.3452106\n', 'REMARK  Cluster: 15\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      78.469  -2.031  11.597  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.975  -0.832  10.820  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      77.181  -1.694  12.345  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.190  -3.236  10.716  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.261   0.352  11.721  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.240  -1.048  10.041  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      76.903  -2.817  13.384  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      77.123  -0.261  12.909  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.582  -4.343  11.516  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      80.099   1.282  10.815  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      77.871   0.820  12.116  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.054   0.009  12.982  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.828   0.330   9.869  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      77.039  -4.172  12.731  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      75.485  -2.662  13.925  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      77.858  -2.758  14.581  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      81.112   2.233  11.507  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      76.525  -5.340  13.512  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      75.027  -3.817  14.792  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      82.127   2.912  10.582  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      80.426   3.299  12.342  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.108  -5.103  13.999  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.542   3.838   9.535  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      74.713  -6.185  14.835  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.629   4.467   8.730  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.144   3.887   7.464  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      82.199   4.983   7.450  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.604   2.609   6.920  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      84.513   4.263   7.018  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      79.247  -2.339  12.295  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.207  -0.542  10.097  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      76.385  -1.733  11.595  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      79.123  -3.593  10.273  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.518  -2.965   9.897  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      80.056  -1.538   9.081  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      80.940  -1.659  10.608  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.503  -0.250  13.927  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      76.076   0.041  12.999  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      77.628  -5.339  11.093  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.407   1.873  10.214  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      77.300   1.070  11.218  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      77.933   1.731  12.716  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      80.712   0.669   8.836  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      81.898   0.272  10.080  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      74.796  -2.609  13.086  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      75.392  -1.731  14.490  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      81.748   1.659  12.182  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      77.180  -5.527  14.368  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      76.554  -6.263  12.926  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      73.998  -3.651  15.122  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      75.626  -3.894  15.703  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      82.763   2.172  10.090  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      82.804   3.498  11.209  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      74.418  -5.059  13.151  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.989   4.644  10.022  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.838   3.296   8.900  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      83.287   5.083   9.328  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.512   2.566   6.978  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      83.015   1.762   7.476  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.889   2.504   5.870  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      73.920  -5.887  15.310  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.846   2.869  13.160  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      79.755   3.914  11.744  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      81.182   3.947  12.784  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.049  -0.356  12.729  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.584  -0.744  13.609  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.170   0.875  13.633  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      78.900  -2.777  14.266  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      77.730  -3.597  15.269  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.698  -1.852  15.169  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      85.228   3.491   7.314  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      84.835   5.214   7.454  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      84.539   4.360   5.929  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.148', True, 'REMARK  Energy: 225.152\nREMARK  SimpleFitness: 225.152\nREMARK  FullFitness: -839.5842\nREMARK  InterFull: -39.8373\nREMARK  IntraFull: 272.575\nREMARK  solvFull: -1242.86\nREMARK  surfFull: 170.538\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1242.86\nREMARK  deltaGcompsolvnonpol: 170.538\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82252\nREMARK  deltaGligsolvnonpol: 12.5529\nREMARK  deltaGvdw: -39.8373\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.3452106\nREMARK  Cluster: 15\nREMARK  ClusterRank: 6\n', 148), ({'deltaGligsolvpol': -4.82252, 'surfFull': 170.538, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.538, 'SimpleFitness': 225.152, 'InterFull': -39.8373, 'extraFull': 0.0, 'Energy': 225.152, 'solvFull': -1242.86, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 15, 'deltaGligsolvnonpol': 12.5529, 'deltaGcompsolvpol': -1242.86, 'FullFitness': -839.5842, 'deltaG': -7.3452106, 'ClusterRank': 7, 'IntraFull': 272.575, 'deltaGvdw': -39.8373}, 'V', ['REMARK  Energy: 225.152\n', 'REMARK  SimpleFitness: 225.152\n', 'REMARK  FullFitness: -839.5842\n', 'REMARK  InterFull: -39.8373\n', 'REMARK  IntraFull: 272.575\n', 'REMARK  solvFull: -1242.86\n', 'REMARK  surfFull: 170.538\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1242.86\n', 'REMARK  deltaGcompsolvnonpol: 170.538\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82252\n', 'REMARK  deltaGligsolvnonpol: 12.5529\n', 'REMARK  deltaGvdw: -39.8373\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.3452106\n', 'REMARK  Cluster: 15\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      78.469  -2.031  11.597  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.975  -0.832  10.820  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      77.181  -1.694  12.345  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.190  -3.236  10.716  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.261   0.352  11.721  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.240  -1.048  10.041  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      76.903  -2.817  13.384  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      77.123  -0.261  12.909  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.582  -4.343  11.516  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      80.099   1.282  10.815  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      77.871   0.820  12.116  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.054   0.009  12.982  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.828   0.330   9.869  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      77.039  -4.172  12.731  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      75.485  -2.662  13.925  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      77.858  -2.758  14.581  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      81.112   2.233  11.507  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      76.525  -5.340  13.512  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      75.027  -3.817  14.792  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      82.127   2.912  10.582  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      80.426   3.299  12.342  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.108  -5.103  13.999  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.542   3.838   9.535  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      74.713  -6.185  14.835  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.629   4.467   8.730  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.144   3.887   7.464  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      82.199   4.983   7.450  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.604   2.609   6.920  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      84.513   4.263   7.018  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      79.247  -2.339  12.295  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.207  -0.542  10.097  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      76.385  -1.733  11.595  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      79.123  -3.593  10.273  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.518  -2.965   9.897  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      80.056  -1.538   9.081  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      80.940  -1.659  10.608  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.503  -0.250  13.927  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      76.076   0.041  12.999  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      77.628  -5.339  11.093  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.407   1.873  10.214  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      77.300   1.070  11.218  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      77.933   1.731  12.716  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      80.712   0.669   8.836  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      81.898   0.272  10.080  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      74.796  -2.609  13.086  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      75.392  -1.731  14.490  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      81.748   1.659  12.182  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      77.180  -5.527  14.368  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      76.554  -6.263  12.926  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      73.998  -3.651  15.122  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      75.626  -3.894  15.703  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      82.763   2.172  10.090  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      82.804   3.498  11.209  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      74.418  -5.059  13.151  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.989   4.644  10.022  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.838   3.296   8.900  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      83.287   5.083   9.328  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.512   2.566   6.978  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      83.015   1.762   7.476  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.889   2.504   5.870  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      73.920  -5.887  15.310  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.846   2.869  13.160  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      79.755   3.914  11.744  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      81.182   3.947  12.784  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.049  -0.356  12.729  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.584  -0.744  13.609  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.170   0.875  13.633  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      78.900  -2.777  14.266  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      77.730  -3.597  15.269  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.698  -1.852  15.169  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      85.228   3.491   7.314  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      84.835   5.214   7.454  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      84.539   4.360   5.929  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.149', True, 'REMARK  Energy: 225.152\nREMARK  SimpleFitness: 225.152\nREMARK  FullFitness: -839.5842\nREMARK  InterFull: -39.8373\nREMARK  IntraFull: 272.575\nREMARK  solvFull: -1242.86\nREMARK  surfFull: 170.538\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1242.86\nREMARK  deltaGcompsolvnonpol: 170.538\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82252\nREMARK  deltaGligsolvnonpol: 12.5529\nREMARK  deltaGvdw: -39.8373\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.3452106\nREMARK  Cluster: 15\nREMARK  ClusterRank: 7\n', 149), ({'deltaGligsolvpol': -4.70199, 'surfFull': 175.088, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 175.088, 'SimpleFitness': 235.334, 'InterFull': -24.9678, 'extraFull': 0.0, 'Energy': 235.334, 'solvFull': -1260.0, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 16, 'deltaGligsolvnonpol': 12.5589, 'deltaGcompsolvpol': -1260.0, 'FullFitness': -839.9188, 'deltaG': -6.565038, 'ClusterRank': 0, 'IntraFull': 269.961, 'deltaGvdw': -24.9678}, 'V', ['REMARK  Energy: 235.334\n', 'REMARK  SimpleFitness: 235.334\n', 'REMARK  FullFitness: -839.9188\n', 'REMARK  InterFull: -24.9678\n', 'REMARK  IntraFull: 269.961\n', 'REMARK  solvFull: -1260.0\n', 'REMARK  surfFull: 175.088\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1260.0\n', 'REMARK  deltaGcompsolvnonpol: 175.088\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.70199\n', 'REMARK  deltaGligsolvnonpol: 12.5589\n', 'REMARK  deltaGvdw: -24.9678\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.565038\n', 'REMARK  Cluster: 16\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      58.664  -3.666  26.046  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      59.822  -2.748  26.421  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      59.168  -5.109  26.036  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      57.556  -3.525  27.077  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      61.009  -2.808  25.485  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      59.542  -1.272  26.587  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      58.053  -6.131  25.690  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      60.420  -5.241  25.165  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      56.572  -4.642  27.044  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      61.895  -1.742  26.164  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      61.506  -4.246  25.550  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      60.639  -2.436  24.047  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      60.919  -0.628  26.538  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      56.772  -5.810  26.417  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      58.533  -7.519  26.132  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      57.766  -6.164  24.187  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.221  -1.222  25.557  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      55.717  -6.876  26.447  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      57.464  -8.596  26.073  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.182  -2.370  25.296  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.110  -0.340  24.317  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      56.280  -8.201  26.928  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      65.629  -1.925  25.213  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.279  -9.209  26.828  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.489  -3.076  24.808  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      67.896  -3.218  25.241  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      66.844  -3.988  25.867  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      68.535  -2.259  26.181  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      68.809  -3.987  24.347  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      58.267  -3.403  25.063  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      60.174  -3.094  27.398  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      59.487  -5.320  27.060  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      57.030  -2.580  26.912  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      57.990  -3.482  28.081  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      59.038  -1.051  27.531  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      58.918  -0.894  25.772  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      60.175  -5.104  24.110  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      60.832  -6.248  25.258  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      55.639  -4.489  27.573  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      62.196  -2.196  27.113  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      61.844  -4.466  26.567  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      62.361  -4.384  24.885  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      61.190  -0.199  27.506  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      60.904   0.192  25.818  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      58.895  -7.463  27.163  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      59.378  -7.840  25.519  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      63.674  -0.592  26.329  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      55.294  -7.006  25.446  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      54.869  -6.598  27.084  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.866  -9.550  26.425  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      57.140  -8.771  25.043  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      63.899  -2.880  24.372  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      64.098  -3.103  26.103  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      56.582  -8.130  27.977  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.925  -1.510  26.180  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.749  -1.133  24.471  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      66.196  -3.516  23.865  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.856  -1.945  26.978  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      68.869  -1.371  25.642  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      69.401  -2.724  26.657  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.717 -10.059  27.004  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.372   0.455  24.439  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      62.847  -0.924  23.433  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      64.064   0.149  24.103  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      60.366  -1.383  23.946  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      59.804  -3.020  23.658  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      61.486  -2.622  23.384  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      57.555  -5.164  23.801  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      56.909  -6.796  23.938  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      58.614  -6.572  23.632  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      69.537  -4.547  24.940  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      69.347  -3.309  23.683  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      68.265  -4.693  23.713  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.150', True, 'REMARK  Energy: 235.334\nREMARK  SimpleFitness: 235.334\nREMARK  FullFitness: -839.9188\nREMARK  InterFull: -24.9678\nREMARK  IntraFull: 269.961\nREMARK  solvFull: -1260.0\nREMARK  surfFull: 175.088\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1260.0\nREMARK  deltaGcompsolvnonpol: 175.088\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.70199\nREMARK  deltaGligsolvnonpol: 12.5589\nREMARK  deltaGvdw: -24.9678\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.565038\nREMARK  Cluster: 16\nREMARK  ClusterRank: 0\n', 150), ({'deltaGligsolvpol': -4.54656, 'surfFull': 174.913, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.913, 'SimpleFitness': 238.973, 'InterFull': -24.7606, 'extraFull': 0.0, 'Energy': 238.973, 'solvFull': -1258.56, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 16, 'deltaGligsolvnonpol': 12.5997, 'deltaGcompsolvpol': -1258.56, 'FullFitness': -835.08264, 'deltaG': -6.48724, 'ClusterRank': 1, 'IntraFull': 273.325, 'deltaGvdw': -24.7606}, 'V', ['REMARK  Energy: 238.973\n', 'REMARK  SimpleFitness: 238.973\n', 'REMARK  FullFitness: -835.08264\n', 'REMARK  InterFull: -24.7606\n', 'REMARK  IntraFull: 273.325\n', 'REMARK  solvFull: -1258.56\n', 'REMARK  surfFull: 174.913\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.56\n', 'REMARK  deltaGcompsolvnonpol: 174.913\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.54656\n', 'REMARK  deltaGligsolvnonpol: 12.5997\n', 'REMARK  deltaGvdw: -24.7606\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.48724\n', 'REMARK  Cluster: 16\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      59.335  -3.896  26.268  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      60.398  -2.839  26.499  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      59.998  -5.263  26.397  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      58.249  -3.740  27.318  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      61.554  -2.876  25.528  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      59.957  -1.396  26.525  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      58.991  -6.418  26.213  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      61.218  -5.368  25.482  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      57.412  -4.956  27.488  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      62.333  -1.667  26.079  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      62.205  -4.239  25.705  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      61.112  -2.689  24.075  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      61.251  -0.623  26.341  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      57.724  -6.157  26.987  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.657  -7.694  26.735  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      58.628  -6.617  24.740  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.600  -1.096  25.406  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.807  -7.319  27.203  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      58.712  -8.870  26.867  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.637  -2.187  25.214  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.387  -0.344  24.097  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      57.558  -8.504  27.772  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.056  -1.671  25.056  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      56.675  -9.616  27.864  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.915  -2.664  24.350  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      68.020  -3.444  24.957  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      66.698  -4.004  24.830  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      68.456  -3.215  26.363  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      69.008  -4.060  24.028  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      58.886  -3.784  25.278  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      60.812  -3.041  27.492  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.377  -5.323  27.422  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      57.602  -2.904  27.041  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      58.697  -3.495  28.285  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      59.471  -1.135  27.468  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      59.264  -1.180  25.707  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      60.919  -5.368  24.433  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      61.741  -6.311  25.653  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      56.496  -4.844  28.056  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      62.677  -1.989  27.066  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      62.617  -4.319  26.715  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.030  -4.363  25.000  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      61.494  -0.039  27.232  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      61.123   0.076  25.514  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      60.096  -7.498  27.718  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      60.476  -7.989  26.074  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      64.016  -0.372  26.112  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      56.342  -7.603  26.256  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      55.977  -7.065  27.872  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      59.243  -9.736  27.274  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      58.338  -9.180  25.888  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      64.355  -2.784  24.346  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      64.621  -2.857  26.078  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.929  -8.274  28.775  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      66.448  -1.440  26.047  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      66.076  -0.746  24.479  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      66.965  -2.504  23.284  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.606  -3.060  27.034  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      69.104  -2.337  26.420  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      69.018  -4.079  26.727  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      57.231 -10.397  28.019  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.621   0.428  24.190  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      63.100  -1.020  23.290  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      64.306   0.157  23.784  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      60.717  -1.688  23.884  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      60.343  -3.400  23.771  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      61.963  -2.841  23.407  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      58.280  -5.684  24.289  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      57.837  -7.360  24.605  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      59.485  -6.971  24.163  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      69.786  -4.586  24.588  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      69.478  -3.289  23.416  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      68.539  -4.777  23.347  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.151', True, 'REMARK  Energy: 238.973\nREMARK  SimpleFitness: 238.973\nREMARK  FullFitness: -835.08264\nREMARK  InterFull: -24.7606\nREMARK  IntraFull: 273.325\nREMARK  solvFull: -1258.56\nREMARK  surfFull: 174.913\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.56\nREMARK  deltaGcompsolvnonpol: 174.913\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.54656\nREMARK  deltaGligsolvnonpol: 12.5997\nREMARK  deltaGvdw: -24.7606\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.48724\nREMARK  Cluster: 16\nREMARK  ClusterRank: 1\n', 151), ({'deltaGligsolvpol': -4.54656, 'surfFull': 174.913, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.913, 'SimpleFitness': 238.973, 'InterFull': -24.7606, 'extraFull': 0.0, 'Energy': 238.973, 'solvFull': -1258.56, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 16, 'deltaGligsolvnonpol': 12.5997, 'deltaGcompsolvpol': -1258.56, 'FullFitness': -835.08264, 'deltaG': -6.48724, 'ClusterRank': 2, 'IntraFull': 273.325, 'deltaGvdw': -24.7606}, 'V', ['REMARK  Energy: 238.973\n', 'REMARK  SimpleFitness: 238.973\n', 'REMARK  FullFitness: -835.08264\n', 'REMARK  InterFull: -24.7606\n', 'REMARK  IntraFull: 273.325\n', 'REMARK  solvFull: -1258.56\n', 'REMARK  surfFull: 174.913\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.56\n', 'REMARK  deltaGcompsolvnonpol: 174.913\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.54656\n', 'REMARK  deltaGligsolvnonpol: 12.5997\n', 'REMARK  deltaGvdw: -24.7606\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.48724\n', 'REMARK  Cluster: 16\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      59.335  -3.896  26.268  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      60.398  -2.839  26.499  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      59.998  -5.263  26.397  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      58.249  -3.740  27.318  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      61.554  -2.876  25.528  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      59.957  -1.396  26.525  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      58.991  -6.418  26.213  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      61.218  -5.368  25.482  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      57.412  -4.956  27.488  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      62.333  -1.667  26.079  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      62.205  -4.239  25.705  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      61.112  -2.689  24.075  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      61.251  -0.623  26.341  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      57.724  -6.157  26.987  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.657  -7.694  26.735  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      58.628  -6.617  24.740  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.600  -1.096  25.406  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.807  -7.319  27.203  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      58.712  -8.870  26.867  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.637  -2.187  25.214  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.387  -0.344  24.097  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      57.558  -8.504  27.772  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.056  -1.671  25.056  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      56.675  -9.616  27.864  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.915  -2.664  24.350  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      68.020  -3.444  24.957  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      66.698  -4.004  24.830  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      68.456  -3.215  26.363  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      69.008  -4.060  24.028  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      58.886  -3.784  25.278  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      60.812  -3.041  27.492  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.377  -5.323  27.422  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      57.602  -2.904  27.041  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      58.697  -3.495  28.285  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      59.471  -1.135  27.468  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      59.264  -1.180  25.707  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      60.919  -5.368  24.433  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      61.741  -6.311  25.653  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      56.496  -4.844  28.056  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      62.677  -1.989  27.066  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      62.617  -4.319  26.715  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.030  -4.363  25.000  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      61.494  -0.039  27.232  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      61.123   0.076  25.514  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      60.096  -7.498  27.718  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      60.476  -7.989  26.074  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      64.016  -0.372  26.112  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      56.342  -7.603  26.256  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      55.977  -7.065  27.872  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      59.243  -9.736  27.274  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      58.338  -9.180  25.888  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      64.355  -2.784  24.346  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      64.621  -2.857  26.078  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.929  -8.274  28.775  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      66.448  -1.440  26.047  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      66.076  -0.746  24.479  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      66.965  -2.504  23.284  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.606  -3.060  27.034  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      69.104  -2.337  26.420  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      69.018  -4.079  26.727  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      57.231 -10.397  28.019  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.621   0.428  24.190  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      63.100  -1.020  23.290  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      64.306   0.157  23.784  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      60.717  -1.688  23.884  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      60.343  -3.400  23.771  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      61.963  -2.841  23.407  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      58.280  -5.684  24.289  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      57.837  -7.360  24.605  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      59.485  -6.971  24.163  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      69.786  -4.586  24.588  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      69.478  -3.289  23.416  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      68.539  -4.777  23.347  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.152', True, 'REMARK  Energy: 238.973\nREMARK  SimpleFitness: 238.973\nREMARK  FullFitness: -835.08264\nREMARK  InterFull: -24.7606\nREMARK  IntraFull: 273.325\nREMARK  solvFull: -1258.56\nREMARK  surfFull: 174.913\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.56\nREMARK  deltaGcompsolvnonpol: 174.913\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.54656\nREMARK  deltaGligsolvnonpol: 12.5997\nREMARK  deltaGvdw: -24.7606\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.48724\nREMARK  Cluster: 16\nREMARK  ClusterRank: 2\n', 152), ({'deltaGligsolvpol': -4.54656, 'surfFull': 174.913, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.913, 'SimpleFitness': 238.973, 'InterFull': -24.7606, 'extraFull': 0.0, 'Energy': 238.973, 'solvFull': -1258.56, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 16, 'deltaGligsolvnonpol': 12.5997, 'deltaGcompsolvpol': -1258.56, 'FullFitness': -835.08264, 'deltaG': -6.48724, 'ClusterRank': 3, 'IntraFull': 273.325, 'deltaGvdw': -24.7606}, 'V', ['REMARK  Energy: 238.973\n', 'REMARK  SimpleFitness: 238.973\n', 'REMARK  FullFitness: -835.08264\n', 'REMARK  InterFull: -24.7606\n', 'REMARK  IntraFull: 273.325\n', 'REMARK  solvFull: -1258.56\n', 'REMARK  surfFull: 174.913\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.56\n', 'REMARK  deltaGcompsolvnonpol: 174.913\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.54656\n', 'REMARK  deltaGligsolvnonpol: 12.5997\n', 'REMARK  deltaGvdw: -24.7606\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.48724\n', 'REMARK  Cluster: 16\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      59.335  -3.896  26.268  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      60.398  -2.839  26.499  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      59.998  -5.263  26.397  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      58.249  -3.740  27.318  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      61.554  -2.876  25.528  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      59.957  -1.396  26.525  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      58.991  -6.418  26.213  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      61.218  -5.368  25.482  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      57.412  -4.956  27.488  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      62.333  -1.667  26.079  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      62.205  -4.239  25.705  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      61.112  -2.689  24.075  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      61.251  -0.623  26.341  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      57.724  -6.157  26.987  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.657  -7.694  26.735  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      58.628  -6.617  24.740  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.600  -1.096  25.406  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.807  -7.319  27.203  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      58.712  -8.870  26.867  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.637  -2.187  25.214  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.387  -0.344  24.097  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      57.558  -8.504  27.772  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.056  -1.671  25.056  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      56.675  -9.616  27.864  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.915  -2.664  24.350  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      68.020  -3.444  24.957  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      66.698  -4.004  24.830  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      68.456  -3.215  26.363  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      69.008  -4.060  24.028  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      58.886  -3.784  25.278  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      60.812  -3.041  27.492  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.377  -5.323  27.422  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      57.602  -2.904  27.041  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      58.697  -3.495  28.285  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      59.471  -1.135  27.468  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      59.264  -1.180  25.707  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      60.919  -5.368  24.433  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      61.741  -6.311  25.653  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      56.496  -4.844  28.056  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      62.677  -1.989  27.066  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      62.617  -4.319  26.715  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.030  -4.363  25.000  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      61.494  -0.039  27.232  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      61.123   0.076  25.514  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      60.096  -7.498  27.718  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      60.476  -7.989  26.074  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      64.016  -0.372  26.112  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      56.342  -7.603  26.256  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      55.977  -7.065  27.872  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      59.243  -9.736  27.274  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      58.338  -9.180  25.888  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      64.355  -2.784  24.346  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      64.621  -2.857  26.078  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.929  -8.274  28.775  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      66.448  -1.440  26.047  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      66.076  -0.746  24.479  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      66.965  -2.504  23.284  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.606  -3.060  27.034  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      69.104  -2.337  26.420  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      69.018  -4.079  26.727  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      57.231 -10.397  28.019  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.621   0.428  24.190  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      63.100  -1.020  23.290  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      64.306   0.157  23.784  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      60.717  -1.688  23.884  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      60.343  -3.400  23.771  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      61.963  -2.841  23.407  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      58.280  -5.684  24.289  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      57.837  -7.360  24.605  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      59.485  -6.971  24.163  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      69.786  -4.586  24.588  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      69.478  -3.289  23.416  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      68.539  -4.777  23.347  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.153', True, 'REMARK  Energy: 238.973\nREMARK  SimpleFitness: 238.973\nREMARK  FullFitness: -835.08264\nREMARK  InterFull: -24.7606\nREMARK  IntraFull: 273.325\nREMARK  solvFull: -1258.56\nREMARK  surfFull: 174.913\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.56\nREMARK  deltaGcompsolvnonpol: 174.913\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.54656\nREMARK  deltaGligsolvnonpol: 12.5997\nREMARK  deltaGvdw: -24.7606\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.48724\nREMARK  Cluster: 16\nREMARK  ClusterRank: 3\n', 153), ({'deltaGligsolvpol': -4.54656, 'surfFull': 174.913, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.913, 'SimpleFitness': 238.973, 'InterFull': -24.7606, 'extraFull': 0.0, 'Energy': 238.973, 'solvFull': -1258.56, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 16, 'deltaGligsolvnonpol': 12.5997, 'deltaGcompsolvpol': -1258.56, 'FullFitness': -835.08264, 'deltaG': -6.48724, 'ClusterRank': 4, 'IntraFull': 273.325, 'deltaGvdw': -24.7606}, 'V', ['REMARK  Energy: 238.973\n', 'REMARK  SimpleFitness: 238.973\n', 'REMARK  FullFitness: -835.08264\n', 'REMARK  InterFull: -24.7606\n', 'REMARK  IntraFull: 273.325\n', 'REMARK  solvFull: -1258.56\n', 'REMARK  surfFull: 174.913\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.56\n', 'REMARK  deltaGcompsolvnonpol: 174.913\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.54656\n', 'REMARK  deltaGligsolvnonpol: 12.5997\n', 'REMARK  deltaGvdw: -24.7606\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.48724\n', 'REMARK  Cluster: 16\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      59.335  -3.896  26.268  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      60.398  -2.839  26.499  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      59.998  -5.263  26.397  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      58.249  -3.740  27.318  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      61.554  -2.876  25.528  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      59.957  -1.396  26.525  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      58.991  -6.418  26.213  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      61.218  -5.368  25.482  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      57.412  -4.956  27.488  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      62.333  -1.667  26.079  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      62.205  -4.239  25.705  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      61.112  -2.689  24.075  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      61.251  -0.623  26.341  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      57.724  -6.157  26.987  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.657  -7.694  26.735  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      58.628  -6.617  24.740  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.600  -1.096  25.406  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.807  -7.319  27.203  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      58.712  -8.870  26.867  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.637  -2.187  25.214  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.387  -0.344  24.097  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      57.558  -8.504  27.772  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.056  -1.671  25.056  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      56.675  -9.616  27.864  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.915  -2.664  24.350  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      68.020  -3.444  24.957  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      66.698  -4.004  24.830  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      68.456  -3.215  26.363  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      69.008  -4.060  24.028  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      58.886  -3.784  25.278  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      60.812  -3.041  27.492  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.377  -5.323  27.422  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      57.602  -2.904  27.041  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      58.697  -3.495  28.285  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      59.471  -1.135  27.468  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      59.264  -1.180  25.707  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      60.919  -5.368  24.433  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      61.741  -6.311  25.653  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      56.496  -4.844  28.056  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      62.677  -1.989  27.066  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      62.617  -4.319  26.715  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.030  -4.363  25.000  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      61.494  -0.039  27.232  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      61.123   0.076  25.514  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      60.096  -7.498  27.718  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      60.476  -7.989  26.074  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      64.016  -0.372  26.112  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      56.342  -7.603  26.256  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      55.977  -7.065  27.872  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      59.243  -9.736  27.274  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      58.338  -9.180  25.888  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      64.355  -2.784  24.346  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      64.621  -2.857  26.078  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.929  -8.274  28.775  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      66.448  -1.440  26.047  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      66.076  -0.746  24.479  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      66.965  -2.504  23.284  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.606  -3.060  27.034  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      69.104  -2.337  26.420  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      69.018  -4.079  26.727  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      57.231 -10.397  28.019  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.621   0.428  24.190  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      63.100  -1.020  23.290  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      64.306   0.157  23.784  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      60.717  -1.688  23.884  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      60.343  -3.400  23.771  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      61.963  -2.841  23.407  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      58.280  -5.684  24.289  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      57.837  -7.360  24.605  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      59.485  -6.971  24.163  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      69.786  -4.586  24.588  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      69.478  -3.289  23.416  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      68.539  -4.777  23.347  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.154', True, 'REMARK  Energy: 238.973\nREMARK  SimpleFitness: 238.973\nREMARK  FullFitness: -835.08264\nREMARK  InterFull: -24.7606\nREMARK  IntraFull: 273.325\nREMARK  solvFull: -1258.56\nREMARK  surfFull: 174.913\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.56\nREMARK  deltaGcompsolvnonpol: 174.913\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.54656\nREMARK  deltaGligsolvnonpol: 12.5997\nREMARK  deltaGvdw: -24.7606\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.48724\nREMARK  Cluster: 16\nREMARK  ClusterRank: 4\n', 154), ({'deltaGligsolvpol': -4.53747, 'surfFull': 174.98, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.98, 'SimpleFitness': 239.525, 'InterFull': -24.1162, 'extraFull': 0.0, 'Energy': 239.525, 'solvFull': -1258.88, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 16, 'deltaGligsolvnonpol': 12.6001, 'deltaGcompsolvpol': -1258.88, 'FullFitness': -834.55023, 'deltaG': -6.440117, 'ClusterRank': 5, 'IntraFull': 273.466, 'deltaGvdw': -24.1162}, 'V', ['REMARK  Energy: 239.525\n', 'REMARK  SimpleFitness: 239.525\n', 'REMARK  FullFitness: -834.55023\n', 'REMARK  InterFull: -24.1162\n', 'REMARK  IntraFull: 273.466\n', 'REMARK  solvFull: -1258.88\n', 'REMARK  surfFull: 174.98\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.88\n', 'REMARK  deltaGcompsolvnonpol: 174.98\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.53747\n', 'REMARK  deltaGligsolvnonpol: 12.6001\n', 'REMARK  deltaGvdw: -24.1162\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.440117\n', 'REMARK  Cluster: 16\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      59.442  -3.994  26.384  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      60.472  -2.897  26.580  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      60.137  -5.336  26.588  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      58.335  -3.817  27.409  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      61.640  -2.948  25.624  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      59.989  -1.470  26.532  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      59.162  -6.525  26.441  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      61.376  -5.451  25.699  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      57.524  -5.044  27.618  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      62.379  -1.688  26.116  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      62.326  -4.282  25.880  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      61.210  -2.847  24.159  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      61.265  -0.669  26.346  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      57.874  -6.258  27.178  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.848  -7.758  27.034  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      58.834  -6.803  24.973  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.623  -1.106  25.405  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.980  -7.429  27.436  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      58.926  -8.946  27.218  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.671  -2.185  25.200  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.365  -0.373  24.092  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      57.751  -8.558  28.088  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.080  -1.658  24.988  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      56.896  -9.683  28.240  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.929  -2.658  24.280  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      68.016  -3.464  24.883  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      66.687  -4.002  24.740  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      68.447  -3.247  26.293  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      69.000  -4.084  23.954  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      59.007  -3.943  25.383  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      60.879  -3.039  27.587  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.499  -5.338  27.621  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      57.674  -3.008  27.087  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      58.761  -3.521  28.371  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      59.465  -1.180  27.446  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      59.314  -1.316  25.686  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      61.096  -5.513  24.646  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      61.923  -6.368  25.929  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      56.596  -4.930  28.164  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      62.742  -1.957  27.113  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      62.722  -4.298  26.899  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.167  -4.419  25.199  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      61.481  -0.065  27.231  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      61.126   0.017  25.509  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      60.271  -7.501  28.010  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      60.681  -8.068  26.399  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      64.042  -0.366  26.091  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      56.547  -7.777  26.494  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      56.128  -7.163  28.070  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      59.470  -9.776  27.678  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      58.570  -9.314  26.252  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      64.366  -2.805  24.355  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      64.692  -2.836  26.078  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      58.102  -8.258  29.080  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      66.500  -1.408  25.961  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      66.072  -0.746  24.389  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      66.997  -2.481  23.219  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.597  -3.069  26.957  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      69.117  -2.385  26.353  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      68.982  -4.126  26.661  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      57.463 -10.427  28.506  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.617   0.413  24.202  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      63.036  -1.057  23.308  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      64.276   0.110  23.731  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      60.790  -1.868  23.916  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      60.463  -3.594  23.884  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      62.072  -3.008  23.507  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      58.477  -5.901  24.467  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      58.062  -7.568  24.857  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      59.712  -7.168  24.435  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      69.720  -4.693  24.509  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      69.542  -3.311  23.406  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      68.511  -4.727  23.215  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.155', True, 'REMARK  Energy: 239.525\nREMARK  SimpleFitness: 239.525\nREMARK  FullFitness: -834.55023\nREMARK  InterFull: -24.1162\nREMARK  IntraFull: 273.466\nREMARK  solvFull: -1258.88\nREMARK  surfFull: 174.98\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.88\nREMARK  deltaGcompsolvnonpol: 174.98\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.53747\nREMARK  deltaGligsolvnonpol: 12.6001\nREMARK  deltaGvdw: -24.1162\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.440117\nREMARK  Cluster: 16\nREMARK  ClusterRank: 5\n', 155), ({'deltaGligsolvpol': -4.53747, 'surfFull': 174.98, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.98, 'SimpleFitness': 239.525, 'InterFull': -24.1162, 'extraFull': 0.0, 'Energy': 239.525, 'solvFull': -1258.88, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 16, 'deltaGligsolvnonpol': 12.6001, 'deltaGcompsolvpol': -1258.88, 'FullFitness': -834.55023, 'deltaG': -6.440117, 'ClusterRank': 6, 'IntraFull': 273.466, 'deltaGvdw': -24.1162}, 'V', ['REMARK  Energy: 239.525\n', 'REMARK  SimpleFitness: 239.525\n', 'REMARK  FullFitness: -834.55023\n', 'REMARK  InterFull: -24.1162\n', 'REMARK  IntraFull: 273.466\n', 'REMARK  solvFull: -1258.88\n', 'REMARK  surfFull: 174.98\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.88\n', 'REMARK  deltaGcompsolvnonpol: 174.98\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.53747\n', 'REMARK  deltaGligsolvnonpol: 12.6001\n', 'REMARK  deltaGvdw: -24.1162\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.440117\n', 'REMARK  Cluster: 16\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      59.442  -3.994  26.384  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      60.472  -2.897  26.580  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      60.137  -5.336  26.588  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      58.335  -3.817  27.409  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      61.640  -2.948  25.624  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      59.989  -1.470  26.532  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      59.162  -6.525  26.441  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      61.376  -5.451  25.699  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      57.524  -5.044  27.618  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      62.379  -1.688  26.116  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      62.326  -4.282  25.880  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      61.210  -2.847  24.159  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      61.265  -0.669  26.346  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      57.874  -6.258  27.178  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.848  -7.758  27.034  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      58.834  -6.803  24.973  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.623  -1.106  25.405  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.980  -7.429  27.436  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      58.926  -8.946  27.218  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.671  -2.185  25.200  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.365  -0.373  24.092  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      57.751  -8.558  28.088  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.080  -1.658  24.988  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      56.896  -9.683  28.240  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.929  -2.658  24.280  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      68.016  -3.464  24.883  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      66.687  -4.002  24.740  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      68.447  -3.247  26.293  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      69.000  -4.084  23.954  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      59.007  -3.943  25.383  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      60.879  -3.039  27.587  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.499  -5.338  27.621  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      57.674  -3.008  27.087  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      58.761  -3.521  28.371  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      59.465  -1.180  27.446  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      59.314  -1.316  25.686  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      61.096  -5.513  24.646  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      61.923  -6.368  25.929  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      56.596  -4.930  28.164  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      62.742  -1.957  27.113  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      62.722  -4.298  26.899  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.167  -4.419  25.199  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      61.481  -0.065  27.231  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      61.126   0.017  25.509  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      60.271  -7.501  28.010  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      60.681  -8.068  26.399  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      64.042  -0.366  26.091  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      56.547  -7.777  26.494  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      56.128  -7.163  28.070  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      59.470  -9.776  27.678  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      58.570  -9.314  26.252  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      64.366  -2.805  24.355  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      64.692  -2.836  26.078  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      58.102  -8.258  29.080  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      66.500  -1.408  25.961  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      66.072  -0.746  24.389  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      66.997  -2.481  23.219  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.597  -3.069  26.957  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      69.117  -2.385  26.353  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      68.982  -4.126  26.661  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      57.463 -10.427  28.506  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.617   0.413  24.202  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      63.036  -1.057  23.308  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      64.276   0.110  23.731  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      60.790  -1.868  23.916  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      60.463  -3.594  23.884  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      62.072  -3.008  23.507  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      58.477  -5.901  24.467  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      58.062  -7.568  24.857  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      59.712  -7.168  24.435  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      69.720  -4.693  24.509  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      69.542  -3.311  23.406  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      68.511  -4.727  23.215  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.156', True, 'REMARK  Energy: 239.525\nREMARK  SimpleFitness: 239.525\nREMARK  FullFitness: -834.55023\nREMARK  InterFull: -24.1162\nREMARK  IntraFull: 273.466\nREMARK  solvFull: -1258.88\nREMARK  surfFull: 174.98\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.88\nREMARK  deltaGcompsolvnonpol: 174.98\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.53747\nREMARK  deltaGligsolvnonpol: 12.6001\nREMARK  deltaGvdw: -24.1162\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.440117\nREMARK  Cluster: 16\nREMARK  ClusterRank: 6\n', 156), ({'deltaGligsolvpol': -4.53747, 'surfFull': 174.98, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.98, 'SimpleFitness': 239.525, 'InterFull': -24.1162, 'extraFull': 0.0, 'Energy': 239.525, 'solvFull': -1258.88, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 16, 'deltaGligsolvnonpol': 12.6001, 'deltaGcompsolvpol': -1258.88, 'FullFitness': -834.55023, 'deltaG': -6.440117, 'ClusterRank': 7, 'IntraFull': 273.466, 'deltaGvdw': -24.1162}, 'V', ['REMARK  Energy: 239.525\n', 'REMARK  SimpleFitness: 239.525\n', 'REMARK  FullFitness: -834.55023\n', 'REMARK  InterFull: -24.1162\n', 'REMARK  IntraFull: 273.466\n', 'REMARK  solvFull: -1258.88\n', 'REMARK  surfFull: 174.98\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.88\n', 'REMARK  deltaGcompsolvnonpol: 174.98\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.53747\n', 'REMARK  deltaGligsolvnonpol: 12.6001\n', 'REMARK  deltaGvdw: -24.1162\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.440117\n', 'REMARK  Cluster: 16\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      59.442  -3.994  26.384  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      60.472  -2.897  26.580  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      60.137  -5.336  26.588  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      58.335  -3.817  27.409  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      61.640  -2.948  25.624  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      59.989  -1.470  26.532  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      59.162  -6.525  26.441  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      61.376  -5.451  25.699  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      57.524  -5.044  27.618  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      62.379  -1.688  26.116  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      62.326  -4.282  25.880  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      61.210  -2.847  24.159  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      61.265  -0.669  26.346  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      57.874  -6.258  27.178  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.848  -7.758  27.034  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      58.834  -6.803  24.973  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.623  -1.106  25.405  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.980  -7.429  27.436  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      58.926  -8.946  27.218  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.671  -2.185  25.200  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.365  -0.373  24.092  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      57.751  -8.558  28.088  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.080  -1.658  24.988  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      56.896  -9.683  28.240  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.929  -2.658  24.280  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      68.016  -3.464  24.883  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      66.687  -4.002  24.740  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      68.447  -3.247  26.293  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      69.000  -4.084  23.954  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      59.007  -3.943  25.383  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      60.879  -3.039  27.587  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.499  -5.338  27.621  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      57.674  -3.008  27.087  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      58.761  -3.521  28.371  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      59.465  -1.180  27.446  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      59.314  -1.316  25.686  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      61.096  -5.513  24.646  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      61.923  -6.368  25.929  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      56.596  -4.930  28.164  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      62.742  -1.957  27.113  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      62.722  -4.298  26.899  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.167  -4.419  25.199  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      61.481  -0.065  27.231  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      61.126   0.017  25.509  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      60.271  -7.501  28.010  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      60.681  -8.068  26.399  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      64.042  -0.366  26.091  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      56.547  -7.777  26.494  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      56.128  -7.163  28.070  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      59.470  -9.776  27.678  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      58.570  -9.314  26.252  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      64.366  -2.805  24.355  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      64.692  -2.836  26.078  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      58.102  -8.258  29.080  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      66.500  -1.408  25.961  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      66.072  -0.746  24.389  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      66.997  -2.481  23.219  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.597  -3.069  26.957  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      69.117  -2.385  26.353  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      68.982  -4.126  26.661  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      57.463 -10.427  28.506  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.617   0.413  24.202  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      63.036  -1.057  23.308  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      64.276   0.110  23.731  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      60.790  -1.868  23.916  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      60.463  -3.594  23.884  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      62.072  -3.008  23.507  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      58.477  -5.901  24.467  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      58.062  -7.568  24.857  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      59.712  -7.168  24.435  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      69.720  -4.693  24.509  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      69.542  -3.311  23.406  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      68.511  -4.727  23.215  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.157', True, 'REMARK  Energy: 239.525\nREMARK  SimpleFitness: 239.525\nREMARK  FullFitness: -834.55023\nREMARK  InterFull: -24.1162\nREMARK  IntraFull: 273.466\nREMARK  solvFull: -1258.88\nREMARK  surfFull: 174.98\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.88\nREMARK  deltaGcompsolvnonpol: 174.98\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.53747\nREMARK  deltaGligsolvnonpol: 12.6001\nREMARK  deltaGvdw: -24.1162\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.440117\nREMARK  Cluster: 16\nREMARK  ClusterRank: 7\n', 157), ({'deltaGligsolvpol': -4.79659, 'surfFull': 174.494, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.494, 'SimpleFitness': 234.873, 'InterFull': -26.5794, 'extraFull': 0.0, 'Energy': 234.873, 'solvFull': -1258.71, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 17, 'deltaGligsolvnonpol': 12.6141, 'deltaGcompsolvpol': -1258.71, 'FullFitness': -838.9553, 'deltaG': -6.69417, 'ClusterRank': 0, 'IntraFull': 271.84, 'deltaGvdw': -26.5794}, 'V', ['REMARK  Energy: 234.873\n', 'REMARK  SimpleFitness: 234.873\n', 'REMARK  FullFitness: -838.9553\n', 'REMARK  InterFull: -26.5794\n', 'REMARK  IntraFull: 271.84\n', 'REMARK  solvFull: -1258.71\n', 'REMARK  surfFull: 174.494\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.71\n', 'REMARK  deltaGcompsolvnonpol: 174.494\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79659\n', 'REMARK  deltaGligsolvnonpol: 12.6141\n', 'REMARK  deltaGvdw: -26.5794\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.69417\n', 'REMARK  Cluster: 17\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      59.285  -4.446  25.589  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      60.643  -3.871  25.944  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      59.347  -4.960  24.156  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      58.972  -5.589  26.539  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      61.115  -2.741  25.057  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      60.831  -3.346  27.344  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      58.009  -5.587  23.706  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      59.856  -3.870  23.212  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      57.892  -6.480  26.040  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      62.464  -2.480  25.742  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      61.195  -3.304  23.650  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      60.167  -1.537  25.113  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      62.086  -2.501  27.225  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      57.441  -6.478  24.782  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      58.288  -6.419  22.450  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      56.975  -4.510  23.366  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.361  -1.264  25.411  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.342  -7.411  24.381  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      57.130  -7.305  22.034  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.824  -1.705  25.389  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.140  -0.588  24.070  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      56.746  -8.227  23.170  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      65.394  -1.977  26.768  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.647  -9.034  22.763  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.865  -2.220  26.690  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      67.678  -2.358  27.924  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      67.307  -3.520  27.147  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      67.043  -2.293  29.270  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      69.123  -2.014  27.865  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      58.504  -3.687  25.683  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      61.359  -4.691  25.828  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.102  -5.752  24.147  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      58.677  -5.182  27.509  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      59.868  -6.193  26.703  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      60.958  -4.154  28.070  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      59.981  -2.732  27.656  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      59.139  -3.050  23.140  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      59.970  -4.272  22.205  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      57.457  -7.167  26.756  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      63.065  -3.376  25.558  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      61.950  -4.093  23.612  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      61.497  -2.530  22.942  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.889  -2.922  27.834  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      61.889  -1.492  27.596  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.160  -7.055  22.624  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      58.536  -5.764  21.612  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      63.237  -0.503  26.187  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      55.438  -6.839  24.155  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      56.060  -8.087  25.196  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.407  -7.895  21.155  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      56.269  -6.702  21.734  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.425  -0.926  24.913  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      64.936  -2.595  24.762  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.583  -8.887  23.417  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      64.898  -2.838  27.220  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.203  -1.109  27.404  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      67.329  -1.799  25.808  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      66.075  -2.799  29.302  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      66.898  -1.249  29.562  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.693  -2.766  30.010  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.896  -9.431  21.911  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.172  -0.091  24.021  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      63.214  -1.304  23.251  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      63.896   0.184  23.906  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      60.304  -0.929  26.010  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      59.116  -1.823  25.068  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      60.337  -0.890  24.252  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      56.857  -3.798  24.187  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      55.988  -4.931  23.156  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      57.266  -3.952  22.472  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      69.283  -1.002  28.246  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      69.505  -2.057  26.842  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      69.705  -2.708  28.478  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.158', True, 'REMARK  Energy: 234.873\nREMARK  SimpleFitness: 234.873\nREMARK  FullFitness: -838.9553\nREMARK  InterFull: -26.5794\nREMARK  IntraFull: 271.84\nREMARK  solvFull: -1258.71\nREMARK  surfFull: 174.494\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.71\nREMARK  deltaGcompsolvnonpol: 174.494\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79659\nREMARK  deltaGligsolvnonpol: 12.6141\nREMARK  deltaGvdw: -26.5794\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.69417\nREMARK  Cluster: 17\nREMARK  ClusterRank: 0\n', 158), ({'deltaGligsolvpol': -4.79659, 'surfFull': 174.494, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.494, 'SimpleFitness': 234.873, 'InterFull': -26.5794, 'extraFull': 0.0, 'Energy': 234.873, 'solvFull': -1258.71, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 17, 'deltaGligsolvnonpol': 12.6141, 'deltaGcompsolvpol': -1258.71, 'FullFitness': -838.9553, 'deltaG': -6.69417, 'ClusterRank': 1, 'IntraFull': 271.84, 'deltaGvdw': -26.5794}, 'V', ['REMARK  Energy: 234.873\n', 'REMARK  SimpleFitness: 234.873\n', 'REMARK  FullFitness: -838.9553\n', 'REMARK  InterFull: -26.5794\n', 'REMARK  IntraFull: 271.84\n', 'REMARK  solvFull: -1258.71\n', 'REMARK  surfFull: 174.494\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.71\n', 'REMARK  deltaGcompsolvnonpol: 174.494\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79659\n', 'REMARK  deltaGligsolvnonpol: 12.6141\n', 'REMARK  deltaGvdw: -26.5794\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.69417\n', 'REMARK  Cluster: 17\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      59.285  -4.446  25.589  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      60.643  -3.871  25.944  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      59.347  -4.960  24.156  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      58.972  -5.589  26.539  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      61.115  -2.741  25.057  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      60.831  -3.346  27.344  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      58.009  -5.587  23.706  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      59.856  -3.870  23.212  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      57.892  -6.480  26.040  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      62.464  -2.480  25.742  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      61.195  -3.304  23.650  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      60.167  -1.537  25.113  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      62.086  -2.501  27.225  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      57.441  -6.478  24.782  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      58.288  -6.419  22.450  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      56.975  -4.510  23.366  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.361  -1.264  25.411  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.342  -7.411  24.381  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      57.130  -7.305  22.034  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.824  -1.705  25.389  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.140  -0.588  24.070  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      56.746  -8.227  23.170  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      65.394  -1.977  26.768  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.647  -9.034  22.763  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.865  -2.220  26.690  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      67.678  -2.358  27.924  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      67.307  -3.520  27.147  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      67.043  -2.293  29.270  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      69.123  -2.014  27.865  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      58.504  -3.687  25.683  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      61.359  -4.691  25.828  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.102  -5.752  24.147  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      58.677  -5.182  27.509  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      59.868  -6.193  26.703  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      60.958  -4.154  28.070  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      59.981  -2.732  27.656  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      59.139  -3.050  23.140  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      59.970  -4.272  22.205  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      57.457  -7.167  26.756  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      63.065  -3.376  25.558  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      61.950  -4.093  23.612  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      61.497  -2.530  22.942  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.889  -2.922  27.834  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      61.889  -1.492  27.596  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.160  -7.055  22.624  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      58.536  -5.764  21.612  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      63.237  -0.503  26.187  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      55.438  -6.839  24.155  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      56.060  -8.087  25.196  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.407  -7.895  21.155  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      56.269  -6.702  21.734  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.425  -0.926  24.913  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      64.936  -2.595  24.762  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.583  -8.887  23.417  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      64.898  -2.838  27.220  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.203  -1.109  27.404  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      67.329  -1.799  25.808  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      66.075  -2.799  29.302  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      66.898  -1.249  29.562  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.693  -2.766  30.010  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.896  -9.431  21.911  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.172  -0.091  24.021  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      63.214  -1.304  23.251  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      63.896   0.184  23.906  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      60.304  -0.929  26.010  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      59.116  -1.823  25.068  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      60.337  -0.890  24.252  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      56.857  -3.798  24.187  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      55.988  -4.931  23.156  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      57.266  -3.952  22.472  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      69.283  -1.002  28.246  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      69.505  -2.057  26.842  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      69.705  -2.708  28.478  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.159', True, 'REMARK  Energy: 234.873\nREMARK  SimpleFitness: 234.873\nREMARK  FullFitness: -838.9553\nREMARK  InterFull: -26.5794\nREMARK  IntraFull: 271.84\nREMARK  solvFull: -1258.71\nREMARK  surfFull: 174.494\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.71\nREMARK  deltaGcompsolvnonpol: 174.494\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79659\nREMARK  deltaGligsolvnonpol: 12.6141\nREMARK  deltaGvdw: -26.5794\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.69417\nREMARK  Cluster: 17\nREMARK  ClusterRank: 1\n', 159), ({'deltaGligsolvpol': -4.79233, 'surfFull': 174.517, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.517, 'SimpleFitness': 234.919, 'InterFull': -26.552, 'extraFull': 0.0, 'Energy': 234.919, 'solvFull': -1258.71, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 17, 'deltaGligsolvnonpol': 12.6142, 'deltaGcompsolvpol': -1258.71, 'FullFitness': -838.938, 'deltaG': -6.6896725, 'ClusterRank': 2, 'IntraFull': 271.807, 'deltaGvdw': -26.552}, 'V', ['REMARK  Energy: 234.919\n', 'REMARK  SimpleFitness: 234.919\n', 'REMARK  FullFitness: -838.938\n', 'REMARK  InterFull: -26.552\n', 'REMARK  IntraFull: 271.807\n', 'REMARK  solvFull: -1258.71\n', 'REMARK  surfFull: 174.517\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.71\n', 'REMARK  deltaGcompsolvnonpol: 174.517\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79233\n', 'REMARK  deltaGligsolvnonpol: 12.6142\n', 'REMARK  deltaGvdw: -26.552\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.6896725\n', 'REMARK  Cluster: 17\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      59.258  -4.449  25.602  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      60.612  -3.864  25.953  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      59.319  -4.968  24.170  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      58.951  -5.589  26.557  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      61.081  -2.739  25.060  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      60.790  -3.328  27.348  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      57.979  -5.596  23.728  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      59.825  -3.881  23.222  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      57.869  -6.482  26.067  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      62.426  -2.469  25.747  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      61.164  -3.313  23.658  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      60.130  -1.537  25.105  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      62.043  -2.480  27.229  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      57.412  -6.482  24.809  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      58.256  -6.436  22.478  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      56.946  -4.521  23.383  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.326  -1.256  25.411  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.311  -7.415  24.417  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      57.094  -7.318  22.066  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.788  -1.698  25.402  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.114  -0.595  24.061  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      56.706  -8.234  23.205  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      65.357  -1.935  26.788  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.600  -9.032  22.802  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.820  -2.220  26.709  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      67.637  -2.359  27.940  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      67.225  -3.524  27.187  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      67.014  -2.252  29.289  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      69.091  -2.061  27.862  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      58.475  -3.694  25.695  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      61.333  -4.680  25.844  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.072  -5.762  24.163  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      58.659  -5.179  27.527  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      59.848  -6.193  26.720  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      60.917  -4.127  28.083  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      59.936  -2.715  27.651  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      59.106  -3.063  23.147  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      59.939  -4.288  22.215  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      57.436  -7.167  26.785  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      63.028  -3.366  25.573  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      61.919  -4.103  23.630  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      61.468  -2.543  22.945  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.842  -2.899  27.844  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      61.843  -1.470  27.596  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.124  -7.077  22.658  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      58.509  -5.786  21.637  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      63.198  -0.489  26.180  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      55.405  -6.843  24.195  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      56.035  -8.090  25.234  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.368  -7.912  21.190  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      56.235  -6.712  21.764  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.392  -0.931  24.910  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      64.901  -2.602  24.796  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.538  -8.900  23.451  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      64.842  -2.765  27.274  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.192  -1.039  27.393  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      67.293  -1.828  25.818  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      66.032  -2.731  29.333  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      66.899  -1.201  29.565  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.654  -2.733  30.034  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.850  -9.439  21.955  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.148  -0.093  24.003  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      63.189  -1.321  23.251  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      63.876   0.170  23.892  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      60.264  -0.920  25.996  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      59.079  -1.828  25.065  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      60.297  -0.898  24.238  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      56.839  -3.797  24.195  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      55.955  -4.941  23.188  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      57.233  -3.978  22.479  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      69.288  -1.052  28.236  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      69.457  -2.120  26.834  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      69.657  -2.771  28.470  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.160', True, 'REMARK  Energy: 234.919\nREMARK  SimpleFitness: 234.919\nREMARK  FullFitness: -838.938\nREMARK  InterFull: -26.552\nREMARK  IntraFull: 271.807\nREMARK  solvFull: -1258.71\nREMARK  surfFull: 174.517\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.71\nREMARK  deltaGcompsolvnonpol: 174.517\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79233\nREMARK  deltaGligsolvnonpol: 12.6142\nREMARK  deltaGvdw: -26.552\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.6896725\nREMARK  Cluster: 17\nREMARK  ClusterRank: 2\n', 160), ({'deltaGligsolvpol': -4.79233, 'surfFull': 174.517, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.517, 'SimpleFitness': 234.919, 'InterFull': -26.552, 'extraFull': 0.0, 'Energy': 234.919, 'solvFull': -1258.71, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 17, 'deltaGligsolvnonpol': 12.6142, 'deltaGcompsolvpol': -1258.71, 'FullFitness': -838.938, 'deltaG': -6.6896725, 'ClusterRank': 3, 'IntraFull': 271.807, 'deltaGvdw': -26.552}, 'V', ['REMARK  Energy: 234.919\n', 'REMARK  SimpleFitness: 234.919\n', 'REMARK  FullFitness: -838.938\n', 'REMARK  InterFull: -26.552\n', 'REMARK  IntraFull: 271.807\n', 'REMARK  solvFull: -1258.71\n', 'REMARK  surfFull: 174.517\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.71\n', 'REMARK  deltaGcompsolvnonpol: 174.517\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79233\n', 'REMARK  deltaGligsolvnonpol: 12.6142\n', 'REMARK  deltaGvdw: -26.552\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.6896725\n', 'REMARK  Cluster: 17\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      59.258  -4.449  25.602  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      60.612  -3.864  25.953  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      59.319  -4.968  24.170  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      58.951  -5.589  26.557  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      61.081  -2.739  25.060  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      60.790  -3.328  27.348  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      57.979  -5.596  23.728  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      59.825  -3.881  23.222  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      57.869  -6.482  26.067  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      62.426  -2.469  25.747  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      61.164  -3.313  23.658  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      60.130  -1.537  25.105  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      62.043  -2.480  27.229  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      57.412  -6.482  24.809  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      58.256  -6.436  22.478  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      56.946  -4.521  23.383  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.326  -1.256  25.411  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.311  -7.415  24.417  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      57.094  -7.318  22.066  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.788  -1.698  25.402  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.114  -0.595  24.061  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      56.706  -8.234  23.205  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      65.357  -1.935  26.788  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.600  -9.032  22.802  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.820  -2.220  26.709  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      67.637  -2.359  27.940  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      67.225  -3.524  27.187  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      67.014  -2.252  29.289  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      69.091  -2.061  27.862  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      58.475  -3.694  25.695  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      61.333  -4.680  25.844  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.072  -5.762  24.163  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      58.659  -5.179  27.527  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      59.848  -6.193  26.720  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      60.917  -4.127  28.083  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      59.936  -2.715  27.651  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      59.106  -3.063  23.147  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      59.939  -4.288  22.215  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      57.436  -7.167  26.785  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      63.028  -3.366  25.573  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      61.919  -4.103  23.630  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      61.468  -2.543  22.945  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.842  -2.899  27.844  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      61.843  -1.470  27.596  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.124  -7.077  22.658  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      58.509  -5.786  21.637  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      63.198  -0.489  26.180  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      55.405  -6.843  24.195  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      56.035  -8.090  25.234  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.368  -7.912  21.190  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      56.235  -6.712  21.764  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.392  -0.931  24.910  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      64.901  -2.602  24.796  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.538  -8.900  23.451  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      64.842  -2.765  27.274  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.192  -1.039  27.393  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      67.293  -1.828  25.818  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      66.032  -2.731  29.333  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      66.899  -1.201  29.565  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.654  -2.733  30.034  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.850  -9.439  21.955  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.148  -0.093  24.003  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      63.189  -1.321  23.251  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      63.876   0.170  23.892  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      60.264  -0.920  25.996  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      59.079  -1.828  25.065  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      60.297  -0.898  24.238  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      56.839  -3.797  24.195  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      55.955  -4.941  23.188  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      57.233  -3.978  22.479  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      69.288  -1.052  28.236  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      69.457  -2.120  26.834  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      69.657  -2.771  28.470  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.161', True, 'REMARK  Energy: 234.919\nREMARK  SimpleFitness: 234.919\nREMARK  FullFitness: -838.938\nREMARK  InterFull: -26.552\nREMARK  IntraFull: 271.807\nREMARK  solvFull: -1258.71\nREMARK  surfFull: 174.517\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.71\nREMARK  deltaGcompsolvnonpol: 174.517\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79233\nREMARK  deltaGligsolvnonpol: 12.6142\nREMARK  deltaGvdw: -26.552\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.6896725\nREMARK  Cluster: 17\nREMARK  ClusterRank: 3\n', 161), ({'deltaGligsolvpol': -4.79233, 'surfFull': 174.517, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.517, 'SimpleFitness': 234.919, 'InterFull': -26.552, 'extraFull': 0.0, 'Energy': 234.919, 'solvFull': -1258.71, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 17, 'deltaGligsolvnonpol': 12.6142, 'deltaGcompsolvpol': -1258.71, 'FullFitness': -838.938, 'deltaG': -6.6896725, 'ClusterRank': 4, 'IntraFull': 271.807, 'deltaGvdw': -26.552}, 'V', ['REMARK  Energy: 234.919\n', 'REMARK  SimpleFitness: 234.919\n', 'REMARK  FullFitness: -838.938\n', 'REMARK  InterFull: -26.552\n', 'REMARK  IntraFull: 271.807\n', 'REMARK  solvFull: -1258.71\n', 'REMARK  surfFull: 174.517\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.71\n', 'REMARK  deltaGcompsolvnonpol: 174.517\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79233\n', 'REMARK  deltaGligsolvnonpol: 12.6142\n', 'REMARK  deltaGvdw: -26.552\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.6896725\n', 'REMARK  Cluster: 17\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      59.258  -4.449  25.602  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      60.612  -3.864  25.953  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      59.319  -4.968  24.170  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      58.951  -5.589  26.557  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      61.081  -2.739  25.060  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      60.790  -3.328  27.348  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      57.979  -5.596  23.728  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      59.825  -3.881  23.222  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      57.869  -6.482  26.067  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      62.426  -2.469  25.747  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      61.164  -3.313  23.658  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      60.130  -1.537  25.105  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      62.043  -2.480  27.229  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      57.412  -6.482  24.809  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      58.256  -6.436  22.478  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      56.946  -4.521  23.383  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.326  -1.256  25.411  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.311  -7.415  24.417  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      57.094  -7.318  22.066  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.788  -1.698  25.402  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.114  -0.595  24.061  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      56.706  -8.234  23.205  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      65.357  -1.935  26.788  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.600  -9.032  22.802  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.820  -2.220  26.709  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      67.637  -2.359  27.940  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      67.225  -3.524  27.187  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      67.014  -2.252  29.289  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      69.091  -2.061  27.862  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      58.475  -3.694  25.695  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      61.333  -4.680  25.844  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.072  -5.762  24.163  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      58.659  -5.179  27.527  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      59.848  -6.193  26.720  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      60.917  -4.127  28.083  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      59.936  -2.715  27.651  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      59.106  -3.063  23.147  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      59.939  -4.288  22.215  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      57.436  -7.167  26.785  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      63.028  -3.366  25.573  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      61.919  -4.103  23.630  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      61.468  -2.543  22.945  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.842  -2.899  27.844  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      61.843  -1.470  27.596  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.124  -7.077  22.658  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      58.509  -5.786  21.637  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      63.198  -0.489  26.180  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      55.405  -6.843  24.195  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      56.035  -8.090  25.234  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.368  -7.912  21.190  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      56.235  -6.712  21.764  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.392  -0.931  24.910  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      64.901  -2.602  24.796  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.538  -8.900  23.451  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      64.842  -2.765  27.274  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.192  -1.039  27.393  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      67.293  -1.828  25.818  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      66.032  -2.731  29.333  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      66.899  -1.201  29.565  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.654  -2.733  30.034  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.850  -9.439  21.955  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.148  -0.093  24.003  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      63.189  -1.321  23.251  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      63.876   0.170  23.892  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      60.264  -0.920  25.996  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      59.079  -1.828  25.065  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      60.297  -0.898  24.238  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      56.839  -3.797  24.195  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      55.955  -4.941  23.188  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      57.233  -3.978  22.479  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      69.288  -1.052  28.236  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      69.457  -2.120  26.834  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      69.657  -2.771  28.470  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.162', True, 'REMARK  Energy: 234.919\nREMARK  SimpleFitness: 234.919\nREMARK  FullFitness: -838.938\nREMARK  InterFull: -26.552\nREMARK  IntraFull: 271.807\nREMARK  solvFull: -1258.71\nREMARK  surfFull: 174.517\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.71\nREMARK  deltaGcompsolvnonpol: 174.517\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79233\nREMARK  deltaGligsolvnonpol: 12.6142\nREMARK  deltaGvdw: -26.552\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.6896725\nREMARK  Cluster: 17\nREMARK  ClusterRank: 4\n', 162), ({'deltaGligsolvpol': -4.78, 'surfFull': 174.377, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.377, 'SimpleFitness': 235.143, 'InterFull': -27.253, 'extraFull': 0.0, 'Energy': 235.143, 'solvFull': -1257.27, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 17, 'deltaGligsolvnonpol': 12.6498, 'deltaGcompsolvpol': -1257.27, 'FullFitness': -838.34, 'deltaG': -6.6852293, 'ClusterRank': 5, 'IntraFull': 271.806, 'deltaGvdw': -27.253}, 'V', ['REMARK  Energy: 235.143\n', 'REMARK  SimpleFitness: 235.143\n', 'REMARK  FullFitness: -838.34\n', 'REMARK  InterFull: -27.253\n', 'REMARK  IntraFull: 271.806\n', 'REMARK  solvFull: -1257.27\n', 'REMARK  surfFull: 174.377\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1257.27\n', 'REMARK  deltaGcompsolvnonpol: 174.377\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.78\n', 'REMARK  deltaGligsolvnonpol: 12.6498\n', 'REMARK  deltaGvdw: -27.253\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.6852293\n', 'REMARK  Cluster: 17\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      59.332  -4.289  25.696  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      60.686  -3.713  26.062  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      59.423  -4.873  24.291  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      58.975  -5.382  26.688  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      61.204  -2.645  25.127  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      60.830  -3.106  27.434  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      58.079  -5.480  23.836  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      59.995  -3.853  23.306  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      57.893  -6.277  26.201  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      62.528  -2.359  25.846  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      61.331  -3.296  23.763  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      60.269  -1.431  25.074  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      62.097  -2.279  27.311  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      57.470  -6.319  24.931  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      58.362  -6.357  22.613  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      57.077  -4.392  23.441  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.467  -1.186  25.477  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.364  -7.246  24.542  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      57.197  -7.235  22.207  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.905  -1.694  25.445  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.255  -0.513  24.132  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      56.776  -8.109  23.367  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      65.455  -2.010  26.823  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.673  -8.910  22.965  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.900  -2.367  26.735  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      67.647  -2.851  27.920  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      67.199  -3.772  26.898  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      66.974  -3.027  29.239  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      69.118  -2.646  27.956  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      58.561  -3.516  25.735  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      61.393  -4.548  26.020  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.151  -5.689  24.345  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      58.661  -4.926  27.630  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      59.856  -5.993  26.904  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      60.923  -3.868  28.212  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      59.976  -2.469  27.677  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      59.302  -3.023  23.155  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      60.139  -4.317  22.329  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      57.430  -6.928  26.932  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      63.114  -3.277  25.744  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      62.063  -4.107  23.809  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      61.686  -2.578  23.022  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.873  -2.666  27.975  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      61.895  -1.247  27.610  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.220  -7.003  22.822  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      58.636  -5.735  21.758  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      63.394  -0.415  26.248  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      55.474  -6.668  24.278  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      56.056  -7.890  25.373  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.478  -7.859  21.354  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      56.352  -6.627  21.871  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.546  -0.942  24.978  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      64.972  -2.582  24.810  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.597  -8.775  23.653  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      64.891  -2.830  27.273  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.337  -1.133  27.466  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      67.437  -1.813  25.976  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      65.961  -3.427  29.140  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      66.917  -2.068  29.762  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.546  -3.720  29.860  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.921  -9.316  22.119  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.319   0.046  24.105  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      63.264  -1.239  23.319  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      64.056   0.205  23.939  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      60.389  -0.764  25.930  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      59.215  -1.707  25.019  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      60.473  -0.849  24.175  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      56.957  -3.652  24.238  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      56.085  -4.797  23.225  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      57.400  -3.867  22.538  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      69.362  -1.805  28.610  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      69.513  -2.430  26.960  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      69.617  -3.539  28.339  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.163', True, 'REMARK  Energy: 235.143\nREMARK  SimpleFitness: 235.143\nREMARK  FullFitness: -838.34\nREMARK  InterFull: -27.253\nREMARK  IntraFull: 271.806\nREMARK  solvFull: -1257.27\nREMARK  surfFull: 174.377\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1257.27\nREMARK  deltaGcompsolvnonpol: 174.377\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.78\nREMARK  deltaGligsolvnonpol: 12.6498\nREMARK  deltaGvdw: -27.253\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.6852293\nREMARK  Cluster: 17\nREMARK  ClusterRank: 5\n', 163), ({'deltaGligsolvpol': -4.78, 'surfFull': 174.377, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.377, 'SimpleFitness': 235.143, 'InterFull': -27.253, 'extraFull': 0.0, 'Energy': 235.143, 'solvFull': -1257.27, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 17, 'deltaGligsolvnonpol': 12.6498, 'deltaGcompsolvpol': -1257.27, 'FullFitness': -838.34, 'deltaG': -6.6852293, 'ClusterRank': 6, 'IntraFull': 271.806, 'deltaGvdw': -27.253}, 'V', ['REMARK  Energy: 235.143\n', 'REMARK  SimpleFitness: 235.143\n', 'REMARK  FullFitness: -838.34\n', 'REMARK  InterFull: -27.253\n', 'REMARK  IntraFull: 271.806\n', 'REMARK  solvFull: -1257.27\n', 'REMARK  surfFull: 174.377\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1257.27\n', 'REMARK  deltaGcompsolvnonpol: 174.377\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.78\n', 'REMARK  deltaGligsolvnonpol: 12.6498\n', 'REMARK  deltaGvdw: -27.253\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.6852293\n', 'REMARK  Cluster: 17\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      59.332  -4.289  25.696  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      60.686  -3.713  26.062  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      59.423  -4.873  24.291  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      58.975  -5.382  26.688  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      61.204  -2.645  25.127  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      60.830  -3.106  27.434  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      58.079  -5.480  23.836  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      59.995  -3.853  23.306  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      57.893  -6.277  26.201  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      62.528  -2.359  25.846  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      61.331  -3.296  23.763  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      60.269  -1.431  25.074  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      62.097  -2.279  27.311  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      57.470  -6.319  24.931  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      58.362  -6.357  22.613  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      57.077  -4.392  23.441  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.467  -1.186  25.477  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.364  -7.246  24.542  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      57.197  -7.235  22.207  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.905  -1.694  25.445  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.255  -0.513  24.132  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      56.776  -8.109  23.367  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      65.455  -2.010  26.823  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.673  -8.910  22.965  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.900  -2.367  26.735  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      67.647  -2.851  27.920  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      67.199  -3.772  26.898  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      66.974  -3.027  29.239  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      69.118  -2.646  27.956  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      58.561  -3.516  25.735  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      61.393  -4.548  26.020  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.151  -5.689  24.345  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      58.661  -4.926  27.630  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      59.856  -5.993  26.904  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      60.923  -3.868  28.212  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      59.976  -2.469  27.677  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      59.302  -3.023  23.155  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      60.139  -4.317  22.329  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      57.430  -6.928  26.932  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      63.114  -3.277  25.744  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      62.063  -4.107  23.809  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      61.686  -2.578  23.022  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.873  -2.666  27.975  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      61.895  -1.247  27.610  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.220  -7.003  22.822  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      58.636  -5.735  21.758  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      63.394  -0.415  26.248  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      55.474  -6.668  24.278  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      56.056  -7.890  25.373  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.478  -7.859  21.354  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      56.352  -6.627  21.871  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.546  -0.942  24.978  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      64.972  -2.582  24.810  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.597  -8.775  23.653  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      64.891  -2.830  27.273  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.337  -1.133  27.466  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      67.437  -1.813  25.976  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      65.961  -3.427  29.140  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      66.917  -2.068  29.762  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.546  -3.720  29.860  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.921  -9.316  22.119  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.319   0.046  24.105  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      63.264  -1.239  23.319  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      64.056   0.205  23.939  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      60.389  -0.764  25.930  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      59.215  -1.707  25.019  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      60.473  -0.849  24.175  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      56.957  -3.652  24.238  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      56.085  -4.797  23.225  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      57.400  -3.867  22.538  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      69.362  -1.805  28.610  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      69.513  -2.430  26.960  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      69.617  -3.539  28.339  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.164', True, 'REMARK  Energy: 235.143\nREMARK  SimpleFitness: 235.143\nREMARK  FullFitness: -838.34\nREMARK  InterFull: -27.253\nREMARK  IntraFull: 271.806\nREMARK  solvFull: -1257.27\nREMARK  surfFull: 174.377\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1257.27\nREMARK  deltaGcompsolvnonpol: 174.377\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.78\nREMARK  deltaGligsolvnonpol: 12.6498\nREMARK  deltaGvdw: -27.253\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.6852293\nREMARK  Cluster: 17\nREMARK  ClusterRank: 6\n', 164), ({'deltaGligsolvpol': -4.78, 'surfFull': 174.377, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.377, 'SimpleFitness': 235.143, 'InterFull': -27.253, 'extraFull': 0.0, 'Energy': 235.143, 'solvFull': -1257.27, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 17, 'deltaGligsolvnonpol': 12.6498, 'deltaGcompsolvpol': -1257.27, 'FullFitness': -838.34, 'deltaG': -6.6852293, 'ClusterRank': 7, 'IntraFull': 271.806, 'deltaGvdw': -27.253}, 'V', ['REMARK  Energy: 235.143\n', 'REMARK  SimpleFitness: 235.143\n', 'REMARK  FullFitness: -838.34\n', 'REMARK  InterFull: -27.253\n', 'REMARK  IntraFull: 271.806\n', 'REMARK  solvFull: -1257.27\n', 'REMARK  surfFull: 174.377\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1257.27\n', 'REMARK  deltaGcompsolvnonpol: 174.377\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.78\n', 'REMARK  deltaGligsolvnonpol: 12.6498\n', 'REMARK  deltaGvdw: -27.253\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.6852293\n', 'REMARK  Cluster: 17\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      59.332  -4.289  25.696  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      60.686  -3.713  26.062  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      59.423  -4.873  24.291  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      58.975  -5.382  26.688  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      61.204  -2.645  25.127  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      60.830  -3.106  27.434  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      58.079  -5.480  23.836  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      59.995  -3.853  23.306  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      57.893  -6.277  26.201  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      62.528  -2.359  25.846  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      61.331  -3.296  23.763  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      60.269  -1.431  25.074  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      62.097  -2.279  27.311  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      57.470  -6.319  24.931  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      58.362  -6.357  22.613  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      57.077  -4.392  23.441  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      63.467  -1.186  25.477  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.364  -7.246  24.542  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      57.197  -7.235  22.207  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      64.905  -1.694  25.445  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      63.255  -0.513  24.132  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      56.776  -8.109  23.367  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      65.455  -2.010  26.823  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.673  -8.910  22.965  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.900  -2.367  26.735  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      67.647  -2.851  27.920  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      67.199  -3.772  26.898  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      66.974  -3.027  29.239  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      69.118  -2.646  27.956  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      58.561  -3.516  25.735  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      61.393  -4.548  26.020  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.151  -5.689  24.345  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      58.661  -4.926  27.630  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      59.856  -5.993  26.904  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      60.923  -3.868  28.212  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      59.976  -2.469  27.677  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      59.302  -3.023  23.155  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      60.139  -4.317  22.329  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      57.430  -6.928  26.932  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      63.114  -3.277  25.744  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      62.063  -4.107  23.809  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      61.686  -2.578  23.022  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      62.873  -2.666  27.975  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      61.895  -1.247  27.610  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.220  -7.003  22.822  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      58.636  -5.735  21.758  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      63.394  -0.415  26.248  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      55.474  -6.668  24.278  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      56.056  -7.890  25.373  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.478  -7.859  21.354  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      56.352  -6.627  21.871  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.546  -0.942  24.978  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      64.972  -2.582  24.810  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.597  -8.775  23.653  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      64.891  -2.830  27.273  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.337  -1.133  27.466  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      67.437  -1.813  25.976  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      65.961  -3.427  29.140  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      66.917  -2.068  29.762  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.546  -3.720  29.860  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.921  -9.316  22.119  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      62.319   0.046  24.105  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      63.264  -1.239  23.319  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      64.056   0.205  23.939  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      60.389  -0.764  25.930  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      59.215  -1.707  25.019  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      60.473  -0.849  24.175  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      56.957  -3.652  24.238  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      56.085  -4.797  23.225  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      57.400  -3.867  22.538  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      69.362  -1.805  28.610  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      69.513  -2.430  26.960  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      69.617  -3.539  28.339  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.165', True, 'REMARK  Energy: 235.143\nREMARK  SimpleFitness: 235.143\nREMARK  FullFitness: -838.34\nREMARK  InterFull: -27.253\nREMARK  IntraFull: 271.806\nREMARK  solvFull: -1257.27\nREMARK  surfFull: 174.377\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1257.27\nREMARK  deltaGcompsolvnonpol: 174.377\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.78\nREMARK  deltaGligsolvnonpol: 12.6498\nREMARK  deltaGvdw: -27.253\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.6852293\nREMARK  Cluster: 17\nREMARK  ClusterRank: 7\n', 165), ({'deltaGligsolvpol': -4.81961, 'surfFull': 174.035, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.035, 'SimpleFitness': 235.498, 'InterFull': -18.7242, 'extraFull': 0.0, 'Energy': 235.498, 'solvFull': -1258.59, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 18, 'deltaGligsolvnonpol': 12.6366, 'deltaGcompsolvpol': -1258.59, 'FullFitness': -838.5232, 'deltaG': -5.987865, 'ClusterRank': 0, 'IntraFull': 264.756, 'deltaGvdw': -18.7242}, 'V', ['REMARK  Energy: 235.498\n', 'REMARK  SimpleFitness: 235.498\n', 'REMARK  FullFitness: -838.5232\n', 'REMARK  InterFull: -18.7242\n', 'REMARK  IntraFull: 264.756\n', 'REMARK  solvFull: -1258.59\n', 'REMARK  surfFull: 174.035\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.59\n', 'REMARK  deltaGcompsolvnonpol: 174.035\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.81961\n', 'REMARK  deltaGligsolvnonpol: 12.6366\n', 'REMARK  deltaGvdw: -18.7242\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -5.987865\n', 'REMARK  Cluster: 18\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      60.366  -3.365  26.451  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      61.602  -3.663  27.267  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      60.541  -3.946  25.054  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      59.161  -4.004  27.121  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      62.884  -3.116  26.689  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      61.581  -3.179  28.687  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      59.318  -3.602  24.175  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      61.892  -3.563  24.432  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      57.978  -4.093  26.225  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      63.851  -3.503  27.816  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      63.071  -3.822  25.358  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      62.861  -1.596  26.486  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      63.040  -3.197  29.074  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      58.030  -3.894  24.902  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.398  -4.462  22.914  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      59.308  -2.122  23.787  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      65.248  -2.848  27.842  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.780  -3.956  24.083  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      58.141  -4.440  22.068  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      65.963  -2.981  29.188  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.148  -3.420  26.762  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      56.955  -4.881  22.896  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.207  -4.407  29.659  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.785  -4.832  22.089  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.794  -4.375  31.031  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      65.987  -4.451  32.274  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      66.692  -5.611  31.775  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      64.504  -4.590  32.249  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      66.563  -3.863  33.513  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      60.208  -2.286  26.401  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      61.704  -4.752  27.309  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.566  -5.034  25.175  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      58.888  -3.423  28.006  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      59.414  -5.012  27.462  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      60.983  -3.824  29.336  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      61.182  -2.162  28.748  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      61.904  -2.511  24.142  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      62.054  -4.130  23.513  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      57.025  -4.316  26.688  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      63.987  -4.587  27.768  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      63.170  -4.898  25.525  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.985  -3.483  24.868  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      63.215  -3.959  29.835  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.305  -2.229  29.501  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.601  -5.499  23.197  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      60.232  -4.133  22.296  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      65.160  -1.775  27.665  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      56.524  -2.953  23.730  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      55.920  -4.287  24.674  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      58.260  -5.099  21.204  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      57.963  -3.440  21.663  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.418  -2.432  29.960  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.930  -2.475  29.115  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.096  -5.912  23.234  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      66.915  -4.905  28.991  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.287  -4.995  29.639  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      67.725  -3.828  31.068  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      64.170  -5.290  31.479  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      64.041  -3.618  32.063  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      64.148  -4.960  33.215  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.994  -5.310  21.269  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      65.824  -3.095  25.771  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      66.140  -4.512  26.785  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      67.178  -3.080  26.902  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      62.826  -1.049  27.431  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      62.009  -1.261  25.891  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.764  -1.277  25.958  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      59.312  -1.471  24.665  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      58.428  -1.855  23.195  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      60.178  -1.867  23.179  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      66.272  -2.812  33.598  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      67.655  -3.919  33.516  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      66.191  -4.395  34.392  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.166', True, 'REMARK  Energy: 235.498\nREMARK  SimpleFitness: 235.498\nREMARK  FullFitness: -838.5232\nREMARK  InterFull: -18.7242\nREMARK  IntraFull: 264.756\nREMARK  solvFull: -1258.59\nREMARK  surfFull: 174.035\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.59\nREMARK  deltaGcompsolvnonpol: 174.035\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.81961\nREMARK  deltaGligsolvnonpol: 12.6366\nREMARK  deltaGvdw: -18.7242\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -5.987865\nREMARK  Cluster: 18\nREMARK  ClusterRank: 0\n', 166), ({'deltaGligsolvpol': -4.81961, 'surfFull': 174.035, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.035, 'SimpleFitness': 235.498, 'InterFull': -18.7242, 'extraFull': 0.0, 'Energy': 235.498, 'solvFull': -1258.59, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 18, 'deltaGligsolvnonpol': 12.6366, 'deltaGcompsolvpol': -1258.59, 'FullFitness': -838.5232, 'deltaG': -5.987865, 'ClusterRank': 1, 'IntraFull': 264.756, 'deltaGvdw': -18.7242}, 'V', ['REMARK  Energy: 235.498\n', 'REMARK  SimpleFitness: 235.498\n', 'REMARK  FullFitness: -838.5232\n', 'REMARK  InterFull: -18.7242\n', 'REMARK  IntraFull: 264.756\n', 'REMARK  solvFull: -1258.59\n', 'REMARK  surfFull: 174.035\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.59\n', 'REMARK  deltaGcompsolvnonpol: 174.035\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.81961\n', 'REMARK  deltaGligsolvnonpol: 12.6366\n', 'REMARK  deltaGvdw: -18.7242\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -5.987865\n', 'REMARK  Cluster: 18\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      60.366  -3.365  26.451  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      61.602  -3.663  27.267  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      60.541  -3.946  25.054  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      59.161  -4.004  27.121  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      62.884  -3.116  26.689  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      61.581  -3.179  28.687  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      59.318  -3.602  24.175  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      61.892  -3.563  24.432  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      57.978  -4.093  26.225  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      63.851  -3.503  27.816  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      63.071  -3.822  25.358  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      62.861  -1.596  26.486  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      63.040  -3.197  29.074  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      58.030  -3.894  24.902  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.398  -4.462  22.914  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      59.308  -2.122  23.787  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      65.248  -2.848  27.842  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.780  -3.956  24.083  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      58.141  -4.440  22.068  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      65.963  -2.981  29.188  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.148  -3.420  26.762  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      56.955  -4.881  22.896  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.207  -4.407  29.659  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.785  -4.832  22.089  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.794  -4.375  31.031  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      65.987  -4.451  32.274  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      66.692  -5.611  31.775  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      64.504  -4.590  32.249  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      66.563  -3.863  33.513  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      60.208  -2.286  26.401  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      61.704  -4.752  27.309  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.566  -5.034  25.175  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      58.888  -3.423  28.006  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      59.414  -5.012  27.462  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      60.983  -3.824  29.336  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      61.182  -2.162  28.748  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      61.904  -2.511  24.142  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      62.054  -4.130  23.513  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      57.025  -4.316  26.688  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      63.987  -4.587  27.768  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      63.170  -4.898  25.525  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.985  -3.483  24.868  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      63.215  -3.959  29.835  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.305  -2.229  29.501  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.601  -5.499  23.197  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      60.232  -4.133  22.296  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      65.160  -1.775  27.665  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      56.524  -2.953  23.730  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      55.920  -4.287  24.674  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      58.260  -5.099  21.204  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      57.963  -3.440  21.663  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.418  -2.432  29.960  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.930  -2.475  29.115  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.096  -5.912  23.234  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      66.915  -4.905  28.991  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.287  -4.995  29.639  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      67.725  -3.828  31.068  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      64.170  -5.290  31.479  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      64.041  -3.618  32.063  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      64.148  -4.960  33.215  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.994  -5.310  21.269  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      65.824  -3.095  25.771  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      66.140  -4.512  26.785  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      67.178  -3.080  26.902  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      62.826  -1.049  27.431  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      62.009  -1.261  25.891  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.764  -1.277  25.958  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      59.312  -1.471  24.665  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      58.428  -1.855  23.195  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      60.178  -1.867  23.179  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      66.272  -2.812  33.598  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      67.655  -3.919  33.516  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      66.191  -4.395  34.392  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.167', True, 'REMARK  Energy: 235.498\nREMARK  SimpleFitness: 235.498\nREMARK  FullFitness: -838.5232\nREMARK  InterFull: -18.7242\nREMARK  IntraFull: 264.756\nREMARK  solvFull: -1258.59\nREMARK  surfFull: 174.035\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.59\nREMARK  deltaGcompsolvnonpol: 174.035\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.81961\nREMARK  deltaGligsolvnonpol: 12.6366\nREMARK  deltaGvdw: -18.7242\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -5.987865\nREMARK  Cluster: 18\nREMARK  ClusterRank: 1\n', 167), ({'deltaGligsolvpol': -4.81961, 'surfFull': 174.035, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.035, 'SimpleFitness': 235.498, 'InterFull': -18.7242, 'extraFull': 0.0, 'Energy': 235.498, 'solvFull': -1258.59, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 18, 'deltaGligsolvnonpol': 12.6366, 'deltaGcompsolvpol': -1258.59, 'FullFitness': -838.5232, 'deltaG': -5.987865, 'ClusterRank': 2, 'IntraFull': 264.756, 'deltaGvdw': -18.7242}, 'V', ['REMARK  Energy: 235.498\n', 'REMARK  SimpleFitness: 235.498\n', 'REMARK  FullFitness: -838.5232\n', 'REMARK  InterFull: -18.7242\n', 'REMARK  IntraFull: 264.756\n', 'REMARK  solvFull: -1258.59\n', 'REMARK  surfFull: 174.035\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1258.59\n', 'REMARK  deltaGcompsolvnonpol: 174.035\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.81961\n', 'REMARK  deltaGligsolvnonpol: 12.6366\n', 'REMARK  deltaGvdw: -18.7242\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -5.987865\n', 'REMARK  Cluster: 18\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      60.366  -3.365  26.451  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      61.602  -3.663  27.267  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      60.541  -3.946  25.054  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      59.161  -4.004  27.121  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      62.884  -3.116  26.689  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      61.581  -3.179  28.687  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      59.318  -3.602  24.175  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      61.892  -3.563  24.432  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      57.978  -4.093  26.225  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      63.851  -3.503  27.816  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      63.071  -3.822  25.358  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      62.861  -1.596  26.486  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      63.040  -3.197  29.074  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      58.030  -3.894  24.902  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.398  -4.462  22.914  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      59.308  -2.122  23.787  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      65.248  -2.848  27.842  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.780  -3.956  24.083  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      58.141  -4.440  22.068  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      65.963  -2.981  29.188  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.148  -3.420  26.762  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      56.955  -4.881  22.896  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.207  -4.407  29.659  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.785  -4.832  22.089  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.794  -4.375  31.031  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      65.987  -4.451  32.274  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      66.692  -5.611  31.775  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      64.504  -4.590  32.249  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      66.563  -3.863  33.513  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      60.208  -2.286  26.401  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      61.704  -4.752  27.309  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.566  -5.034  25.175  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      58.888  -3.423  28.006  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      59.414  -5.012  27.462  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      60.983  -3.824  29.336  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      61.182  -2.162  28.748  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      61.904  -2.511  24.142  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      62.054  -4.130  23.513  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      57.025  -4.316  26.688  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      63.987  -4.587  27.768  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      63.170  -4.898  25.525  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.985  -3.483  24.868  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      63.215  -3.959  29.835  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.305  -2.229  29.501  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.601  -5.499  23.197  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      60.232  -4.133  22.296  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      65.160  -1.775  27.665  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      56.524  -2.953  23.730  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      55.920  -4.287  24.674  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      58.260  -5.099  21.204  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      57.963  -3.440  21.663  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.418  -2.432  29.960  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.930  -2.475  29.115  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.096  -5.912  23.234  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      66.915  -4.905  28.991  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.287  -4.995  29.639  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      67.725  -3.828  31.068  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      64.170  -5.290  31.479  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      64.041  -3.618  32.063  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      64.148  -4.960  33.215  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.994  -5.310  21.269  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      65.824  -3.095  25.771  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      66.140  -4.512  26.785  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      67.178  -3.080  26.902  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      62.826  -1.049  27.431  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      62.009  -1.261  25.891  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.764  -1.277  25.958  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      59.312  -1.471  24.665  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      58.428  -1.855  23.195  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      60.178  -1.867  23.179  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      66.272  -2.812  33.598  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      67.655  -3.919  33.516  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      66.191  -4.395  34.392  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.168', True, 'REMARK  Energy: 235.498\nREMARK  SimpleFitness: 235.498\nREMARK  FullFitness: -838.5232\nREMARK  InterFull: -18.7242\nREMARK  IntraFull: 264.756\nREMARK  solvFull: -1258.59\nREMARK  surfFull: 174.035\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1258.59\nREMARK  deltaGcompsolvnonpol: 174.035\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.81961\nREMARK  deltaGligsolvnonpol: 12.6366\nREMARK  deltaGvdw: -18.7242\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -5.987865\nREMARK  Cluster: 18\nREMARK  ClusterRank: 2\n', 168), ({'deltaGligsolvpol': -4.8131, 'surfFull': 173.664, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.664, 'SimpleFitness': 235.642, 'InterFull': -18.1905, 'extraFull': 0.0, 'Energy': 235.642, 'solvFull': -1260.11, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 18, 'deltaGligsolvnonpol': 12.6575, 'deltaGcompsolvpol': -1260.11, 'FullFitness': -837.7015, 'deltaG': -6.0678744, 'ClusterRank': 3, 'IntraFull': 266.935, 'deltaGvdw': -18.1905}, 'V', ['REMARK  Energy: 235.642\n', 'REMARK  SimpleFitness: 235.642\n', 'REMARK  FullFitness: -837.7015\n', 'REMARK  InterFull: -18.1905\n', 'REMARK  IntraFull: 266.935\n', 'REMARK  solvFull: -1260.11\n', 'REMARK  surfFull: 173.664\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1260.11\n', 'REMARK  deltaGcompsolvnonpol: 173.664\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.8131\n', 'REMARK  deltaGligsolvnonpol: 12.6575\n', 'REMARK  deltaGvdw: -18.1905\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.0678744\n', 'REMARK  Cluster: 18\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      59.945  -3.405  25.950  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      61.308  -3.571  26.584  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      59.982  -3.922  24.518  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      58.921  -4.204  26.741  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      62.435  -2.898  25.839  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      61.441  -3.075  27.996  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      58.624  -3.670  23.826  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      61.191  -3.404  23.733  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      57.656  -4.444  25.990  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      63.580  -3.198  26.811  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      62.502  -3.568  24.483  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      62.237  -1.385  25.668  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      62.934  -2.893  28.161  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      57.503  -4.194  24.685  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      58.647  -4.396  22.478  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      58.360  -2.176  23.614  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      64.931  -2.488  26.582  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.176  -4.399  24.025  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      57.291  -4.506  21.814  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      65.799  -2.370  27.836  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      65.737  -3.204  25.513  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      56.317  -5.194  22.744  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.237  -3.690  28.458  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.048  -5.274  22.107  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.904  -3.413  29.765  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      66.193  -3.463  31.072  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      67.047  -4.551  30.644  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      64.769  -3.867  31.216  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      66.735  -2.648  32.190  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      59.665  -2.351  25.972  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      61.527  -4.643  26.604  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.123  -5.006  24.585  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      58.689  -3.674  27.668  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      59.342  -5.173  27.021  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      61.042  -3.792  28.719  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      60.922  -2.122  28.134  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      61.064  -2.357  23.458  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      61.280  -3.955  22.797  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      56.815  -4.826  26.557  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      63.763  -4.277  26.780  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      62.718  -4.632  24.608  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.304  -3.135  23.885  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      63.306  -3.572  28.927  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.137  -1.870  28.485  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.039  -5.407  22.620  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      59.323  -3.888  21.788  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      64.764  -1.465  26.241  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      55.729  -3.426  23.801  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      55.466  -4.905  24.688  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.376  -5.068  20.880  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      56.914  -3.517  21.539  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.290  -1.760  28.584  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.699  -1.806  27.577  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      56.658  -6.211  22.960  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      66.955  -4.191  27.802  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.392  -4.369  28.581  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      67.756  -2.753  29.663  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      64.491  -4.663  30.520  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      64.117  -3.008  31.043  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      64.586  -4.233  32.229  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.207  -5.646  21.223  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      65.277  -3.087  24.532  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.810  -4.274  25.725  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.749  -2.793  25.455  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      62.312  -0.836  26.609  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      61.268  -1.133  25.232  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.001  -0.983  24.997  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      58.246  -1.642  24.563  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      57.448  -1.999  23.039  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      59.173  -1.694  23.074  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      66.070  -1.803  32.389  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      67.724  -2.250  31.953  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      66.808  -3.252  33.099  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.169', True, 'REMARK  Energy: 235.642\nREMARK  SimpleFitness: 235.642\nREMARK  FullFitness: -837.7015\nREMARK  InterFull: -18.1905\nREMARK  IntraFull: 266.935\nREMARK  solvFull: -1260.11\nREMARK  surfFull: 173.664\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1260.11\nREMARK  deltaGcompsolvnonpol: 173.664\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.8131\nREMARK  deltaGligsolvnonpol: 12.6575\nREMARK  deltaGvdw: -18.1905\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.0678744\nREMARK  Cluster: 18\nREMARK  ClusterRank: 3\n', 169), ({'deltaGligsolvpol': -4.8131, 'surfFull': 173.664, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.664, 'SimpleFitness': 235.642, 'InterFull': -18.1905, 'extraFull': 0.0, 'Energy': 235.642, 'solvFull': -1260.11, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 18, 'deltaGligsolvnonpol': 12.6575, 'deltaGcompsolvpol': -1260.11, 'FullFitness': -837.7015, 'deltaG': -6.0678744, 'ClusterRank': 4, 'IntraFull': 266.935, 'deltaGvdw': -18.1905}, 'V', ['REMARK  Energy: 235.642\n', 'REMARK  SimpleFitness: 235.642\n', 'REMARK  FullFitness: -837.7015\n', 'REMARK  InterFull: -18.1905\n', 'REMARK  IntraFull: 266.935\n', 'REMARK  solvFull: -1260.11\n', 'REMARK  surfFull: 173.664\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1260.11\n', 'REMARK  deltaGcompsolvnonpol: 173.664\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.8131\n', 'REMARK  deltaGligsolvnonpol: 12.6575\n', 'REMARK  deltaGvdw: -18.1905\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.0678744\n', 'REMARK  Cluster: 18\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      59.945  -3.405  25.950  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      61.308  -3.571  26.584  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      59.982  -3.922  24.518  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      58.921  -4.204  26.741  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      62.435  -2.898  25.839  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      61.441  -3.075  27.996  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      58.624  -3.670  23.826  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      61.191  -3.404  23.733  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      57.656  -4.444  25.990  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      63.580  -3.198  26.811  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      62.502  -3.568  24.483  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      62.237  -1.385  25.668  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      62.934  -2.893  28.161  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      57.503  -4.194  24.685  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      58.647  -4.396  22.478  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      58.360  -2.176  23.614  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      64.931  -2.488  26.582  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.176  -4.399  24.025  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      57.291  -4.506  21.814  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      65.799  -2.370  27.836  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      65.737  -3.204  25.513  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      56.317  -5.194  22.744  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.237  -3.690  28.458  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.048  -5.274  22.107  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.904  -3.413  29.765  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      66.193  -3.463  31.072  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      67.047  -4.551  30.644  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      64.769  -3.867  31.216  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      66.735  -2.648  32.190  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      59.665  -2.351  25.972  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      61.527  -4.643  26.604  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.123  -5.006  24.585  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      58.689  -3.674  27.668  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      59.342  -5.173  27.021  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      61.042  -3.792  28.719  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      60.922  -2.122  28.134  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      61.064  -2.357  23.458  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      61.280  -3.955  22.797  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      56.815  -4.826  26.557  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      63.763  -4.277  26.780  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      62.718  -4.632  24.608  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.304  -3.135  23.885  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      63.306  -3.572  28.927  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.137  -1.870  28.485  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.039  -5.407  22.620  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      59.323  -3.888  21.788  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      64.764  -1.465  26.241  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      55.729  -3.426  23.801  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      55.466  -4.905  24.688  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.376  -5.068  20.880  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      56.914  -3.517  21.539  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.290  -1.760  28.584  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.699  -1.806  27.577  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      56.658  -6.211  22.960  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      66.955  -4.191  27.802  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.392  -4.369  28.581  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      67.756  -2.753  29.663  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      64.491  -4.663  30.520  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      64.117  -3.008  31.043  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      64.586  -4.233  32.229  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.207  -5.646  21.223  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      65.277  -3.087  24.532  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.810  -4.274  25.725  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.749  -2.793  25.455  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      62.312  -0.836  26.609  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      61.268  -1.133  25.232  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.001  -0.983  24.997  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      58.246  -1.642  24.563  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      57.448  -1.999  23.039  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      59.173  -1.694  23.074  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      66.070  -1.803  32.389  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      67.724  -2.250  31.953  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      66.808  -3.252  33.099  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.170', True, 'REMARK  Energy: 235.642\nREMARK  SimpleFitness: 235.642\nREMARK  FullFitness: -837.7015\nREMARK  InterFull: -18.1905\nREMARK  IntraFull: 266.935\nREMARK  solvFull: -1260.11\nREMARK  surfFull: 173.664\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1260.11\nREMARK  deltaGcompsolvnonpol: 173.664\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.8131\nREMARK  deltaGligsolvnonpol: 12.6575\nREMARK  deltaGvdw: -18.1905\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.0678744\nREMARK  Cluster: 18\nREMARK  ClusterRank: 4\n', 170), ({'deltaGligsolvpol': -4.8131, 'surfFull': 173.664, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.664, 'SimpleFitness': 235.642, 'InterFull': -18.1905, 'extraFull': 0.0, 'Energy': 235.642, 'solvFull': -1260.11, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 18, 'deltaGligsolvnonpol': 12.6575, 'deltaGcompsolvpol': -1260.11, 'FullFitness': -837.7015, 'deltaG': -6.0678744, 'ClusterRank': 5, 'IntraFull': 266.935, 'deltaGvdw': -18.1905}, 'V', ['REMARK  Energy: 235.642\n', 'REMARK  SimpleFitness: 235.642\n', 'REMARK  FullFitness: -837.7015\n', 'REMARK  InterFull: -18.1905\n', 'REMARK  IntraFull: 266.935\n', 'REMARK  solvFull: -1260.11\n', 'REMARK  surfFull: 173.664\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1260.11\n', 'REMARK  deltaGcompsolvnonpol: 173.664\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.8131\n', 'REMARK  deltaGligsolvnonpol: 12.6575\n', 'REMARK  deltaGvdw: -18.1905\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.0678744\n', 'REMARK  Cluster: 18\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      59.945  -3.405  25.950  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      61.308  -3.571  26.584  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      59.982  -3.922  24.518  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      58.921  -4.204  26.741  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      62.435  -2.898  25.839  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      61.441  -3.075  27.996  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      58.624  -3.670  23.826  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      61.191  -3.404  23.733  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      57.656  -4.444  25.990  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      63.580  -3.198  26.811  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      62.502  -3.568  24.483  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      62.237  -1.385  25.668  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      62.934  -2.893  28.161  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      57.503  -4.194  24.685  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      58.647  -4.396  22.478  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      58.360  -2.176  23.614  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      64.931  -2.488  26.582  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.176  -4.399  24.025  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      57.291  -4.506  21.814  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      65.799  -2.370  27.836  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      65.737  -3.204  25.513  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      56.317  -5.194  22.744  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.237  -3.690  28.458  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.048  -5.274  22.107  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.904  -3.413  29.765  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      66.193  -3.463  31.072  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      67.047  -4.551  30.644  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      64.769  -3.867  31.216  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      66.735  -2.648  32.190  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      59.665  -2.351  25.972  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      61.527  -4.643  26.604  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.123  -5.006  24.585  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      58.689  -3.674  27.668  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      59.342  -5.173  27.021  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      61.042  -3.792  28.719  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      60.922  -2.122  28.134  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      61.064  -2.357  23.458  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      61.280  -3.955  22.797  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      56.815  -4.826  26.557  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      63.763  -4.277  26.780  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      62.718  -4.632  24.608  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.304  -3.135  23.885  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      63.306  -3.572  28.927  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.137  -1.870  28.485  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.039  -5.407  22.620  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      59.323  -3.888  21.788  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      64.764  -1.465  26.241  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      55.729  -3.426  23.801  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      55.466  -4.905  24.688  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.376  -5.068  20.880  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      56.914  -3.517  21.539  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.290  -1.760  28.584  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.699  -1.806  27.577  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      56.658  -6.211  22.960  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      66.955  -4.191  27.802  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.392  -4.369  28.581  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      67.756  -2.753  29.663  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      64.491  -4.663  30.520  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      64.117  -3.008  31.043  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      64.586  -4.233  32.229  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.207  -5.646  21.223  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      65.277  -3.087  24.532  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.810  -4.274  25.725  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.749  -2.793  25.455  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      62.312  -0.836  26.609  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      61.268  -1.133  25.232  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.001  -0.983  24.997  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      58.246  -1.642  24.563  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      57.448  -1.999  23.039  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      59.173  -1.694  23.074  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      66.070  -1.803  32.389  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      67.724  -2.250  31.953  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      66.808  -3.252  33.099  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.171', True, 'REMARK  Energy: 235.642\nREMARK  SimpleFitness: 235.642\nREMARK  FullFitness: -837.7015\nREMARK  InterFull: -18.1905\nREMARK  IntraFull: 266.935\nREMARK  solvFull: -1260.11\nREMARK  surfFull: 173.664\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1260.11\nREMARK  deltaGcompsolvnonpol: 173.664\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.8131\nREMARK  deltaGligsolvnonpol: 12.6575\nREMARK  deltaGvdw: -18.1905\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.0678744\nREMARK  Cluster: 18\nREMARK  ClusterRank: 5\n', 171), ({'deltaGligsolvpol': -4.80122, 'surfFull': 173.284, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.284, 'SimpleFitness': 236.756, 'InterFull': -17.7937, 'extraFull': 0.0, 'Energy': 236.756, 'solvFull': -1259.76, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 18, 'deltaGligsolvnonpol': 12.637, 'deltaGcompsolvpol': -1259.76, 'FullFitness': -836.20074, 'deltaG': -6.043655, 'ClusterRank': 6, 'IntraFull': 268.069, 'deltaGvdw': -17.7937}, 'V', ['REMARK  Energy: 236.756\n', 'REMARK  SimpleFitness: 236.756\n', 'REMARK  FullFitness: -836.20074\n', 'REMARK  InterFull: -17.7937\n', 'REMARK  IntraFull: 268.069\n', 'REMARK  solvFull: -1259.76\n', 'REMARK  surfFull: 173.284\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1259.76\n', 'REMARK  deltaGcompsolvnonpol: 173.284\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.80122\n', 'REMARK  deltaGligsolvnonpol: 12.637\n', 'REMARK  deltaGvdw: -17.7937\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.043655\n', 'REMARK  Cluster: 18\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      60.361  -3.410  26.214  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      61.685  -3.642  26.901  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      60.448  -3.911  24.778  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      59.275  -4.174  26.954  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      62.864  -2.991  26.224  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      61.770  -3.186  28.329  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      59.127  -3.619  24.034  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      61.704  -3.406  24.053  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      58.031  -4.341  26.157  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      63.954  -3.357  27.236  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      62.978  -3.624  24.853  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      62.721  -1.468  26.088  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      63.258  -3.061  28.564  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      57.945  -4.078  24.846  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.172  -4.379  22.709  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      58.944  -2.121  23.773  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      65.341  -2.705  27.042  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.639  -4.218  24.132  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      57.848  -4.431  21.978  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      66.119  -2.408  28.325  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.200  -3.574  26.142  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      56.792  -5.043  22.870  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.492  -3.605  29.190  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.553  -5.062  22.173  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      67.037  -3.113  30.493  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      66.221  -2.949  31.728  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      67.082  -4.098  31.549  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      64.781  -3.314  31.805  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      66.690  -1.991  32.765  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      60.119  -2.346  26.236  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      61.864  -4.722  26.900  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.559  -4.999  24.839  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      59.031  -3.648  27.881  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      59.641  -5.166  27.234  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      61.312  -3.903  29.016  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      61.278  -2.219  28.466  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      61.616  -2.346  23.813  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      61.818  -3.922  23.098  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      57.148  -4.679  26.685  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      64.092  -4.441  27.188  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      63.162  -4.697  24.957  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.823  -3.196  24.310  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      63.572  -3.771  29.329  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.473  -2.054  28.923  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.503  -5.406  22.893  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      59.905  -3.921  22.046  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      65.234  -1.743  26.539  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      56.256  -3.227  23.874  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      55.871  -4.672  24.769  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.949  -5.018  21.061  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      57.540  -3.430  21.664  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.566  -1.684  28.921  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      67.046  -1.896  28.050  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.061  -6.074  23.119  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      67.262  -4.197  28.689  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.641  -4.270  29.345  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      67.903  -2.477  30.360  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      64.557  -4.225  31.243  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      64.166  -2.500  31.415  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      64.496  -3.487  32.846  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.726  -5.479  21.312  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      65.779  -3.632  25.137  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      66.274  -4.592  26.534  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      67.209  -3.162  26.060  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      62.781  -0.946  27.046  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      61.780  -1.170  25.623  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.522  -1.073  25.457  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      58.887  -1.549  24.703  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      58.029  -1.910  23.214  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      59.768  -1.711  23.187  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      66.026  -1.124  32.803  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      67.701  -1.631  32.556  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      66.687  -2.466  33.750  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.172', True, 'REMARK  Energy: 236.756\nREMARK  SimpleFitness: 236.756\nREMARK  FullFitness: -836.20074\nREMARK  InterFull: -17.7937\nREMARK  IntraFull: 268.069\nREMARK  solvFull: -1259.76\nREMARK  surfFull: 173.284\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1259.76\nREMARK  deltaGcompsolvnonpol: 173.284\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.80122\nREMARK  deltaGligsolvnonpol: 12.637\nREMARK  deltaGvdw: -17.7937\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.043655\nREMARK  Cluster: 18\nREMARK  ClusterRank: 6\n', 172), ({'deltaGligsolvpol': -4.80122, 'surfFull': 173.284, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.284, 'SimpleFitness': 236.756, 'InterFull': -17.7937, 'extraFull': 0.0, 'Energy': 236.756, 'solvFull': -1259.76, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 18, 'deltaGligsolvnonpol': 12.637, 'deltaGcompsolvpol': -1259.76, 'FullFitness': -836.20074, 'deltaG': -6.043655, 'ClusterRank': 7, 'IntraFull': 268.069, 'deltaGvdw': -17.7937}, 'V', ['REMARK  Energy: 236.756\n', 'REMARK  SimpleFitness: 236.756\n', 'REMARK  FullFitness: -836.20074\n', 'REMARK  InterFull: -17.7937\n', 'REMARK  IntraFull: 268.069\n', 'REMARK  solvFull: -1259.76\n', 'REMARK  surfFull: 173.284\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1259.76\n', 'REMARK  deltaGcompsolvnonpol: 173.284\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.80122\n', 'REMARK  deltaGligsolvnonpol: 12.637\n', 'REMARK  deltaGvdw: -17.7937\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.043655\n', 'REMARK  Cluster: 18\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      60.361  -3.410  26.214  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      61.685  -3.642  26.901  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      60.448  -3.911  24.778  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      59.275  -4.174  26.954  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      62.864  -2.991  26.224  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      61.770  -3.186  28.329  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      59.127  -3.619  24.034  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      61.704  -3.406  24.053  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      58.031  -4.341  26.157  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      63.954  -3.357  27.236  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      62.978  -3.624  24.853  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      62.721  -1.468  26.088  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      63.258  -3.061  28.564  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      57.945  -4.078  24.846  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.172  -4.379  22.709  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      58.944  -2.121  23.773  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      65.341  -2.705  27.042  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      56.639  -4.218  24.132  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      57.848  -4.431  21.978  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      66.119  -2.408  28.325  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.200  -3.574  26.142  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      56.792  -5.043  22.870  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.492  -3.605  29.190  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      55.553  -5.062  22.173  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      67.037  -3.113  30.493  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      66.221  -2.949  31.728  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      67.082  -4.098  31.549  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      64.781  -3.314  31.805  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      66.690  -1.991  32.765  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      60.119  -2.346  26.236  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      61.864  -4.722  26.900  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      60.559  -4.999  24.839  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      59.031  -3.648  27.881  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      59.641  -5.166  27.234  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      61.312  -3.903  29.016  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      61.278  -2.219  28.466  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      61.616  -2.346  23.813  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      61.818  -3.922  23.098  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      57.148  -4.679  26.685  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      64.092  -4.441  27.188  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      63.162  -4.697  24.957  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      63.823  -3.196  24.310  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      63.572  -3.771  29.329  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      63.473  -2.054  28.923  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      59.503  -5.406  22.893  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      59.905  -3.921  22.046  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      65.234  -1.743  26.539  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      56.256  -3.227  23.874  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      55.871  -4.672  24.769  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.949  -5.018  21.061  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      57.540  -3.430  21.664  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      65.566  -1.684  28.921  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      67.046  -1.896  28.050  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      57.061  -6.074  23.119  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      67.262  -4.197  28.689  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.641  -4.270  29.345  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      67.903  -2.477  30.360  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      64.557  -4.225  31.243  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      64.166  -2.500  31.415  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      64.496  -3.487  32.846  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      55.726  -5.479  21.312  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      65.779  -3.632  25.137  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      66.274  -4.592  26.534  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      67.209  -3.162  26.060  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      62.781  -0.946  27.046  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      61.780  -1.170  25.623  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      63.522  -1.073  25.457  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      58.887  -1.549  24.703  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      58.029  -1.910  23.214  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      59.768  -1.711  23.187  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      66.026  -1.124  32.803  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      67.701  -1.631  32.556  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      66.687  -2.466  33.750  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.173', True, 'REMARK  Energy: 236.756\nREMARK  SimpleFitness: 236.756\nREMARK  FullFitness: -836.20074\nREMARK  InterFull: -17.7937\nREMARK  IntraFull: 268.069\nREMARK  solvFull: -1259.76\nREMARK  surfFull: 173.284\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1259.76\nREMARK  deltaGcompsolvnonpol: 173.284\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.80122\nREMARK  deltaGligsolvnonpol: 12.637\nREMARK  deltaGvdw: -17.7937\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.043655\nREMARK  Cluster: 18\nREMARK  ClusterRank: 7\n', 173), ({'deltaGligsolvpol': -4.87531, 'surfFull': 173.815, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.815, 'SimpleFitness': 241.052, 'InterFull': -22.9846, 'extraFull': 0.0, 'Energy': 241.052, 'solvFull': -1263.46, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 19, 'deltaGligsolvnonpol': 12.7416, 'deltaGcompsolvpol': -1263.46, 'FullFitness': -838.27155, 'deltaG': -6.716279, 'ClusterRank': 0, 'IntraFull': 274.358, 'deltaGvdw': -22.9846}, 'V', ['REMARK  Energy: 241.052\n', 'REMARK  SimpleFitness: 241.052\n', 'REMARK  FullFitness: -838.27155\n', 'REMARK  InterFull: -22.9846\n', 'REMARK  IntraFull: 274.358\n', 'REMARK  solvFull: -1263.46\n', 'REMARK  surfFull: 173.815\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1263.46\n', 'REMARK  deltaGcompsolvnonpol: 173.815\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.87531\n', 'REMARK  deltaGligsolvnonpol: 12.7416\n', 'REMARK  deltaGvdw: -22.9846\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.716279\n', 'REMARK  Cluster: 19\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      78.263  10.174  29.343  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.250   8.858  28.601  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.675  10.745  29.320  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.314  11.143  28.657  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.178   7.805  29.161  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.916   8.183  28.499  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.746  12.058  30.133  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      80.725   9.700  29.721  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.527  12.548  29.087  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.784   6.639  28.242  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.569   8.380  28.976  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.910   7.484  30.631  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      77.259   6.747  28.168  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.594  12.966  29.776  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      81.066  12.751  29.789  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      79.705  11.794  31.640  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.266   5.182  28.441  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      78.690  14.395  30.206  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      81.157  14.178  30.294  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.783   4.977  28.476  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.540   4.349  29.487  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      80.004  14.998  29.757  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.431   4.846  29.853  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      80.107  16.327  30.249  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.783   4.226  29.728  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      84.019   4.997  29.448  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.703   4.564  30.791  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      83.999   6.475  29.268  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      85.167   4.281  28.831  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      77.926  10.026  30.372  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.571   9.066  27.575  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.885  10.992  28.275  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      76.281  10.860  28.878  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.439  11.087  27.572  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.287   8.638  27.736  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.389   8.246  29.452  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.689   9.500  30.792  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.726  10.087  29.518  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      76.752  13.260  28.830  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.160   6.925  27.255  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.760   8.543  27.912  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.321   7.680  29.336  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      76.897   6.470  27.175  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      76.740   6.112  28.888  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      81.195  12.763  28.703  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      81.905  12.185  30.202  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.966   4.712  27.501  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      78.609  14.460  31.295  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      77.863  14.997  29.815  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      82.106  14.625  29.985  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      81.154  14.203  31.388  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.283   5.761  27.900  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.991   4.052  27.934  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      80.051  15.038  28.665  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.858   4.190  30.510  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      81.481   5.817  30.348  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.735   3.191  29.412  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      83.357   6.970  30.002  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      83.638   6.725  28.267  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      85.009   6.878  29.380  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      80.079  16.267  31.219  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.478   4.247  29.258  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.638   4.770  30.489  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.954   3.337  29.502  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.950   6.984  30.771  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      78.907   8.370  31.269  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.680   6.816  31.018  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      78.833  11.198  31.921  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      79.665  12.718  32.222  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      80.600  11.260  31.969  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      85.155   4.422  27.748  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      85.130   3.207  29.038  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      86.110   4.674  29.221  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.174', True, 'REMARK  Energy: 241.052\nREMARK  SimpleFitness: 241.052\nREMARK  FullFitness: -838.27155\nREMARK  InterFull: -22.9846\nREMARK  IntraFull: 274.358\nREMARK  solvFull: -1263.46\nREMARK  surfFull: 173.815\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1263.46\nREMARK  deltaGcompsolvnonpol: 173.815\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.87531\nREMARK  deltaGligsolvnonpol: 12.7416\nREMARK  deltaGvdw: -22.9846\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.716279\nREMARK  Cluster: 19\nREMARK  ClusterRank: 0\n', 174), ({'deltaGligsolvpol': -4.87531, 'surfFull': 173.815, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.815, 'SimpleFitness': 241.052, 'InterFull': -22.9846, 'extraFull': 0.0, 'Energy': 241.052, 'solvFull': -1263.46, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 19, 'deltaGligsolvnonpol': 12.7416, 'deltaGcompsolvpol': -1263.46, 'FullFitness': -838.27155, 'deltaG': -6.716279, 'ClusterRank': 1, 'IntraFull': 274.358, 'deltaGvdw': -22.9846}, 'V', ['REMARK  Energy: 241.052\n', 'REMARK  SimpleFitness: 241.052\n', 'REMARK  FullFitness: -838.27155\n', 'REMARK  InterFull: -22.9846\n', 'REMARK  IntraFull: 274.358\n', 'REMARK  solvFull: -1263.46\n', 'REMARK  surfFull: 173.815\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1263.46\n', 'REMARK  deltaGcompsolvnonpol: 173.815\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.87531\n', 'REMARK  deltaGligsolvnonpol: 12.7416\n', 'REMARK  deltaGvdw: -22.9846\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.716279\n', 'REMARK  Cluster: 19\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      78.263  10.174  29.343  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.250   8.858  28.601  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.675  10.745  29.320  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.314  11.143  28.657  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.178   7.805  29.161  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.916   8.183  28.499  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.746  12.058  30.133  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      80.725   9.700  29.721  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.527  12.548  29.087  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.784   6.639  28.242  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.569   8.380  28.976  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.910   7.484  30.631  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      77.259   6.747  28.168  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.594  12.966  29.776  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      81.066  12.751  29.789  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      79.705  11.794  31.640  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.266   5.182  28.441  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      78.690  14.395  30.206  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      81.157  14.178  30.294  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.783   4.977  28.476  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.540   4.349  29.487  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      80.004  14.998  29.757  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.431   4.846  29.853  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      80.107  16.327  30.249  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.783   4.226  29.728  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      84.019   4.997  29.448  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.703   4.564  30.791  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      83.999   6.475  29.268  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      85.167   4.281  28.831  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      77.926  10.026  30.372  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.571   9.066  27.575  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.885  10.992  28.275  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      76.281  10.860  28.878  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.439  11.087  27.572  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.287   8.638  27.736  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.389   8.246  29.452  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.689   9.500  30.792  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.726  10.087  29.518  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      76.752  13.260  28.830  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.160   6.925  27.255  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.760   8.543  27.912  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.321   7.680  29.336  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      76.897   6.470  27.175  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      76.740   6.112  28.888  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      81.195  12.763  28.703  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      81.905  12.185  30.202  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.966   4.712  27.501  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      78.609  14.460  31.295  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      77.863  14.997  29.815  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      82.106  14.625  29.985  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      81.154  14.203  31.388  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.283   5.761  27.900  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.991   4.052  27.934  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      80.051  15.038  28.665  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.858   4.190  30.510  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      81.481   5.817  30.348  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.735   3.191  29.412  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      83.357   6.970  30.002  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      83.638   6.725  28.267  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      85.009   6.878  29.380  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      80.079  16.267  31.219  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.478   4.247  29.258  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.638   4.770  30.489  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.954   3.337  29.502  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.950   6.984  30.771  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      78.907   8.370  31.269  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.680   6.816  31.018  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      78.833  11.198  31.921  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      79.665  12.718  32.222  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      80.600  11.260  31.969  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      85.155   4.422  27.748  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      85.130   3.207  29.038  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      86.110   4.674  29.221  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.175', True, 'REMARK  Energy: 241.052\nREMARK  SimpleFitness: 241.052\nREMARK  FullFitness: -838.27155\nREMARK  InterFull: -22.9846\nREMARK  IntraFull: 274.358\nREMARK  solvFull: -1263.46\nREMARK  surfFull: 173.815\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1263.46\nREMARK  deltaGcompsolvnonpol: 173.815\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.87531\nREMARK  deltaGligsolvnonpol: 12.7416\nREMARK  deltaGvdw: -22.9846\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.716279\nREMARK  Cluster: 19\nREMARK  ClusterRank: 1\n', 175), ({'deltaGligsolvpol': -4.81415, 'surfFull': 173.72, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.72, 'SimpleFitness': 241.907, 'InterFull': -21.9789, 'extraFull': 0.0, 'Energy': 241.907, 'solvFull': -1264.85, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 19, 'deltaGligsolvnonpol': 12.7538, 'deltaGcompsolvpol': -1264.85, 'FullFitness': -837.70483, 'deltaG': -6.720093, 'ClusterRank': 2, 'IntraFull': 275.404, 'deltaGvdw': -21.9789}, 'V', ['REMARK  Energy: 241.907\n', 'REMARK  SimpleFitness: 241.907\n', 'REMARK  FullFitness: -837.70483\n', 'REMARK  InterFull: -21.9789\n', 'REMARK  IntraFull: 275.404\n', 'REMARK  solvFull: -1264.85\n', 'REMARK  surfFull: 173.72\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1264.85\n', 'REMARK  deltaGcompsolvnonpol: 173.72\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.81415\n', 'REMARK  deltaGligsolvnonpol: 12.7538\n', 'REMARK  deltaGvdw: -21.9789\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.720093\n', 'REMARK  Cluster: 19\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      78.278  10.196  29.323  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.245   8.878  28.585  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.693  10.759  29.286  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.331  11.170  28.643  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.176   7.820  29.130  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.903   8.216  28.513  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.773  12.066  30.110  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      80.745   9.707  29.661  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.548  12.572  29.082  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.752   6.655  28.223  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.568   8.390  28.916  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.935   7.505  30.607  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      77.227   6.779  28.170  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.621  12.980  29.770  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      81.091  12.762  29.766  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      79.745  11.788  31.615  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.214   5.193  28.420  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      78.720  14.403  30.217  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      81.190  14.181  30.292  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.727   4.966  28.456  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.477   4.364  29.462  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      80.034  15.013  29.780  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.392   4.867  29.830  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      80.135  16.329  30.309  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.623   4.025  29.749  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.916   4.519  29.215  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.692   4.417  30.641  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      84.086   5.918  28.730  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      84.872   3.517  28.674  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      77.950  10.051  30.355  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.548   9.081  27.553  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.889  11.016  28.239  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      76.297  10.891  28.863  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.457  11.122  27.558  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.258   8.678  27.768  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.401   8.278  29.480  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.731   9.506  30.733  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.743  10.092  29.438  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      76.774  13.288  28.839  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.117   6.932  27.229  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.732   8.557  27.848  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.330   7.687  29.251  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      76.849   6.514  27.180  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      76.710   6.147  28.893  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      81.211  12.789  28.679  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      81.932  12.188  30.163  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.910   4.727  27.479  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      78.636  14.452  31.307  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      77.893  15.012  29.835  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      82.136  14.632  29.978  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      81.199  14.190  31.385  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.230   5.728  27.855  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.914   4.026  27.934  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      80.076  15.082  28.690  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.747   4.394  30.571  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      81.619   5.863  30.214  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.397   2.971  29.656  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      83.517   6.635  29.327  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      83.757   5.994  27.690  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      85.140   6.202  28.777  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      81.061  16.603  30.199  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.420   4.250  29.212  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.552   4.799  30.460  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.901   3.356  29.497  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.975   7.012  30.767  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      78.951   8.393  31.241  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.710   6.833  30.981  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      78.873  11.192  31.899  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      79.712  12.706  32.208  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      80.641  11.249  31.932  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      84.732   3.410  27.595  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      84.729   2.536  29.137  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      85.900   3.839  28.860  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.176', True, 'REMARK  Energy: 241.907\nREMARK  SimpleFitness: 241.907\nREMARK  FullFitness: -837.70483\nREMARK  InterFull: -21.9789\nREMARK  IntraFull: 275.404\nREMARK  solvFull: -1264.85\nREMARK  surfFull: 173.72\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1264.85\nREMARK  deltaGcompsolvnonpol: 173.72\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.81415\nREMARK  deltaGligsolvnonpol: 12.7538\nREMARK  deltaGvdw: -21.9789\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.720093\nREMARK  Cluster: 19\nREMARK  ClusterRank: 2\n', 176), ({'deltaGligsolvpol': -4.81415, 'surfFull': 173.72, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.72, 'SimpleFitness': 241.907, 'InterFull': -21.9789, 'extraFull': 0.0, 'Energy': 241.907, 'solvFull': -1264.85, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 19, 'deltaGligsolvnonpol': 12.7538, 'deltaGcompsolvpol': -1264.85, 'FullFitness': -837.70483, 'deltaG': -6.720093, 'ClusterRank': 3, 'IntraFull': 275.404, 'deltaGvdw': -21.9789}, 'V', ['REMARK  Energy: 241.907\n', 'REMARK  SimpleFitness: 241.907\n', 'REMARK  FullFitness: -837.70483\n', 'REMARK  InterFull: -21.9789\n', 'REMARK  IntraFull: 275.404\n', 'REMARK  solvFull: -1264.85\n', 'REMARK  surfFull: 173.72\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1264.85\n', 'REMARK  deltaGcompsolvnonpol: 173.72\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.81415\n', 'REMARK  deltaGligsolvnonpol: 12.7538\n', 'REMARK  deltaGvdw: -21.9789\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.720093\n', 'REMARK  Cluster: 19\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      78.278  10.196  29.323  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.245   8.878  28.585  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.693  10.759  29.286  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.331  11.170  28.643  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.176   7.820  29.130  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.903   8.216  28.513  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.773  12.066  30.110  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      80.745   9.707  29.661  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.548  12.572  29.082  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.752   6.655  28.223  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.568   8.390  28.916  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.935   7.505  30.607  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      77.227   6.779  28.170  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.621  12.980  29.770  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      81.091  12.762  29.766  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      79.745  11.788  31.615  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.214   5.193  28.420  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      78.720  14.403  30.217  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      81.190  14.181  30.292  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.727   4.966  28.456  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.477   4.364  29.462  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      80.034  15.013  29.780  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.392   4.867  29.830  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      80.135  16.329  30.309  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.623   4.025  29.749  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.916   4.519  29.215  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.692   4.417  30.641  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      84.086   5.918  28.730  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      84.872   3.517  28.674  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      77.950  10.051  30.355  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.548   9.081  27.553  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.889  11.016  28.239  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      76.297  10.891  28.863  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.457  11.122  27.558  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.258   8.678  27.768  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.401   8.278  29.480  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.731   9.506  30.733  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.743  10.092  29.438  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      76.774  13.288  28.839  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.117   6.932  27.229  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.732   8.557  27.848  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.330   7.687  29.251  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      76.849   6.514  27.180  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      76.710   6.147  28.893  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      81.211  12.789  28.679  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      81.932  12.188  30.163  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.910   4.727  27.479  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      78.636  14.452  31.307  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      77.893  15.012  29.835  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      82.136  14.632  29.978  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      81.199  14.190  31.385  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.230   5.728  27.855  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.914   4.026  27.934  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      80.076  15.082  28.690  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.747   4.394  30.571  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      81.619   5.863  30.214  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.397   2.971  29.656  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      83.517   6.635  29.327  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      83.757   5.994  27.690  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      85.140   6.202  28.777  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      81.061  16.603  30.199  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.420   4.250  29.212  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.552   4.799  30.460  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.901   3.356  29.497  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      77.975   7.012  30.767  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      78.951   8.393  31.241  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.710   6.833  30.981  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      78.873  11.192  31.899  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      79.712  12.706  32.208  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      80.641  11.249  31.932  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      84.732   3.410  27.595  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      84.729   2.536  29.137  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      85.900   3.839  28.860  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.177', True, 'REMARK  Energy: 241.907\nREMARK  SimpleFitness: 241.907\nREMARK  FullFitness: -837.70483\nREMARK  InterFull: -21.9789\nREMARK  IntraFull: 275.404\nREMARK  solvFull: -1264.85\nREMARK  surfFull: 173.72\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1264.85\nREMARK  deltaGcompsolvnonpol: 173.72\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.81415\nREMARK  deltaGligsolvnonpol: 12.7538\nREMARK  deltaGvdw: -21.9789\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.720093\nREMARK  Cluster: 19\nREMARK  ClusterRank: 3\n', 177), ({'deltaGligsolvpol': -4.87778, 'surfFull': 173.741, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.741, 'SimpleFitness': 241.819, 'InterFull': -24.257, 'extraFull': 0.0, 'Energy': 241.819, 'solvFull': -1262.86, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 19, 'deltaGligsolvnonpol': 12.7529, 'deltaGcompsolvpol': -1262.86, 'FullFitness': -837.375, 'deltaG': -6.807848, 'ClusterRank': 4, 'IntraFull': 276.001, 'deltaGvdw': -24.257}, 'V', ['REMARK  Energy: 241.819\n', 'REMARK  SimpleFitness: 241.819\n', 'REMARK  FullFitness: -837.375\n', 'REMARK  InterFull: -24.257\n', 'REMARK  IntraFull: 276.001\n', 'REMARK  solvFull: -1262.86\n', 'REMARK  surfFull: 173.741\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.86\n', 'REMARK  deltaGcompsolvnonpol: 173.741\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.87778\n', 'REMARK  deltaGligsolvnonpol: 12.7529\n', 'REMARK  deltaGvdw: -24.257\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.807848\n', 'REMARK  Cluster: 19\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      78.328  10.236  29.366  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.256   8.932  28.607  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.749  10.780  29.291  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.369  11.231  28.735  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.187   7.855  29.114  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.903   8.287  28.557  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.877  12.077  30.124  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      80.798   9.711  29.624  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.628  12.626  29.175  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.727   6.707  28.206  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.580   8.408  28.866  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.982   7.524  30.592  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      77.202   6.848  28.198  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.731  13.011  29.827  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      81.198  12.749  29.746  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      79.889  11.784  31.627  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.188   5.239  28.376  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      78.869  14.430  30.277  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      81.334  14.168  30.267  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.702   5.007  28.385  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.460   4.400  29.416  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      80.176  15.017  29.789  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.391   4.879  29.745  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      80.321  16.333  30.307  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.570   3.967  29.646  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.883   4.380  29.090  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.675   4.297  30.519  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      84.137   5.764  28.599  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      84.769   3.318  28.540  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      78.033  10.078  30.405  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.535   9.147  27.571  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.918  11.045  28.242  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      76.342  10.965  29.001  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.443  11.189  27.645  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.249   8.763  27.827  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.421   8.348  29.534  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.810   9.494  30.693  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.795  10.083  29.378  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      76.860  13.357  28.960  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.068   6.992  27.206  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.716   8.588  27.796  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.342   7.691  29.170  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      76.793   6.590  27.218  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      76.700   6.217  28.932  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      81.292  12.773  28.657  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      82.039  12.162  30.124  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.870   4.788  27.432  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      78.830  14.475  31.370  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      78.039  15.054  29.929  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      82.277  14.602  29.924  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      81.376  14.176  31.360  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.200   5.776  27.791  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.878   4.078  27.841  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      80.181  15.080  28.697  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.737   4.455  30.507  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      81.684   5.864  30.112  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.279   2.927  29.564  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      83.625   6.519  29.201  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      83.802   5.860  27.563  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      85.208   5.979  28.631  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      80.336  16.251  31.276  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.400   4.294  29.173  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.542   4.826  30.417  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.880   3.391  29.440  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      78.014   7.053  30.774  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.037   8.400  31.239  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.750   6.828  30.932  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      79.017  11.200  31.931  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      79.890  12.697  32.227  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      80.785  11.227  31.912  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      84.635   3.243  27.458  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      84.548   2.341  28.980  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      85.817   3.556  28.742  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.178', True, 'REMARK  Energy: 241.819\nREMARK  SimpleFitness: 241.819\nREMARK  FullFitness: -837.375\nREMARK  InterFull: -24.257\nREMARK  IntraFull: 276.001\nREMARK  solvFull: -1262.86\nREMARK  surfFull: 173.741\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.86\nREMARK  deltaGcompsolvnonpol: 173.741\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.87778\nREMARK  deltaGligsolvnonpol: 12.7529\nREMARK  deltaGvdw: -24.257\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.807848\nREMARK  Cluster: 19\nREMARK  ClusterRank: 4\n', 178), ({'deltaGligsolvpol': -4.87778, 'surfFull': 173.741, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.741, 'SimpleFitness': 241.819, 'InterFull': -24.257, 'extraFull': 0.0, 'Energy': 241.819, 'solvFull': -1262.86, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 19, 'deltaGligsolvnonpol': 12.7529, 'deltaGcompsolvpol': -1262.86, 'FullFitness': -837.375, 'deltaG': -6.807848, 'ClusterRank': 5, 'IntraFull': 276.001, 'deltaGvdw': -24.257}, 'V', ['REMARK  Energy: 241.819\n', 'REMARK  SimpleFitness: 241.819\n', 'REMARK  FullFitness: -837.375\n', 'REMARK  InterFull: -24.257\n', 'REMARK  IntraFull: 276.001\n', 'REMARK  solvFull: -1262.86\n', 'REMARK  surfFull: 173.741\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.86\n', 'REMARK  deltaGcompsolvnonpol: 173.741\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.87778\n', 'REMARK  deltaGligsolvnonpol: 12.7529\n', 'REMARK  deltaGvdw: -24.257\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.807848\n', 'REMARK  Cluster: 19\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      78.328  10.236  29.366  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.256   8.932  28.607  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.749  10.780  29.291  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.369  11.231  28.735  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.187   7.855  29.114  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.903   8.287  28.557  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.877  12.077  30.124  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      80.798   9.711  29.624  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.628  12.626  29.175  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.727   6.707  28.206  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.580   8.408  28.866  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.982   7.524  30.592  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      77.202   6.848  28.198  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.731  13.011  29.827  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      81.198  12.749  29.746  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      79.889  11.784  31.627  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.188   5.239  28.376  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      78.869  14.430  30.277  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      81.334  14.168  30.267  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.702   5.007  28.385  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.460   4.400  29.416  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      80.176  15.017  29.789  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.391   4.879  29.745  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      80.321  16.333  30.307  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.570   3.967  29.646  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.883   4.380  29.090  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.675   4.297  30.519  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      84.137   5.764  28.599  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      84.769   3.318  28.540  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      78.033  10.078  30.405  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.535   9.147  27.571  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.918  11.045  28.242  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      76.342  10.965  29.001  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.443  11.189  27.645  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.249   8.763  27.827  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.421   8.348  29.534  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.810   9.494  30.693  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.795  10.083  29.378  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      76.860  13.357  28.960  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.068   6.992  27.206  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.716   8.588  27.796  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.342   7.691  29.170  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      76.793   6.590  27.218  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      76.700   6.217  28.932  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      81.292  12.773  28.657  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      82.039  12.162  30.124  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.870   4.788  27.432  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      78.830  14.475  31.370  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      78.039  15.054  29.929  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      82.277  14.602  29.924  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      81.376  14.176  31.360  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.200   5.776  27.791  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.878   4.078  27.841  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      80.181  15.080  28.697  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.737   4.455  30.507  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      81.684   5.864  30.112  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.279   2.927  29.564  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      83.625   6.519  29.201  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      83.802   5.860  27.563  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      85.208   5.979  28.631  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      80.336  16.251  31.276  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.400   4.294  29.173  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.542   4.826  30.417  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.880   3.391  29.440  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      78.014   7.053  30.774  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.037   8.400  31.239  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.750   6.828  30.932  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      79.017  11.200  31.931  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      79.890  12.697  32.227  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      80.785  11.227  31.912  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      84.635   3.243  27.458  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      84.548   2.341  28.980  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      85.817   3.556  28.742  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.179', True, 'REMARK  Energy: 241.819\nREMARK  SimpleFitness: 241.819\nREMARK  FullFitness: -837.375\nREMARK  InterFull: -24.257\nREMARK  IntraFull: 276.001\nREMARK  solvFull: -1262.86\nREMARK  surfFull: 173.741\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.86\nREMARK  deltaGcompsolvnonpol: 173.741\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.87778\nREMARK  deltaGligsolvnonpol: 12.7529\nREMARK  deltaGvdw: -24.257\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.807848\nREMARK  Cluster: 19\nREMARK  ClusterRank: 5\n', 179), ({'deltaGligsolvpol': -4.87778, 'surfFull': 173.741, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.741, 'SimpleFitness': 241.819, 'InterFull': -24.257, 'extraFull': 0.0, 'Energy': 241.819, 'solvFull': -1262.86, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 19, 'deltaGligsolvnonpol': 12.7529, 'deltaGcompsolvpol': -1262.86, 'FullFitness': -837.375, 'deltaG': -6.807848, 'ClusterRank': 6, 'IntraFull': 276.001, 'deltaGvdw': -24.257}, 'V', ['REMARK  Energy: 241.819\n', 'REMARK  SimpleFitness: 241.819\n', 'REMARK  FullFitness: -837.375\n', 'REMARK  InterFull: -24.257\n', 'REMARK  IntraFull: 276.001\n', 'REMARK  solvFull: -1262.86\n', 'REMARK  surfFull: 173.741\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.86\n', 'REMARK  deltaGcompsolvnonpol: 173.741\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.87778\n', 'REMARK  deltaGligsolvnonpol: 12.7529\n', 'REMARK  deltaGvdw: -24.257\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.807848\n', 'REMARK  Cluster: 19\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      78.328  10.236  29.366  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.256   8.932  28.607  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.749  10.780  29.291  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.369  11.231  28.735  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.187   7.855  29.114  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.903   8.287  28.557  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.877  12.077  30.124  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      80.798   9.711  29.624  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.628  12.626  29.175  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.727   6.707  28.206  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.580   8.408  28.866  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.982   7.524  30.592  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      77.202   6.848  28.198  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.731  13.011  29.827  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      81.198  12.749  29.746  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      79.889  11.784  31.627  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.188   5.239  28.376  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      78.869  14.430  30.277  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      81.334  14.168  30.267  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.702   5.007  28.385  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.460   4.400  29.416  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      80.176  15.017  29.789  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.391   4.879  29.745  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      80.321  16.333  30.307  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.570   3.967  29.646  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.883   4.380  29.090  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.675   4.297  30.519  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      84.137   5.764  28.599  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      84.769   3.318  28.540  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      78.033  10.078  30.405  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.535   9.147  27.571  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.918  11.045  28.242  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      76.342  10.965  29.001  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.443  11.189  27.645  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.249   8.763  27.827  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.421   8.348  29.534  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.810   9.494  30.693  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.795  10.083  29.378  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      76.860  13.357  28.960  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.068   6.992  27.206  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.716   8.588  27.796  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.342   7.691  29.170  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      76.793   6.590  27.218  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      76.700   6.217  28.932  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      81.292  12.773  28.657  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      82.039  12.162  30.124  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.870   4.788  27.432  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      78.830  14.475  31.370  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      78.039  15.054  29.929  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      82.277  14.602  29.924  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      81.376  14.176  31.360  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.200   5.776  27.791  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.878   4.078  27.841  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      80.181  15.080  28.697  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.737   4.455  30.507  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      81.684   5.864  30.112  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.279   2.927  29.564  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      83.625   6.519  29.201  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      83.802   5.860  27.563  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      85.208   5.979  28.631  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      80.336  16.251  31.276  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.400   4.294  29.173  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.542   4.826  30.417  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.880   3.391  29.440  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      78.014   7.053  30.774  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.037   8.400  31.239  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.750   6.828  30.932  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      79.017  11.200  31.931  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      79.890  12.697  32.227  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      80.785  11.227  31.912  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      84.635   3.243  27.458  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      84.548   2.341  28.980  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      85.817   3.556  28.742  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.180', True, 'REMARK  Energy: 241.819\nREMARK  SimpleFitness: 241.819\nREMARK  FullFitness: -837.375\nREMARK  InterFull: -24.257\nREMARK  IntraFull: 276.001\nREMARK  solvFull: -1262.86\nREMARK  surfFull: 173.741\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.86\nREMARK  deltaGcompsolvnonpol: 173.741\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.87778\nREMARK  deltaGligsolvnonpol: 12.7529\nREMARK  deltaGvdw: -24.257\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.807848\nREMARK  Cluster: 19\nREMARK  ClusterRank: 6\n', 180), ({'deltaGligsolvpol': -4.87778, 'surfFull': 173.741, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.741, 'SimpleFitness': 241.819, 'InterFull': -24.257, 'extraFull': 0.0, 'Energy': 241.819, 'solvFull': -1262.86, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 19, 'deltaGligsolvnonpol': 12.7529, 'deltaGcompsolvpol': -1262.86, 'FullFitness': -837.375, 'deltaG': -6.807848, 'ClusterRank': 7, 'IntraFull': 276.001, 'deltaGvdw': -24.257}, 'V', ['REMARK  Energy: 241.819\n', 'REMARK  SimpleFitness: 241.819\n', 'REMARK  FullFitness: -837.375\n', 'REMARK  InterFull: -24.257\n', 'REMARK  IntraFull: 276.001\n', 'REMARK  solvFull: -1262.86\n', 'REMARK  surfFull: 173.741\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1262.86\n', 'REMARK  deltaGcompsolvnonpol: 173.741\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.87778\n', 'REMARK  deltaGligsolvnonpol: 12.7529\n', 'REMARK  deltaGvdw: -24.257\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.807848\n', 'REMARK  Cluster: 19\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      78.328  10.236  29.366  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.256   8.932  28.607  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      79.749  10.780  29.291  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.369  11.231  28.735  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.187   7.855  29.114  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.903   8.287  28.557  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      79.877  12.077  30.124  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      80.798   9.711  29.624  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.628  12.626  29.175  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.727   6.707  28.206  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.580   8.408  28.866  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      78.982   7.524  30.592  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      77.202   6.848  28.198  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      78.731  13.011  29.827  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      81.198  12.749  29.746  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      79.889  11.784  31.627  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.188   5.239  28.376  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      78.869  14.430  30.277  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      81.334  14.168  30.267  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.702   5.007  28.385  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.460   4.400  29.416  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      80.176  15.017  29.789  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.391   4.879  29.745  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      80.321  16.333  30.307  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.570   3.967  29.646  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.883   4.380  29.090  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.675   4.297  30.519  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      84.137   5.764  28.599  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      84.769   3.318  28.540  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      78.033  10.078  30.405  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.535   9.147  27.571  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.918  11.045  28.242  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      76.342  10.965  29.001  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.443  11.189  27.645  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.249   8.763  27.827  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.421   8.348  29.534  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      80.810   9.494  30.693  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.795  10.083  29.378  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      76.860  13.357  28.960  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.068   6.992  27.206  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.716   8.588  27.796  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.342   7.691  29.170  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      76.793   6.590  27.218  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      76.700   6.217  28.932  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      81.292  12.773  28.657  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      82.039  12.162  30.124  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.870   4.788  27.432  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      78.830  14.475  31.370  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      78.039  15.054  29.929  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      82.277  14.602  29.924  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      81.376  14.176  31.360  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.200   5.776  27.791  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.878   4.078  27.841  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      80.181  15.080  28.697  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.737   4.455  30.507  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      81.684   5.864  30.112  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.279   2.927  29.564  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      83.625   6.519  29.201  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      83.802   5.860  27.563  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      85.208   5.979  28.631  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      80.336  16.251  31.276  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.400   4.294  29.173  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.542   4.826  30.417  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.880   3.391  29.440  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      78.014   7.053  30.774  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.037   8.400  31.239  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.750   6.828  30.932  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      79.017  11.200  31.931  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      79.890  12.697  32.227  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      80.785  11.227  31.912  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      84.635   3.243  27.458  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      84.548   2.341  28.980  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      85.817   3.556  28.742  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.181', True, 'REMARK  Energy: 241.819\nREMARK  SimpleFitness: 241.819\nREMARK  FullFitness: -837.375\nREMARK  InterFull: -24.257\nREMARK  IntraFull: 276.001\nREMARK  solvFull: -1262.86\nREMARK  surfFull: 173.741\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1262.86\nREMARK  deltaGcompsolvnonpol: 173.741\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.87778\nREMARK  deltaGligsolvnonpol: 12.7529\nREMARK  deltaGvdw: -24.257\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.807848\nREMARK  Cluster: 19\nREMARK  ClusterRank: 7\n', 181), ({'deltaGligsolvpol': -4.67505, 'surfFull': 173.514, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.514, 'SimpleFitness': 234.504, 'InterFull': -24.3121, 'extraFull': 0.0, 'Energy': 234.504, 'solvFull': -1255.42, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 20, 'deltaGligsolvnonpol': 12.692, 'deltaGcompsolvpol': -1255.42, 'FullFitness': -837.5171, 'deltaG': -6.3858557, 'ClusterRank': 0, 'IntraFull': 268.701, 'deltaGvdw': -24.3121}, 'V', ['REMARK  Energy: 234.504\n', 'REMARK  SimpleFitness: 234.504\n', 'REMARK  FullFitness: -837.5171\n', 'REMARK  InterFull: -24.3121\n', 'REMARK  IntraFull: 268.701\n', 'REMARK  solvFull: -1255.42\n', 'REMARK  surfFull: 173.514\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1255.42\n', 'REMARK  deltaGcompsolvnonpol: 173.514\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.67505\n', 'REMARK  deltaGligsolvnonpol: 12.692\n', 'REMARK  deltaGvdw: -24.3121\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.3858557\n', 'REMARK  Cluster: 20\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      67.134  -8.477  29.402  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      67.322  -7.232  28.564  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      65.639  -8.682  29.632  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      67.705  -9.658  28.639  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      66.759  -5.970  29.168  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      68.730  -6.873  28.157  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      65.361  -9.946  30.476  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      64.978  -7.418  30.182  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      67.175 -10.965  29.099  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      67.171  -4.999  28.059  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      65.265  -6.200  29.323  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      67.403  -5.618  30.512  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      68.607  -5.416  27.748  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      66.150 -11.114  29.944  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      63.864 -10.250  30.378  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      65.729  -9.737  31.946  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      67.089  -3.477  28.272  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      65.733 -12.483  30.379  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      63.477 -11.615  30.908  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      67.313  -2.729  26.954  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      65.787  -2.984  28.876  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      64.248 -12.689  30.174  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.251  -3.009  25.884  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      63.878 -13.961  30.692  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      65.579  -1.757  25.412  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      64.137  -1.684  25.046  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      64.602  -1.221  26.333  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      63.251  -2.881  25.116  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      63.660  -0.580  24.166  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.657  -8.377  30.356  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      66.772  -7.407  27.634  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      65.198  -8.847  28.643  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      68.794  -9.661  28.736  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      67.479  -9.561  27.574  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      69.089  -7.492  27.331  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      69.425  -6.981  28.995  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      65.309  -7.219  31.203  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      63.894  -7.546  30.228  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      67.663 -11.845  28.712  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.560  -5.268  27.195  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.815  -6.343  28.337  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      64.786  -5.332  29.777  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      68.836  -5.284  26.688  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      69.325  -4.815  28.314  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      63.551 -10.189  29.331  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      63.291  -9.497  30.926  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.893  -3.185  28.953  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      65.981 -12.622  31.435  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      66.281 -13.266  29.844  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      62.403 -11.777  30.780  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      63.670 -11.684  31.982  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      68.294  -2.989  26.548  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      67.355  -1.660  27.178  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      64.003 -12.668  29.108  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.518  -3.732  26.244  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      66.738  -3.474  25.023  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      66.267  -1.074  24.933  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      63.421  -3.470  26.021  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      63.418  -3.523  24.247  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      62.203  -2.569  25.114  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      62.907 -13.992  30.680  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      65.696  -3.290  29.920  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      64.922  -3.372  28.333  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      65.749  -1.892  28.849  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      68.474  -5.437  30.428  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.279  -6.412  31.251  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      66.951  -4.718  30.932  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      66.764  -9.403  32.057  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      65.621 -10.654  32.532  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      65.081  -8.991  32.412  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      64.443   0.163  23.990  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      62.802  -0.076  24.619  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      63.347  -0.976  23.197  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.182', True, 'REMARK  Energy: 234.504\nREMARK  SimpleFitness: 234.504\nREMARK  FullFitness: -837.5171\nREMARK  InterFull: -24.3121\nREMARK  IntraFull: 268.701\nREMARK  solvFull: -1255.42\nREMARK  surfFull: 173.514\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1255.42\nREMARK  deltaGcompsolvnonpol: 173.514\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.67505\nREMARK  deltaGligsolvnonpol: 12.692\nREMARK  deltaGvdw: -24.3121\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.3858557\nREMARK  Cluster: 20\nREMARK  ClusterRank: 0\n', 182), ({'deltaGligsolvpol': -4.67505, 'surfFull': 173.514, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.514, 'SimpleFitness': 234.504, 'InterFull': -24.3121, 'extraFull': 0.0, 'Energy': 234.504, 'solvFull': -1255.42, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 20, 'deltaGligsolvnonpol': 12.692, 'deltaGcompsolvpol': -1255.42, 'FullFitness': -837.5171, 'deltaG': -6.3858557, 'ClusterRank': 1, 'IntraFull': 268.701, 'deltaGvdw': -24.3121}, 'V', ['REMARK  Energy: 234.504\n', 'REMARK  SimpleFitness: 234.504\n', 'REMARK  FullFitness: -837.5171\n', 'REMARK  InterFull: -24.3121\n', 'REMARK  IntraFull: 268.701\n', 'REMARK  solvFull: -1255.42\n', 'REMARK  surfFull: 173.514\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1255.42\n', 'REMARK  deltaGcompsolvnonpol: 173.514\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.67505\n', 'REMARK  deltaGligsolvnonpol: 12.692\n', 'REMARK  deltaGvdw: -24.3121\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.3858557\n', 'REMARK  Cluster: 20\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      67.134  -8.477  29.402  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      67.322  -7.232  28.564  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      65.639  -8.682  29.632  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      67.705  -9.658  28.639  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      66.759  -5.970  29.168  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      68.730  -6.873  28.157  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      65.361  -9.946  30.476  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      64.978  -7.418  30.182  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      67.175 -10.965  29.099  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      67.171  -4.999  28.059  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      65.265  -6.200  29.323  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      67.403  -5.618  30.512  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      68.607  -5.416  27.748  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      66.150 -11.114  29.944  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      63.864 -10.250  30.378  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      65.729  -9.737  31.946  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      67.089  -3.477  28.272  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      65.733 -12.483  30.379  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      63.477 -11.615  30.908  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      67.313  -2.729  26.954  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      65.787  -2.984  28.876  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      64.248 -12.689  30.174  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.251  -3.009  25.884  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      63.878 -13.961  30.692  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      65.579  -1.757  25.412  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      64.137  -1.684  25.046  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      64.602  -1.221  26.333  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      63.251  -2.881  25.116  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      63.660  -0.580  24.166  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.657  -8.377  30.356  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      66.772  -7.407  27.634  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      65.198  -8.847  28.643  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      68.794  -9.661  28.736  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      67.479  -9.561  27.574  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      69.089  -7.492  27.331  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      69.425  -6.981  28.995  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      65.309  -7.219  31.203  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      63.894  -7.546  30.228  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      67.663 -11.845  28.712  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.560  -5.268  27.195  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.815  -6.343  28.337  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      64.786  -5.332  29.777  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      68.836  -5.284  26.688  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      69.325  -4.815  28.314  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      63.551 -10.189  29.331  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      63.291  -9.497  30.926  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.893  -3.185  28.953  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      65.981 -12.622  31.435  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      66.281 -13.266  29.844  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      62.403 -11.777  30.780  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      63.670 -11.684  31.982  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      68.294  -2.989  26.548  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      67.355  -1.660  27.178  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      64.003 -12.668  29.108  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.518  -3.732  26.244  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      66.738  -3.474  25.023  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      66.267  -1.074  24.933  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      63.421  -3.470  26.021  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      63.418  -3.523  24.247  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      62.203  -2.569  25.114  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      62.907 -13.992  30.680  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      65.696  -3.290  29.920  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      64.922  -3.372  28.333  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      65.749  -1.892  28.849  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      68.474  -5.437  30.428  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.279  -6.412  31.251  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      66.951  -4.718  30.932  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      66.764  -9.403  32.057  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      65.621 -10.654  32.532  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      65.081  -8.991  32.412  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      64.443   0.163  23.990  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      62.802  -0.076  24.619  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      63.347  -0.976  23.197  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.183', True, 'REMARK  Energy: 234.504\nREMARK  SimpleFitness: 234.504\nREMARK  FullFitness: -837.5171\nREMARK  InterFull: -24.3121\nREMARK  IntraFull: 268.701\nREMARK  solvFull: -1255.42\nREMARK  surfFull: 173.514\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1255.42\nREMARK  deltaGcompsolvnonpol: 173.514\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.67505\nREMARK  deltaGligsolvnonpol: 12.692\nREMARK  deltaGvdw: -24.3121\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.3858557\nREMARK  Cluster: 20\nREMARK  ClusterRank: 1\n', 183), ({'deltaGligsolvpol': -4.68764, 'surfFull': 173.617, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.617, 'SimpleFitness': 234.937, 'InterFull': -24.8177, 'extraFull': 0.0, 'Energy': 234.937, 'solvFull': -1255.38, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 20, 'deltaGligsolvnonpol': 12.7417, 'deltaGcompsolvpol': -1255.38, 'FullFitness': -836.9537, 'deltaG': -6.425422, 'ClusterRank': 2, 'IntraFull': 269.627, 'deltaGvdw': -24.8177}, 'V', ['REMARK  Energy: 234.937\n', 'REMARK  SimpleFitness: 234.937\n', 'REMARK  FullFitness: -836.9537\n', 'REMARK  InterFull: -24.8177\n', 'REMARK  IntraFull: 269.627\n', 'REMARK  solvFull: -1255.38\n', 'REMARK  surfFull: 173.617\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1255.38\n', 'REMARK  deltaGcompsolvnonpol: 173.617\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.68764\n', 'REMARK  deltaGligsolvnonpol: 12.7417\n', 'REMARK  deltaGvdw: -24.8177\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.425422\n', 'REMARK  Cluster: 20\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      67.215  -8.645  29.410  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      67.452  -7.394  28.591  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      65.725  -8.743  29.728  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      67.641  -9.847  28.583  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      67.017  -6.109  29.249  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      68.859  -7.127  28.116  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      65.402 -10.003  30.560  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      65.194  -7.446  30.342  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      67.030 -11.122  29.036  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      67.436  -5.152  28.130  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      65.521  -6.233  29.490  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      67.759  -5.834  30.560  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      68.828  -5.653  27.751  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      66.051 -11.214  29.943  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      63.881 -10.177  30.566  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      65.891  -9.872  32.004  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      67.444  -3.624  28.338  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      65.548 -12.559  30.365  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      63.417 -11.524  31.081  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      67.621  -2.888  27.003  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.211  -3.064  29.020  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      64.040 -12.630  30.260  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.501  -3.152  25.989  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      63.595 -13.885  30.760  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      65.803  -1.900  25.556  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      64.340  -1.843  25.274  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      64.879  -1.357  26.526  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      63.465  -3.041  25.418  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      63.803  -0.757  24.408  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.801  -8.612  30.331  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      66.843  -7.508  27.688  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      65.215  -8.849  28.765  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      68.730  -9.941  28.612  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      67.362  -9.697  27.537  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      69.125  -7.747  27.256  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      69.588  -7.314  28.909  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      65.596  -7.299  31.345  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      64.108  -7.494  30.448  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      67.413 -12.028  28.591  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.774  -5.389  27.297  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      65.003  -6.317  28.531  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      65.137  -5.344  29.992  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      69.028  -5.504  26.687  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      69.603  -5.120  28.309  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      63.499 -10.050  29.549  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      63.417  -9.402  31.180  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      68.303  -3.372  28.965  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      65.852 -12.753  31.398  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      65.990 -13.368  29.773  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      62.327 -11.590  31.028  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      63.678 -11.648  32.135  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      68.571  -3.185  26.552  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      67.703  -1.817  27.206  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      63.726 -12.546  29.215  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.784  -3.872  26.383  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      66.938  -3.614  25.099  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      66.458  -1.219  25.029  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      63.688  -3.611  26.324  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      63.587  -3.699  24.554  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      62.418  -2.734  25.469  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      62.626 -13.831  30.815  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      66.168  -3.371  30.067  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.296  -3.403  28.527  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.227  -1.971  28.998  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      68.838  -5.750  30.424  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.602  -6.622  31.298  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      67.413  -4.900  31.008  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      66.959  -9.645  32.049  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      65.732 -10.791  32.576  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      65.354  -9.080  32.532  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      64.589  -0.061  24.104  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      63.029  -0.196  24.938  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      63.357  -1.181  23.505  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.184', True, 'REMARK  Energy: 234.937\nREMARK  SimpleFitness: 234.937\nREMARK  FullFitness: -836.9537\nREMARK  InterFull: -24.8177\nREMARK  IntraFull: 269.627\nREMARK  solvFull: -1255.38\nREMARK  surfFull: 173.617\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1255.38\nREMARK  deltaGcompsolvnonpol: 173.617\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.68764\nREMARK  deltaGligsolvnonpol: 12.7417\nREMARK  deltaGvdw: -24.8177\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.425422\nREMARK  Cluster: 20\nREMARK  ClusterRank: 2\n', 184), ({'deltaGligsolvpol': -4.68764, 'surfFull': 173.617, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.617, 'SimpleFitness': 234.937, 'InterFull': -24.8177, 'extraFull': 0.0, 'Energy': 234.937, 'solvFull': -1255.38, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 20, 'deltaGligsolvnonpol': 12.7417, 'deltaGcompsolvpol': -1255.38, 'FullFitness': -836.9537, 'deltaG': -6.425422, 'ClusterRank': 3, 'IntraFull': 269.627, 'deltaGvdw': -24.8177}, 'V', ['REMARK  Energy: 234.937\n', 'REMARK  SimpleFitness: 234.937\n', 'REMARK  FullFitness: -836.9537\n', 'REMARK  InterFull: -24.8177\n', 'REMARK  IntraFull: 269.627\n', 'REMARK  solvFull: -1255.38\n', 'REMARK  surfFull: 173.617\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1255.38\n', 'REMARK  deltaGcompsolvnonpol: 173.617\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.68764\n', 'REMARK  deltaGligsolvnonpol: 12.7417\n', 'REMARK  deltaGvdw: -24.8177\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.425422\n', 'REMARK  Cluster: 20\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      67.215  -8.645  29.410  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      67.452  -7.394  28.591  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      65.725  -8.743  29.728  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      67.641  -9.847  28.583  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      67.017  -6.109  29.249  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      68.859  -7.127  28.116  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      65.402 -10.003  30.560  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      65.194  -7.446  30.342  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      67.030 -11.122  29.036  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      67.436  -5.152  28.130  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      65.521  -6.233  29.490  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      67.759  -5.834  30.560  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      68.828  -5.653  27.751  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      66.051 -11.214  29.943  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      63.881 -10.177  30.566  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      65.891  -9.872  32.004  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      67.444  -3.624  28.338  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      65.548 -12.559  30.365  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      63.417 -11.524  31.081  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      67.621  -2.888  27.003  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.211  -3.064  29.020  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      64.040 -12.630  30.260  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.501  -3.152  25.989  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      63.595 -13.885  30.760  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      65.803  -1.900  25.556  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      64.340  -1.843  25.274  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      64.879  -1.357  26.526  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      63.465  -3.041  25.418  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      63.803  -0.757  24.408  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.801  -8.612  30.331  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      66.843  -7.508  27.688  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      65.215  -8.849  28.765  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      68.730  -9.941  28.612  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      67.362  -9.697  27.537  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      69.125  -7.747  27.256  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      69.588  -7.314  28.909  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      65.596  -7.299  31.345  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      64.108  -7.494  30.448  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      67.413 -12.028  28.591  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.774  -5.389  27.297  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      65.003  -6.317  28.531  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      65.137  -5.344  29.992  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      69.028  -5.504  26.687  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      69.603  -5.120  28.309  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      63.499 -10.050  29.549  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      63.417  -9.402  31.180  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      68.303  -3.372  28.965  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      65.852 -12.753  31.398  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      65.990 -13.368  29.773  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      62.327 -11.590  31.028  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      63.678 -11.648  32.135  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      68.571  -3.185  26.552  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      67.703  -1.817  27.206  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      63.726 -12.546  29.215  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.784  -3.872  26.383  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      66.938  -3.614  25.099  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      66.458  -1.219  25.029  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      63.688  -3.611  26.324  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      63.587  -3.699  24.554  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      62.418  -2.734  25.469  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      62.626 -13.831  30.815  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      66.168  -3.371  30.067  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.296  -3.403  28.527  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.227  -1.971  28.998  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      68.838  -5.750  30.424  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.602  -6.622  31.298  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      67.413  -4.900  31.008  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      66.959  -9.645  32.049  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      65.732 -10.791  32.576  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      65.354  -9.080  32.532  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      64.589  -0.061  24.104  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      63.029  -0.196  24.938  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      63.357  -1.181  23.505  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.185', True, 'REMARK  Energy: 234.937\nREMARK  SimpleFitness: 234.937\nREMARK  FullFitness: -836.9537\nREMARK  InterFull: -24.8177\nREMARK  IntraFull: 269.627\nREMARK  solvFull: -1255.38\nREMARK  surfFull: 173.617\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1255.38\nREMARK  deltaGcompsolvnonpol: 173.617\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.68764\nREMARK  deltaGligsolvnonpol: 12.7417\nREMARK  deltaGvdw: -24.8177\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.425422\nREMARK  Cluster: 20\nREMARK  ClusterRank: 3\n', 185), ({'deltaGligsolvpol': -4.68764, 'surfFull': 173.617, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.617, 'SimpleFitness': 234.937, 'InterFull': -24.8177, 'extraFull': 0.0, 'Energy': 234.937, 'solvFull': -1255.38, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 20, 'deltaGligsolvnonpol': 12.7417, 'deltaGcompsolvpol': -1255.38, 'FullFitness': -836.9537, 'deltaG': -6.425422, 'ClusterRank': 4, 'IntraFull': 269.627, 'deltaGvdw': -24.8177}, 'V', ['REMARK  Energy: 234.937\n', 'REMARK  SimpleFitness: 234.937\n', 'REMARK  FullFitness: -836.9537\n', 'REMARK  InterFull: -24.8177\n', 'REMARK  IntraFull: 269.627\n', 'REMARK  solvFull: -1255.38\n', 'REMARK  surfFull: 173.617\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1255.38\n', 'REMARK  deltaGcompsolvnonpol: 173.617\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.68764\n', 'REMARK  deltaGligsolvnonpol: 12.7417\n', 'REMARK  deltaGvdw: -24.8177\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.425422\n', 'REMARK  Cluster: 20\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      67.215  -8.645  29.410  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      67.452  -7.394  28.591  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      65.725  -8.743  29.728  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      67.641  -9.847  28.583  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      67.017  -6.109  29.249  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      68.859  -7.127  28.116  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      65.402 -10.003  30.560  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      65.194  -7.446  30.342  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      67.030 -11.122  29.036  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      67.436  -5.152  28.130  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      65.521  -6.233  29.490  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      67.759  -5.834  30.560  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      68.828  -5.653  27.751  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      66.051 -11.214  29.943  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      63.881 -10.177  30.566  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      65.891  -9.872  32.004  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      67.444  -3.624  28.338  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      65.548 -12.559  30.365  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      63.417 -11.524  31.081  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      67.621  -2.888  27.003  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.211  -3.064  29.020  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      64.040 -12.630  30.260  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.501  -3.152  25.989  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      63.595 -13.885  30.760  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      65.803  -1.900  25.556  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      64.340  -1.843  25.274  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      64.879  -1.357  26.526  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      63.465  -3.041  25.418  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      63.803  -0.757  24.408  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.801  -8.612  30.331  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      66.843  -7.508  27.688  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      65.215  -8.849  28.765  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      68.730  -9.941  28.612  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      67.362  -9.697  27.537  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      69.125  -7.747  27.256  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      69.588  -7.314  28.909  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      65.596  -7.299  31.345  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      64.108  -7.494  30.448  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      67.413 -12.028  28.591  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.774  -5.389  27.297  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      65.003  -6.317  28.531  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      65.137  -5.344  29.992  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      69.028  -5.504  26.687  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      69.603  -5.120  28.309  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      63.499 -10.050  29.549  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      63.417  -9.402  31.180  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      68.303  -3.372  28.965  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      65.852 -12.753  31.398  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      65.990 -13.368  29.773  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      62.327 -11.590  31.028  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      63.678 -11.648  32.135  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      68.571  -3.185  26.552  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      67.703  -1.817  27.206  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      63.726 -12.546  29.215  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.784  -3.872  26.383  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      66.938  -3.614  25.099  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      66.458  -1.219  25.029  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      63.688  -3.611  26.324  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      63.587  -3.699  24.554  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      62.418  -2.734  25.469  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      62.626 -13.831  30.815  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      66.168  -3.371  30.067  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.296  -3.403  28.527  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.227  -1.971  28.998  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      68.838  -5.750  30.424  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.602  -6.622  31.298  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      67.413  -4.900  31.008  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      66.959  -9.645  32.049  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      65.732 -10.791  32.576  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      65.354  -9.080  32.532  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      64.589  -0.061  24.104  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      63.029  -0.196  24.938  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      63.357  -1.181  23.505  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.186', True, 'REMARK  Energy: 234.937\nREMARK  SimpleFitness: 234.937\nREMARK  FullFitness: -836.9537\nREMARK  InterFull: -24.8177\nREMARK  IntraFull: 269.627\nREMARK  solvFull: -1255.38\nREMARK  surfFull: 173.617\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1255.38\nREMARK  deltaGcompsolvnonpol: 173.617\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.68764\nREMARK  deltaGligsolvnonpol: 12.7417\nREMARK  deltaGvdw: -24.8177\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.425422\nREMARK  Cluster: 20\nREMARK  ClusterRank: 4\n', 186), ({'deltaGligsolvpol': -4.68764, 'surfFull': 173.617, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.617, 'SimpleFitness': 234.937, 'InterFull': -24.8177, 'extraFull': 0.0, 'Energy': 234.937, 'solvFull': -1255.38, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 20, 'deltaGligsolvnonpol': 12.7417, 'deltaGcompsolvpol': -1255.38, 'FullFitness': -836.9537, 'deltaG': -6.425422, 'ClusterRank': 5, 'IntraFull': 269.627, 'deltaGvdw': -24.8177}, 'V', ['REMARK  Energy: 234.937\n', 'REMARK  SimpleFitness: 234.937\n', 'REMARK  FullFitness: -836.9537\n', 'REMARK  InterFull: -24.8177\n', 'REMARK  IntraFull: 269.627\n', 'REMARK  solvFull: -1255.38\n', 'REMARK  surfFull: 173.617\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1255.38\n', 'REMARK  deltaGcompsolvnonpol: 173.617\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.68764\n', 'REMARK  deltaGligsolvnonpol: 12.7417\n', 'REMARK  deltaGvdw: -24.8177\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.425422\n', 'REMARK  Cluster: 20\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      67.215  -8.645  29.410  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      67.452  -7.394  28.591  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      65.725  -8.743  29.728  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      67.641  -9.847  28.583  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      67.017  -6.109  29.249  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      68.859  -7.127  28.116  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      65.402 -10.003  30.560  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      65.194  -7.446  30.342  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      67.030 -11.122  29.036  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      67.436  -5.152  28.130  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      65.521  -6.233  29.490  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      67.759  -5.834  30.560  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      68.828  -5.653  27.751  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      66.051 -11.214  29.943  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      63.881 -10.177  30.566  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      65.891  -9.872  32.004  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      67.444  -3.624  28.338  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      65.548 -12.559  30.365  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      63.417 -11.524  31.081  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      67.621  -2.888  27.003  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.211  -3.064  29.020  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      64.040 -12.630  30.260  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.501  -3.152  25.989  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      63.595 -13.885  30.760  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      65.803  -1.900  25.556  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      64.340  -1.843  25.274  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      64.879  -1.357  26.526  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      63.465  -3.041  25.418  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      63.803  -0.757  24.408  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.801  -8.612  30.331  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      66.843  -7.508  27.688  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      65.215  -8.849  28.765  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      68.730  -9.941  28.612  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      67.362  -9.697  27.537  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      69.125  -7.747  27.256  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      69.588  -7.314  28.909  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      65.596  -7.299  31.345  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      64.108  -7.494  30.448  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      67.413 -12.028  28.591  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.774  -5.389  27.297  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      65.003  -6.317  28.531  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      65.137  -5.344  29.992  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      69.028  -5.504  26.687  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      69.603  -5.120  28.309  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      63.499 -10.050  29.549  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      63.417  -9.402  31.180  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      68.303  -3.372  28.965  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      65.852 -12.753  31.398  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      65.990 -13.368  29.773  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      62.327 -11.590  31.028  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      63.678 -11.648  32.135  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      68.571  -3.185  26.552  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      67.703  -1.817  27.206  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      63.726 -12.546  29.215  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.784  -3.872  26.383  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      66.938  -3.614  25.099  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      66.458  -1.219  25.029  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      63.688  -3.611  26.324  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      63.587  -3.699  24.554  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      62.418  -2.734  25.469  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      62.626 -13.831  30.815  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      66.168  -3.371  30.067  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.296  -3.403  28.527  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.227  -1.971  28.998  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      68.838  -5.750  30.424  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.602  -6.622  31.298  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      67.413  -4.900  31.008  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      66.959  -9.645  32.049  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      65.732 -10.791  32.576  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      65.354  -9.080  32.532  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      64.589  -0.061  24.104  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      63.029  -0.196  24.938  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      63.357  -1.181  23.505  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.187', True, 'REMARK  Energy: 234.937\nREMARK  SimpleFitness: 234.937\nREMARK  FullFitness: -836.9537\nREMARK  InterFull: -24.8177\nREMARK  IntraFull: 269.627\nREMARK  solvFull: -1255.38\nREMARK  surfFull: 173.617\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1255.38\nREMARK  deltaGcompsolvnonpol: 173.617\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.68764\nREMARK  deltaGligsolvnonpol: 12.7417\nREMARK  deltaGvdw: -24.8177\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.425422\nREMARK  Cluster: 20\nREMARK  ClusterRank: 5\n', 187), ({'deltaGligsolvpol': -4.68479, 'surfFull': 173.632, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.632, 'SimpleFitness': 235.073, 'InterFull': -24.9524, 'extraFull': 0.0, 'Energy': 235.073, 'solvFull': -1255.42, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 20, 'deltaGligsolvnonpol': 12.7498, 'deltaGcompsolvpol': -1255.42, 'FullFitness': -836.8714, 'deltaG': -6.4401374, 'ClusterRank': 6, 'IntraFull': 269.869, 'deltaGvdw': -24.9524}, 'V', ['REMARK  Energy: 235.073\n', 'REMARK  SimpleFitness: 235.073\n', 'REMARK  FullFitness: -836.8714\n', 'REMARK  InterFull: -24.9524\n', 'REMARK  IntraFull: 269.869\n', 'REMARK  solvFull: -1255.42\n', 'REMARK  surfFull: 173.632\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1255.42\n', 'REMARK  deltaGcompsolvnonpol: 173.632\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.68479\n', 'REMARK  deltaGligsolvnonpol: 12.7498\n', 'REMARK  deltaGvdw: -24.9524\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.4401374\n', 'REMARK  Cluster: 20\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      67.266  -8.712  29.375  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      67.519  -7.461  28.562  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      65.779  -8.780  29.712  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      67.655  -9.917  28.534  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      67.117  -6.170  29.230  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      68.926  -7.216  28.073  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      65.438 -10.040  30.538  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      65.287  -7.479  30.344  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      67.014 -11.181  28.978  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      67.535  -5.217  28.107  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      65.624  -6.268  29.493  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      67.882  -5.912  30.530  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      68.913  -5.742  27.707  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      66.046 -11.259  29.897  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      63.913 -10.176  30.567  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      65.954  -9.937  31.974  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      67.572  -3.690  28.315  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      65.515 -12.595  30.309  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      63.421 -11.519  31.066  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      67.744  -2.951  26.981  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.358  -3.112  29.017  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      64.004 -12.629  30.221  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.617  -3.204  25.973  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      63.535 -13.879  30.712  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      65.921  -1.947  25.550  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      64.456  -1.881  25.276  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      65.004  -1.409  26.529  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      63.582  -3.081  25.411  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      63.912  -0.784  24.429  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.865  -8.698  30.289  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      66.898  -7.557  27.666  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      65.255  -8.865  28.754  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      68.741 -10.040  28.557  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      67.376  -9.749  27.491  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      69.175  -7.842  27.212  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      69.661  -7.410  28.860  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      65.710  -7.349  31.341  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      64.203  -7.506  30.470  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      67.364 -12.091  28.516  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.856  -5.441  27.284  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      65.091  -6.338  28.541  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      65.263  -5.374  30.004  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      69.097  -5.598  26.640  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      69.707  -5.220  28.248  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      63.516 -10.020  29.560  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      63.480  -9.401  31.204  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      68.443  -3.451  28.931  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      65.825 -12.809  31.336  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      65.931 -13.409  29.705  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      62.329 -11.557  31.027  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      63.689 -11.665  32.115  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      68.691  -3.252  26.524  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      67.837  -1.880  27.188  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      63.679 -12.524  29.182  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.900  -3.921  26.370  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      67.047  -3.664  25.079  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      66.576  -1.263  25.027  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      63.802  -3.660  26.313  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      63.706  -3.732  24.542  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      62.535  -2.774  25.464  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      62.569 -13.799  30.789  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      66.330  -3.415  30.066  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.431  -3.440  28.539  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.390  -2.020  28.990  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      68.960  -5.828  30.381  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.733  -6.709  31.262  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      67.544  -4.982  30.992  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      67.027  -9.732  32.000  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      65.788 -10.860  32.537  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      65.444  -9.139  32.519  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      64.703  -0.109  24.092  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      63.171  -0.202  24.986  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      63.419  -1.197  23.545  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.188', True, 'REMARK  Energy: 235.073\nREMARK  SimpleFitness: 235.073\nREMARK  FullFitness: -836.8714\nREMARK  InterFull: -24.9524\nREMARK  IntraFull: 269.869\nREMARK  solvFull: -1255.42\nREMARK  surfFull: 173.632\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1255.42\nREMARK  deltaGcompsolvnonpol: 173.632\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.68479\nREMARK  deltaGligsolvnonpol: 12.7498\nREMARK  deltaGvdw: -24.9524\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.4401374\nREMARK  Cluster: 20\nREMARK  ClusterRank: 6\n', 188), ({'deltaGligsolvpol': -4.68479, 'surfFull': 173.632, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.632, 'SimpleFitness': 235.073, 'InterFull': -24.9524, 'extraFull': 0.0, 'Energy': 235.073, 'solvFull': -1255.42, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 20, 'deltaGligsolvnonpol': 12.7498, 'deltaGcompsolvpol': -1255.42, 'FullFitness': -836.8714, 'deltaG': -6.4401374, 'ClusterRank': 7, 'IntraFull': 269.869, 'deltaGvdw': -24.9524}, 'V', ['REMARK  Energy: 235.073\n', 'REMARK  SimpleFitness: 235.073\n', 'REMARK  FullFitness: -836.8714\n', 'REMARK  InterFull: -24.9524\n', 'REMARK  IntraFull: 269.869\n', 'REMARK  solvFull: -1255.42\n', 'REMARK  surfFull: 173.632\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1255.42\n', 'REMARK  deltaGcompsolvnonpol: 173.632\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.68479\n', 'REMARK  deltaGligsolvnonpol: 12.7498\n', 'REMARK  deltaGvdw: -24.9524\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.4401374\n', 'REMARK  Cluster: 20\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      67.266  -8.712  29.375  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      67.519  -7.461  28.562  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      65.779  -8.780  29.712  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      67.655  -9.917  28.534  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      67.117  -6.170  29.230  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      68.926  -7.216  28.073  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      65.438 -10.040  30.538  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      65.287  -7.479  30.344  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      67.014 -11.181  28.978  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      67.535  -5.217  28.107  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      65.624  -6.268  29.493  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      67.882  -5.912  30.530  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      68.913  -5.742  27.707  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      66.046 -11.259  29.897  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      63.913 -10.176  30.567  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      65.954  -9.937  31.974  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      67.572  -3.690  28.315  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      65.515 -12.595  30.309  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      63.421 -11.519  31.066  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      67.744  -2.951  26.981  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      66.358  -3.112  29.017  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      64.004 -12.629  30.221  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.617  -3.204  25.973  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      63.535 -13.879  30.712  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      65.921  -1.947  25.550  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      64.456  -1.881  25.276  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      65.004  -1.409  26.529  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      63.582  -3.081  25.411  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      63.912  -0.784  24.429  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.865  -8.698  30.289  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      66.898  -7.557  27.666  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      65.255  -8.865  28.754  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      68.741 -10.040  28.557  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      67.376  -9.749  27.491  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      69.175  -7.842  27.212  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      69.661  -7.410  28.860  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      65.710  -7.349  31.341  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      64.203  -7.506  30.470  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      67.364 -12.091  28.516  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.856  -5.441  27.284  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      65.091  -6.338  28.541  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      65.263  -5.374  30.004  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      69.097  -5.598  26.640  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      69.707  -5.220  28.248  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      63.516 -10.020  29.560  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      63.480  -9.401  31.204  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      68.443  -3.451  28.931  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      65.825 -12.809  31.336  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      65.931 -13.409  29.705  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      62.329 -11.557  31.027  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      63.689 -11.665  32.115  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      68.691  -3.252  26.524  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      67.837  -1.880  27.188  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      63.679 -12.524  29.182  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.900  -3.921  26.370  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      67.047  -3.664  25.079  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      66.576  -1.263  25.027  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      63.802  -3.660  26.313  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      63.706  -3.732  24.542  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      62.535  -2.774  25.464  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      62.569 -13.799  30.789  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      66.330  -3.415  30.066  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      65.431  -3.440  28.539  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      66.390  -2.020  28.990  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      68.960  -5.828  30.381  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      67.733  -6.709  31.262  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      67.544  -4.982  30.992  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      67.027  -9.732  32.000  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      65.788 -10.860  32.537  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      65.444  -9.139  32.519  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      64.703  -0.109  24.092  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      63.171  -0.202  24.986  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      63.419  -1.197  23.545  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.189', True, 'REMARK  Energy: 235.073\nREMARK  SimpleFitness: 235.073\nREMARK  FullFitness: -836.8714\nREMARK  InterFull: -24.9524\nREMARK  IntraFull: 269.869\nREMARK  solvFull: -1255.42\nREMARK  surfFull: 173.632\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1255.42\nREMARK  deltaGcompsolvnonpol: 173.632\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.68479\nREMARK  deltaGligsolvnonpol: 12.7498\nREMARK  deltaGvdw: -24.9524\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.4401374\nREMARK  Cluster: 20\nREMARK  ClusterRank: 7\n', 189), ({'deltaGligsolvpol': -4.80994, 'surfFull': 173.67, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.67, 'SimpleFitness': 230.854, 'InterFull': -25.5052, 'extraFull': 0.0, 'Energy': 230.854, 'solvFull': -1254.4, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 21, 'deltaGligsolvnonpol': 12.6357, 'deltaGcompsolvpol': -1254.4, 'FullFitness': -837.48627, 'deltaG': -6.4079595, 'ClusterRank': 0, 'IntraFull': 268.749, 'deltaGvdw': -25.5052}, 'V', ['REMARK  Energy: 230.854\n', 'REMARK  SimpleFitness: 230.854\n', 'REMARK  FullFitness: -837.48627\n', 'REMARK  InterFull: -25.5052\n', 'REMARK  IntraFull: 268.749\n', 'REMARK  solvFull: -1254.4\n', 'REMARK  surfFull: 173.67\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1254.4\n', 'REMARK  deltaGcompsolvnonpol: 173.67\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.80994\n', 'REMARK  deltaGligsolvnonpol: 12.6357\n', 'REMARK  deltaGvdw: -25.5052\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.4079595\n', 'REMARK  Cluster: 21\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      81.895 -20.976  19.861  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      81.443 -20.297  18.584  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      83.331 -20.550  20.158  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      80.979 -20.548  20.994  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      82.297 -20.612  17.385  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.029 -20.555  18.125  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      83.859 -21.210  21.451  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      84.249 -20.738  18.947  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      81.556 -20.800  22.340  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      81.505 -19.847  16.323  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      83.689 -20.095  17.690  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      82.359 -22.111  17.059  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.065 -20.241  16.639  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      82.838 -21.118  22.557  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      85.130 -20.468  21.869  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.199 -22.685  21.225  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      81.966 -20.021  14.865  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      83.309 -21.399  23.949  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      85.626 -20.839  23.253  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.879 -19.836  13.812  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      83.006 -18.954  14.569  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      84.546 -20.589  24.281  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      80.291 -21.143  13.311  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      85.028 -20.976  25.561  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      79.467 -20.875  12.094  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      79.930 -21.130  10.705  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      79.049 -22.059  11.376  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      81.277 -21.685  10.409  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      79.290 -20.379   9.591  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      81.837 -22.061  19.754  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.518 -19.219  18.758  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      83.297 -19.472  20.331  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      80.029 -21.084  20.910  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      80.753 -19.481  20.910  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.311 -19.921  18.652  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      79.747 -21.599  18.287  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      84.427 -21.796  18.752  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      85.227 -20.293  19.144  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      80.880 -20.734  23.185  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      81.590 -18.782  16.564  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      83.653 -19.011  17.824  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      84.361 -20.302  16.854  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.367 -19.439  16.385  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.760 -21.134  16.091  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      84.943 -19.390  21.849  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      85.933 -20.664  21.155  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      82.425 -20.997  14.713  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      83.532 -22.465  24.051  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      82.533 -21.191  24.694  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      86.515 -20.252  23.500  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.938 -21.886  23.284  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.332 -19.358  12.941  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.093 -19.156  14.155  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      84.304 -19.524  24.317  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      79.654 -21.588  14.077  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      81.090 -21.859  13.110  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      78.746 -20.086  12.252  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.563 -22.473  11.110  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      82.024 -20.889  10.452  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      81.292 -22.113   9.403  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      85.899 -20.559  25.668  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      83.890 -19.062  15.197  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      82.590 -17.957  14.735  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      83.334 -19.013  13.528  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.405 -22.514  16.712  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      82.665 -22.716  17.914  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      83.093 -22.291  16.269  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      83.354 -23.229  20.797  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      84.476 -23.195  22.152  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      85.050 -22.793  20.548  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      79.910 -19.523   9.314  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      78.300 -20.008   9.869  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      79.182 -21.023   8.715  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.190', True, 'REMARK  Energy: 230.854\nREMARK  SimpleFitness: 230.854\nREMARK  FullFitness: -837.48627\nREMARK  InterFull: -25.5052\nREMARK  IntraFull: 268.749\nREMARK  solvFull: -1254.4\nREMARK  surfFull: 173.67\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1254.4\nREMARK  deltaGcompsolvnonpol: 173.67\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.80994\nREMARK  deltaGligsolvnonpol: 12.6357\nREMARK  deltaGvdw: -25.5052\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.4079595\nREMARK  Cluster: 21\nREMARK  ClusterRank: 0\n', 190), ({'deltaGligsolvpol': -4.8099, 'surfFull': 173.657, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.657, 'SimpleFitness': 230.855, 'InterFull': -25.4693, 'extraFull': 0.0, 'Energy': 230.855, 'solvFull': -1254.39, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 21, 'deltaGligsolvnonpol': 12.6352, 'deltaGcompsolvpol': -1254.39, 'FullFitness': -837.4713, 'deltaG': -6.4051356, 'ClusterRank': 1, 'IntraFull': 268.731, 'deltaGvdw': -25.4693}, 'V', ['REMARK  Energy: 230.855\n', 'REMARK  SimpleFitness: 230.855\n', 'REMARK  FullFitness: -837.4713\n', 'REMARK  InterFull: -25.4693\n', 'REMARK  IntraFull: 268.731\n', 'REMARK  solvFull: -1254.39\n', 'REMARK  surfFull: 173.657\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1254.39\n', 'REMARK  deltaGcompsolvnonpol: 173.657\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.8099\n', 'REMARK  deltaGligsolvnonpol: 12.6352\n', 'REMARK  deltaGvdw: -25.4693\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.4051356\n', 'REMARK  Cluster: 21\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      81.876 -20.981  19.860  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      81.429 -20.301  18.582  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      83.312 -20.558  20.163  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      80.958 -20.552  20.990  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      82.287 -20.616  17.386  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.017 -20.558  18.118  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      83.835 -21.222  21.456  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      84.234 -20.745  18.954  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      81.530 -20.807  22.338  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      81.499 -19.849  16.322  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      83.678 -20.100  17.695  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      82.349 -22.115  17.059  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.057 -20.243  16.633  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      82.810 -21.129  22.559  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      85.106 -20.483  21.880  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.172 -22.697  21.229  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      81.964 -20.023  14.865  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      83.276 -21.413  23.952  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      85.597 -20.857  23.264  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.880 -19.837  13.809  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      83.005 -18.956  14.572  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      84.513 -20.607  24.289  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      80.294 -21.143  13.305  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      84.990 -20.996  25.571  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      79.469 -20.874  12.088  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      79.934 -21.120  10.698  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      79.057 -22.056  11.365  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      81.284 -21.666  10.401  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      79.290 -20.368   9.588  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      81.817 -22.066  19.752  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.505 -19.223  18.757  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      83.279 -19.481  20.337  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      80.007 -21.086  20.903  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      80.735 -19.485  20.907  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.298 -19.923  18.643  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      79.733 -21.602  18.279  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      84.412 -21.803  18.758  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      85.211 -20.301  19.155  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      80.852 -20.742  23.181  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      81.584 -18.785  16.563  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      83.643 -19.016  17.831  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      84.353 -20.307  16.861  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.361 -19.440  16.377  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.754 -21.135  16.083  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      84.922 -19.405  21.860  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      85.911 -20.681  21.168  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      82.423 -20.999  14.714  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      83.497 -22.479  24.053  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      82.499 -21.204  24.695  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      86.486 -20.272  23.516  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.906 -21.905  23.296  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.336 -19.358  12.939  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.094 -19.157  14.150  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      84.274 -19.541  24.326  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      79.657 -21.591  14.070  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      81.094 -21.858  13.101  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      78.744 -20.088  12.250  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.571 -22.459  11.097  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      82.027 -20.867  10.453  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      81.303 -22.086   9.392  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      85.862 -20.582  25.681  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      83.887 -19.065  15.204  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      82.589 -17.959  14.737  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      83.338 -19.016  13.533  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.396 -22.517  16.709  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      82.652 -22.720  17.915  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      83.085 -22.295  16.271  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      83.327 -23.239  20.798  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      84.445 -23.209  22.155  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      85.024 -22.806  20.553  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      79.906 -19.508   9.315  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      78.299 -20.003   9.866  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      79.186 -21.009   8.709  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.191', True, 'REMARK  Energy: 230.855\nREMARK  SimpleFitness: 230.855\nREMARK  FullFitness: -837.4713\nREMARK  InterFull: -25.4693\nREMARK  IntraFull: 268.731\nREMARK  solvFull: -1254.39\nREMARK  surfFull: 173.657\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1254.39\nREMARK  deltaGcompsolvnonpol: 173.657\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.8099\nREMARK  deltaGligsolvnonpol: 12.6352\nREMARK  deltaGvdw: -25.4693\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.4051356\nREMARK  Cluster: 21\nREMARK  ClusterRank: 1\n', 191), ({'deltaGligsolvpol': -4.8099, 'surfFull': 173.657, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.657, 'SimpleFitness': 230.855, 'InterFull': -25.4693, 'extraFull': 0.0, 'Energy': 230.855, 'solvFull': -1254.39, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 21, 'deltaGligsolvnonpol': 12.6352, 'deltaGcompsolvpol': -1254.39, 'FullFitness': -837.4713, 'deltaG': -6.4051356, 'ClusterRank': 2, 'IntraFull': 268.731, 'deltaGvdw': -25.4693}, 'V', ['REMARK  Energy: 230.855\n', 'REMARK  SimpleFitness: 230.855\n', 'REMARK  FullFitness: -837.4713\n', 'REMARK  InterFull: -25.4693\n', 'REMARK  IntraFull: 268.731\n', 'REMARK  solvFull: -1254.39\n', 'REMARK  surfFull: 173.657\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1254.39\n', 'REMARK  deltaGcompsolvnonpol: 173.657\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.8099\n', 'REMARK  deltaGligsolvnonpol: 12.6352\n', 'REMARK  deltaGvdw: -25.4693\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.4051356\n', 'REMARK  Cluster: 21\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      81.876 -20.981  19.860  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      81.429 -20.301  18.582  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      83.312 -20.558  20.163  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      80.958 -20.552  20.990  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      82.287 -20.616  17.386  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.017 -20.558  18.118  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      83.835 -21.222  21.456  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      84.234 -20.745  18.954  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      81.530 -20.807  22.338  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      81.499 -19.849  16.322  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      83.678 -20.100  17.695  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      82.349 -22.115  17.059  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.057 -20.243  16.633  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      82.810 -21.129  22.559  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      85.106 -20.483  21.880  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.172 -22.697  21.229  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      81.964 -20.023  14.865  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      83.276 -21.413  23.952  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      85.597 -20.857  23.264  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.880 -19.837  13.809  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      83.005 -18.956  14.572  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      84.513 -20.607  24.289  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      80.294 -21.143  13.305  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      84.990 -20.996  25.571  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      79.469 -20.874  12.088  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      79.934 -21.120  10.698  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      79.057 -22.056  11.365  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      81.284 -21.666  10.401  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      79.290 -20.368   9.588  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      81.817 -22.066  19.752  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.505 -19.223  18.757  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      83.279 -19.481  20.337  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      80.007 -21.086  20.903  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      80.735 -19.485  20.907  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.298 -19.923  18.643  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      79.733 -21.602  18.279  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      84.412 -21.803  18.758  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      85.211 -20.301  19.155  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      80.852 -20.742  23.181  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      81.584 -18.785  16.563  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      83.643 -19.016  17.831  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      84.353 -20.307  16.861  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.361 -19.440  16.377  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.754 -21.135  16.083  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      84.922 -19.405  21.860  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      85.911 -20.681  21.168  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      82.423 -20.999  14.714  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      83.497 -22.479  24.053  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      82.499 -21.204  24.695  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      86.486 -20.272  23.516  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.906 -21.905  23.296  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.336 -19.358  12.939  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.094 -19.157  14.150  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      84.274 -19.541  24.326  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      79.657 -21.591  14.070  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      81.094 -21.858  13.101  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      78.744 -20.088  12.250  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.571 -22.459  11.097  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      82.027 -20.867  10.453  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      81.303 -22.086   9.392  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      85.862 -20.582  25.681  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      83.887 -19.065  15.204  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      82.589 -17.959  14.737  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      83.338 -19.016  13.533  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.396 -22.517  16.709  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      82.652 -22.720  17.915  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      83.085 -22.295  16.271  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      83.327 -23.239  20.798  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      84.445 -23.209  22.155  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      85.024 -22.806  20.553  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      79.906 -19.508   9.315  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      78.299 -20.003   9.866  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      79.186 -21.009   8.709  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.192', True, 'REMARK  Energy: 230.855\nREMARK  SimpleFitness: 230.855\nREMARK  FullFitness: -837.4713\nREMARK  InterFull: -25.4693\nREMARK  IntraFull: 268.731\nREMARK  solvFull: -1254.39\nREMARK  surfFull: 173.657\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1254.39\nREMARK  deltaGcompsolvnonpol: 173.657\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.8099\nREMARK  deltaGligsolvnonpol: 12.6352\nREMARK  deltaGvdw: -25.4693\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.4051356\nREMARK  Cluster: 21\nREMARK  ClusterRank: 2\n', 192), ({'deltaGligsolvpol': -4.8099, 'surfFull': 173.657, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.657, 'SimpleFitness': 230.855, 'InterFull': -25.4693, 'extraFull': 0.0, 'Energy': 230.855, 'solvFull': -1254.39, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 21, 'deltaGligsolvnonpol': 12.6352, 'deltaGcompsolvpol': -1254.39, 'FullFitness': -837.4713, 'deltaG': -6.4051356, 'ClusterRank': 3, 'IntraFull': 268.731, 'deltaGvdw': -25.4693}, 'V', ['REMARK  Energy: 230.855\n', 'REMARK  SimpleFitness: 230.855\n', 'REMARK  FullFitness: -837.4713\n', 'REMARK  InterFull: -25.4693\n', 'REMARK  IntraFull: 268.731\n', 'REMARK  solvFull: -1254.39\n', 'REMARK  surfFull: 173.657\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1254.39\n', 'REMARK  deltaGcompsolvnonpol: 173.657\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.8099\n', 'REMARK  deltaGligsolvnonpol: 12.6352\n', 'REMARK  deltaGvdw: -25.4693\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.4051356\n', 'REMARK  Cluster: 21\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      81.876 -20.981  19.860  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      81.429 -20.301  18.582  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      83.312 -20.558  20.163  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      80.958 -20.552  20.990  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      82.287 -20.616  17.386  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.017 -20.558  18.118  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      83.835 -21.222  21.456  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      84.234 -20.745  18.954  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      81.530 -20.807  22.338  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      81.499 -19.849  16.322  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      83.678 -20.100  17.695  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      82.349 -22.115  17.059  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.057 -20.243  16.633  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      82.810 -21.129  22.559  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      85.106 -20.483  21.880  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.172 -22.697  21.229  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      81.964 -20.023  14.865  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      83.276 -21.413  23.952  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      85.597 -20.857  23.264  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.880 -19.837  13.809  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      83.005 -18.956  14.572  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      84.513 -20.607  24.289  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      80.294 -21.143  13.305  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      84.990 -20.996  25.571  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      79.469 -20.874  12.088  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      79.934 -21.120  10.698  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      79.057 -22.056  11.365  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      81.284 -21.666  10.401  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      79.290 -20.368   9.588  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      81.817 -22.066  19.752  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.505 -19.223  18.757  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      83.279 -19.481  20.337  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      80.007 -21.086  20.903  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      80.735 -19.485  20.907  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.298 -19.923  18.643  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      79.733 -21.602  18.279  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      84.412 -21.803  18.758  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      85.211 -20.301  19.155  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      80.852 -20.742  23.181  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      81.584 -18.785  16.563  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      83.643 -19.016  17.831  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      84.353 -20.307  16.861  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.361 -19.440  16.377  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.754 -21.135  16.083  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      84.922 -19.405  21.860  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      85.911 -20.681  21.168  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      82.423 -20.999  14.714  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      83.497 -22.479  24.053  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      82.499 -21.204  24.695  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      86.486 -20.272  23.516  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.906 -21.905  23.296  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.336 -19.358  12.939  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.094 -19.157  14.150  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      84.274 -19.541  24.326  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      79.657 -21.591  14.070  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      81.094 -21.858  13.101  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      78.744 -20.088  12.250  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.571 -22.459  11.097  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      82.027 -20.867  10.453  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      81.303 -22.086   9.392  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      85.862 -20.582  25.681  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      83.887 -19.065  15.204  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      82.589 -17.959  14.737  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      83.338 -19.016  13.533  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.396 -22.517  16.709  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      82.652 -22.720  17.915  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      83.085 -22.295  16.271  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      83.327 -23.239  20.798  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      84.445 -23.209  22.155  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      85.024 -22.806  20.553  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      79.906 -19.508   9.315  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      78.299 -20.003   9.866  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      79.186 -21.009   8.709  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.193', True, 'REMARK  Energy: 230.855\nREMARK  SimpleFitness: 230.855\nREMARK  FullFitness: -837.4713\nREMARK  InterFull: -25.4693\nREMARK  IntraFull: 268.731\nREMARK  solvFull: -1254.39\nREMARK  surfFull: 173.657\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1254.39\nREMARK  deltaGcompsolvnonpol: 173.657\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.8099\nREMARK  deltaGligsolvnonpol: 12.6352\nREMARK  deltaGvdw: -25.4693\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.4051356\nREMARK  Cluster: 21\nREMARK  ClusterRank: 3\n', 193), ({'deltaGligsolvpol': -4.8099, 'surfFull': 173.657, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.657, 'SimpleFitness': 230.855, 'InterFull': -25.4693, 'extraFull': 0.0, 'Energy': 230.855, 'solvFull': -1254.39, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 21, 'deltaGligsolvnonpol': 12.6352, 'deltaGcompsolvpol': -1254.39, 'FullFitness': -837.4713, 'deltaG': -6.4051356, 'ClusterRank': 4, 'IntraFull': 268.731, 'deltaGvdw': -25.4693}, 'V', ['REMARK  Energy: 230.855\n', 'REMARK  SimpleFitness: 230.855\n', 'REMARK  FullFitness: -837.4713\n', 'REMARK  InterFull: -25.4693\n', 'REMARK  IntraFull: 268.731\n', 'REMARK  solvFull: -1254.39\n', 'REMARK  surfFull: 173.657\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1254.39\n', 'REMARK  deltaGcompsolvnonpol: 173.657\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.8099\n', 'REMARK  deltaGligsolvnonpol: 12.6352\n', 'REMARK  deltaGvdw: -25.4693\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.4051356\n', 'REMARK  Cluster: 21\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      81.876 -20.981  19.860  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      81.429 -20.301  18.582  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      83.312 -20.558  20.163  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      80.958 -20.552  20.990  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      82.287 -20.616  17.386  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.017 -20.558  18.118  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      83.835 -21.222  21.456  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      84.234 -20.745  18.954  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      81.530 -20.807  22.338  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      81.499 -19.849  16.322  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      83.678 -20.100  17.695  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      82.349 -22.115  17.059  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.057 -20.243  16.633  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      82.810 -21.129  22.559  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      85.106 -20.483  21.880  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.172 -22.697  21.229  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      81.964 -20.023  14.865  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      83.276 -21.413  23.952  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      85.597 -20.857  23.264  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.880 -19.837  13.809  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      83.005 -18.956  14.572  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      84.513 -20.607  24.289  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      80.294 -21.143  13.305  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      84.990 -20.996  25.571  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      79.469 -20.874  12.088  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      79.934 -21.120  10.698  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      79.057 -22.056  11.365  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      81.284 -21.666  10.401  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      79.290 -20.368   9.588  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      81.817 -22.066  19.752  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.505 -19.223  18.757  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      83.279 -19.481  20.337  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      80.007 -21.086  20.903  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      80.735 -19.485  20.907  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.298 -19.923  18.643  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      79.733 -21.602  18.279  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      84.412 -21.803  18.758  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      85.211 -20.301  19.155  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      80.852 -20.742  23.181  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      81.584 -18.785  16.563  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      83.643 -19.016  17.831  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      84.353 -20.307  16.861  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.361 -19.440  16.377  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.754 -21.135  16.083  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      84.922 -19.405  21.860  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      85.911 -20.681  21.168  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      82.423 -20.999  14.714  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      83.497 -22.479  24.053  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      82.499 -21.204  24.695  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      86.486 -20.272  23.516  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.906 -21.905  23.296  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.336 -19.358  12.939  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.094 -19.157  14.150  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      84.274 -19.541  24.326  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      79.657 -21.591  14.070  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      81.094 -21.858  13.101  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      78.744 -20.088  12.250  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.571 -22.459  11.097  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      82.027 -20.867  10.453  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      81.303 -22.086   9.392  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      85.862 -20.582  25.681  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      83.887 -19.065  15.204  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      82.589 -17.959  14.737  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      83.338 -19.016  13.533  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.396 -22.517  16.709  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      82.652 -22.720  17.915  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      83.085 -22.295  16.271  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      83.327 -23.239  20.798  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      84.445 -23.209  22.155  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      85.024 -22.806  20.553  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      79.906 -19.508   9.315  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      78.299 -20.003   9.866  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      79.186 -21.009   8.709  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.194', True, 'REMARK  Energy: 230.855\nREMARK  SimpleFitness: 230.855\nREMARK  FullFitness: -837.4713\nREMARK  InterFull: -25.4693\nREMARK  IntraFull: 268.731\nREMARK  solvFull: -1254.39\nREMARK  surfFull: 173.657\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1254.39\nREMARK  deltaGcompsolvnonpol: 173.657\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.8099\nREMARK  deltaGligsolvnonpol: 12.6352\nREMARK  deltaGvdw: -25.4693\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.4051356\nREMARK  Cluster: 21\nREMARK  ClusterRank: 4\n', 194), ({'deltaGligsolvpol': -4.8099, 'surfFull': 173.657, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.657, 'SimpleFitness': 230.855, 'InterFull': -25.4693, 'extraFull': 0.0, 'Energy': 230.855, 'solvFull': -1254.39, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 21, 'deltaGligsolvnonpol': 12.6352, 'deltaGcompsolvpol': -1254.39, 'FullFitness': -837.4713, 'deltaG': -6.4051356, 'ClusterRank': 5, 'IntraFull': 268.731, 'deltaGvdw': -25.4693}, 'V', ['REMARK  Energy: 230.855\n', 'REMARK  SimpleFitness: 230.855\n', 'REMARK  FullFitness: -837.4713\n', 'REMARK  InterFull: -25.4693\n', 'REMARK  IntraFull: 268.731\n', 'REMARK  solvFull: -1254.39\n', 'REMARK  surfFull: 173.657\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1254.39\n', 'REMARK  deltaGcompsolvnonpol: 173.657\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.8099\n', 'REMARK  deltaGligsolvnonpol: 12.6352\n', 'REMARK  deltaGvdw: -25.4693\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.4051356\n', 'REMARK  Cluster: 21\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      81.876 -20.981  19.860  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      81.429 -20.301  18.582  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      83.312 -20.558  20.163  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      80.958 -20.552  20.990  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      82.287 -20.616  17.386  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.017 -20.558  18.118  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      83.835 -21.222  21.456  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      84.234 -20.745  18.954  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      81.530 -20.807  22.338  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      81.499 -19.849  16.322  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      83.678 -20.100  17.695  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      82.349 -22.115  17.059  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.057 -20.243  16.633  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      82.810 -21.129  22.559  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      85.106 -20.483  21.880  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.172 -22.697  21.229  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      81.964 -20.023  14.865  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      83.276 -21.413  23.952  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      85.597 -20.857  23.264  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.880 -19.837  13.809  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      83.005 -18.956  14.572  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      84.513 -20.607  24.289  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      80.294 -21.143  13.305  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      84.990 -20.996  25.571  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      79.469 -20.874  12.088  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      79.934 -21.120  10.698  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      79.057 -22.056  11.365  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      81.284 -21.666  10.401  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      79.290 -20.368   9.588  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      81.817 -22.066  19.752  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.505 -19.223  18.757  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      83.279 -19.481  20.337  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      80.007 -21.086  20.903  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      80.735 -19.485  20.907  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.298 -19.923  18.643  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      79.733 -21.602  18.279  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      84.412 -21.803  18.758  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      85.211 -20.301  19.155  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      80.852 -20.742  23.181  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      81.584 -18.785  16.563  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      83.643 -19.016  17.831  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      84.353 -20.307  16.861  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.361 -19.440  16.377  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.754 -21.135  16.083  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      84.922 -19.405  21.860  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      85.911 -20.681  21.168  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      82.423 -20.999  14.714  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      83.497 -22.479  24.053  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      82.499 -21.204  24.695  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      86.486 -20.272  23.516  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.906 -21.905  23.296  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.336 -19.358  12.939  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.094 -19.157  14.150  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      84.274 -19.541  24.326  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      79.657 -21.591  14.070  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      81.094 -21.858  13.101  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      78.744 -20.088  12.250  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.571 -22.459  11.097  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      82.027 -20.867  10.453  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      81.303 -22.086   9.392  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      85.862 -20.582  25.681  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      83.887 -19.065  15.204  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      82.589 -17.959  14.737  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      83.338 -19.016  13.533  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.396 -22.517  16.709  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      82.652 -22.720  17.915  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      83.085 -22.295  16.271  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      83.327 -23.239  20.798  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      84.445 -23.209  22.155  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      85.024 -22.806  20.553  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      79.906 -19.508   9.315  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      78.299 -20.003   9.866  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      79.186 -21.009   8.709  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.195', True, 'REMARK  Energy: 230.855\nREMARK  SimpleFitness: 230.855\nREMARK  FullFitness: -837.4713\nREMARK  InterFull: -25.4693\nREMARK  IntraFull: 268.731\nREMARK  solvFull: -1254.39\nREMARK  surfFull: 173.657\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1254.39\nREMARK  deltaGcompsolvnonpol: 173.657\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.8099\nREMARK  deltaGligsolvnonpol: 12.6352\nREMARK  deltaGvdw: -25.4693\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.4051356\nREMARK  Cluster: 21\nREMARK  ClusterRank: 5\n', 195), ({'deltaGligsolvpol': -4.8099, 'surfFull': 173.657, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.657, 'SimpleFitness': 230.855, 'InterFull': -25.4693, 'extraFull': 0.0, 'Energy': 230.855, 'solvFull': -1254.39, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 21, 'deltaGligsolvnonpol': 12.6352, 'deltaGcompsolvpol': -1254.39, 'FullFitness': -837.4713, 'deltaG': -6.4051356, 'ClusterRank': 6, 'IntraFull': 268.731, 'deltaGvdw': -25.4693}, 'V', ['REMARK  Energy: 230.855\n', 'REMARK  SimpleFitness: 230.855\n', 'REMARK  FullFitness: -837.4713\n', 'REMARK  InterFull: -25.4693\n', 'REMARK  IntraFull: 268.731\n', 'REMARK  solvFull: -1254.39\n', 'REMARK  surfFull: 173.657\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1254.39\n', 'REMARK  deltaGcompsolvnonpol: 173.657\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.8099\n', 'REMARK  deltaGligsolvnonpol: 12.6352\n', 'REMARK  deltaGvdw: -25.4693\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.4051356\n', 'REMARK  Cluster: 21\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      81.876 -20.981  19.860  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      81.429 -20.301  18.582  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      83.312 -20.558  20.163  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      80.958 -20.552  20.990  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      82.287 -20.616  17.386  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.017 -20.558  18.118  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      83.835 -21.222  21.456  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      84.234 -20.745  18.954  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      81.530 -20.807  22.338  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      81.499 -19.849  16.322  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      83.678 -20.100  17.695  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      82.349 -22.115  17.059  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.057 -20.243  16.633  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      82.810 -21.129  22.559  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      85.106 -20.483  21.880  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.172 -22.697  21.229  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      81.964 -20.023  14.865  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      83.276 -21.413  23.952  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      85.597 -20.857  23.264  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.880 -19.837  13.809  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      83.005 -18.956  14.572  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      84.513 -20.607  24.289  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      80.294 -21.143  13.305  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      84.990 -20.996  25.571  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      79.469 -20.874  12.088  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      79.934 -21.120  10.698  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      79.057 -22.056  11.365  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      81.284 -21.666  10.401  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      79.290 -20.368   9.588  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      81.817 -22.066  19.752  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.505 -19.223  18.757  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      83.279 -19.481  20.337  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      80.007 -21.086  20.903  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      80.735 -19.485  20.907  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.298 -19.923  18.643  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      79.733 -21.602  18.279  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      84.412 -21.803  18.758  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      85.211 -20.301  19.155  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      80.852 -20.742  23.181  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      81.584 -18.785  16.563  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      83.643 -19.016  17.831  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      84.353 -20.307  16.861  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.361 -19.440  16.377  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.754 -21.135  16.083  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      84.922 -19.405  21.860  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      85.911 -20.681  21.168  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      82.423 -20.999  14.714  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      83.497 -22.479  24.053  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      82.499 -21.204  24.695  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      86.486 -20.272  23.516  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.906 -21.905  23.296  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.336 -19.358  12.939  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.094 -19.157  14.150  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      84.274 -19.541  24.326  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      79.657 -21.591  14.070  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      81.094 -21.858  13.101  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      78.744 -20.088  12.250  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.571 -22.459  11.097  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      82.027 -20.867  10.453  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      81.303 -22.086   9.392  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      85.862 -20.582  25.681  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      83.887 -19.065  15.204  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      82.589 -17.959  14.737  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      83.338 -19.016  13.533  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.396 -22.517  16.709  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      82.652 -22.720  17.915  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      83.085 -22.295  16.271  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      83.327 -23.239  20.798  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      84.445 -23.209  22.155  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      85.024 -22.806  20.553  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      79.906 -19.508   9.315  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      78.299 -20.003   9.866  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      79.186 -21.009   8.709  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.196', True, 'REMARK  Energy: 230.855\nREMARK  SimpleFitness: 230.855\nREMARK  FullFitness: -837.4713\nREMARK  InterFull: -25.4693\nREMARK  IntraFull: 268.731\nREMARK  solvFull: -1254.39\nREMARK  surfFull: 173.657\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1254.39\nREMARK  deltaGcompsolvnonpol: 173.657\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.8099\nREMARK  deltaGligsolvnonpol: 12.6352\nREMARK  deltaGvdw: -25.4693\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.4051356\nREMARK  Cluster: 21\nREMARK  ClusterRank: 6\n', 196), ({'deltaGligsolvpol': -4.81069, 'surfFull': 173.656, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 173.656, 'SimpleFitness': 230.856, 'InterFull': -25.4767, 'extraFull': 0.0, 'Energy': 230.856, 'solvFull': -1254.38, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 21, 'deltaGligsolvnonpol': 12.6352, 'deltaGcompsolvpol': -1254.38, 'FullFitness': -837.4707, 'deltaG': -6.4052687, 'ClusterRank': 7, 'IntraFull': 268.73, 'deltaGvdw': -25.4767}, 'V', ['REMARK  Energy: 230.856\n', 'REMARK  SimpleFitness: 230.856\n', 'REMARK  FullFitness: -837.4707\n', 'REMARK  InterFull: -25.4767\n', 'REMARK  IntraFull: 268.73\n', 'REMARK  solvFull: -1254.38\n', 'REMARK  surfFull: 173.656\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1254.38\n', 'REMARK  deltaGcompsolvnonpol: 173.656\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.81069\n', 'REMARK  deltaGligsolvnonpol: 12.6352\n', 'REMARK  deltaGvdw: -25.4767\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.4052687\n', 'REMARK  Cluster: 21\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      81.874 -20.976  19.853  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      81.427 -20.297  18.576  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      83.310 -20.555  20.156  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      80.956 -20.545  20.984  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      82.285 -20.613  17.380  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.015 -20.554  18.113  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      83.832 -21.220  21.450  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      84.232 -20.742  18.947  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      81.528 -20.802  22.331  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      81.497 -19.848  16.315  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      83.676 -20.098  17.689  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      82.347 -22.112  17.054  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.055 -20.240  16.626  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      82.807 -21.125  22.552  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      85.105 -20.484  21.874  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.167 -22.696  21.222  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      81.961 -20.024  14.858  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      83.273 -21.411  23.946  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      85.595 -20.860  23.258  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.877 -19.838  13.803  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      83.003 -18.958  14.564  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      84.511 -20.607  24.283  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      80.291 -21.144  13.299  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      84.987 -20.996  25.564  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      79.466 -20.876  12.083  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      79.931 -21.124  10.693  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      79.053 -22.059  11.361  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      81.281 -21.672  10.396  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      79.288 -20.373   9.582  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      81.813 -22.062  19.747  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      81.504 -19.218  18.750  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      83.278 -19.478  20.332  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      80.004 -21.076  20.896  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      80.736 -19.477  20.901  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.296 -19.918  18.637  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      79.731 -21.597  18.275  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      84.411 -21.800  18.752  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      85.209 -20.297  19.148  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      80.849 -20.735  23.174  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      81.582 -18.783  16.555  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      83.641 -19.013  17.824  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      84.351 -20.305  16.855  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      79.359 -19.438  16.370  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.751 -21.133  16.078  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      84.923 -19.405  21.854  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      85.909 -20.683  21.162  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      82.419 -21.000  14.708  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      83.492 -22.478  24.047  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      82.496 -21.201  24.689  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      86.486 -20.278  23.510  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.901 -21.909  23.289  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.332 -19.359  12.933  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.090 -19.158  14.143  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      84.274 -19.540  24.318  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      79.654 -21.591  14.064  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      81.091 -21.860  13.097  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      78.742 -20.089  12.243  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.569 -22.462  11.095  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      82.025 -20.873  10.444  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      81.299 -22.095   9.389  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      85.860 -20.584  25.674  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      83.886 -19.066  15.195  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      82.588 -17.960  14.729  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      83.334 -19.018  13.524  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      81.393 -22.515  16.706  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      82.650 -22.717  17.910  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      83.081 -22.294  16.265  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      83.319 -23.236  20.792  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      84.440 -23.208  22.148  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      85.018 -22.806  20.546  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      79.905 -19.513   9.308  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      78.297 -20.006   9.860  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      79.183 -21.015   8.703  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.197', True, 'REMARK  Energy: 230.856\nREMARK  SimpleFitness: 230.856\nREMARK  FullFitness: -837.4707\nREMARK  InterFull: -25.4767\nREMARK  IntraFull: 268.73\nREMARK  solvFull: -1254.38\nREMARK  surfFull: 173.656\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1254.38\nREMARK  deltaGcompsolvnonpol: 173.656\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.81069\nREMARK  deltaGligsolvnonpol: 12.6352\nREMARK  deltaGvdw: -25.4767\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.4052687\nREMARK  Cluster: 21\nREMARK  ClusterRank: 7\n', 197), ({'deltaGligsolvpol': -4.87821, 'surfFull': 170.314, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.314, 'SimpleFitness': 228.843, 'InterFull': -37.9051, 'extraFull': 0.0, 'Energy': 228.843, 'solvFull': -1243.81, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 22, 'deltaGligsolvnonpol': 12.4321, 'deltaGcompsolvpol': -1243.81, 'FullFitness': -837.3052, 'deltaG': -7.226924, 'ClusterRank': 0, 'IntraFull': 274.096, 'deltaGvdw': -37.9051}, 'V', ['REMARK  Energy: 228.843\n', 'REMARK  SimpleFitness: 228.843\n', 'REMARK  FullFitness: -837.3052\n', 'REMARK  InterFull: -37.9051\n', 'REMARK  IntraFull: 274.096\n', 'REMARK  solvFull: -1243.81\n', 'REMARK  surfFull: 170.314\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1243.81\n', 'REMARK  deltaGcompsolvnonpol: 170.314\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.87821\n', 'REMARK  deltaGligsolvnonpol: 12.4321\n', 'REMARK  deltaGvdw: -37.9051\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.226924\n', 'REMARK  Cluster: 22\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      76.149  -2.912  13.506  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.109  -1.823  13.052  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      77.035  -4.039  13.985  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      75.279  -2.384  14.598  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      77.839  -2.174  11.786  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.621  -0.417  12.847  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      76.306  -5.136  14.791  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      77.781  -4.541  12.752  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      74.701  -3.408  15.506  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.686  -0.902  11.606  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      78.607  -3.442  12.108  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      76.904  -2.401  10.603  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      77.753   0.218  12.073  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      75.185  -4.638  15.643  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      77.348  -5.765  15.699  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      75.698  -6.175  13.875  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.278  -0.543  10.228  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      74.614  -5.574  16.663  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      76.788  -6.792  16.663  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.156   0.707  10.386  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      80.110  -1.661   9.623  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.714  -6.165  17.526  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      80.689   1.264   9.073  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.165  -7.169  18.371  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.091   0.824   8.787  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      82.889   1.420   7.686  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.117   1.807   9.062  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.336   2.510   6.833  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      83.977   0.605   7.086  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      75.500  -3.265  12.702  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      77.867  -1.728  13.836  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      77.776  -3.600  14.659  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      74.466  -1.817  14.138  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      75.859  -1.685  15.206  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.431   0.105  13.789  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      75.715  -0.385  12.250  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.077  -4.920  12.006  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.445  -5.366  13.023  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      73.879  -3.114  16.145  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.514  -0.960  12.319  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      79.391  -3.180  12.816  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.080  -3.838  11.207  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.297   0.924  12.706  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      77.345   0.780  11.228  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      77.843  -4.984  16.282  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      78.117  -6.216  15.076  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.462  -0.310   9.538  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      74.061  -6.378  16.168  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      73.882  -5.078  17.310  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      77.590  -7.181  17.297  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      76.387  -7.656  16.126  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      80.978   0.494  11.077  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      79.571   1.510  10.836  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.159  -5.391  18.158  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.660   2.356   9.136  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.028   0.979   8.252  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.293  -0.204   9.052  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.767   3.243   7.409  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.684   2.090   6.062  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      83.153   3.038   6.335  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      74.481  -6.739  18.917  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.559  -2.598   9.553  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      81.010  -1.827  10.218  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      80.422  -1.409   8.608  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      76.338  -1.503  10.345  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      76.189  -3.204  10.788  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      77.469  -2.697   9.719  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      74.974  -5.703  13.204  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      75.176  -6.972  14.409  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      76.447  -6.672  13.261  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      83.603   0.071   6.207  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      84.368  -0.133   7.793  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      84.802   1.249   6.770  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.198', True, 'REMARK  Energy: 228.843\nREMARK  SimpleFitness: 228.843\nREMARK  FullFitness: -837.3052\nREMARK  InterFull: -37.9051\nREMARK  IntraFull: 274.096\nREMARK  solvFull: -1243.81\nREMARK  surfFull: 170.314\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1243.81\nREMARK  deltaGcompsolvnonpol: 170.314\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.87821\nREMARK  deltaGligsolvnonpol: 12.4321\nREMARK  deltaGvdw: -37.9051\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.226924\nREMARK  Cluster: 22\nREMARK  ClusterRank: 0\n', 198), ({'deltaGligsolvpol': -4.87821, 'surfFull': 170.314, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.314, 'SimpleFitness': 228.843, 'InterFull': -37.9051, 'extraFull': 0.0, 'Energy': 228.843, 'solvFull': -1243.81, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 22, 'deltaGligsolvnonpol': 12.4321, 'deltaGcompsolvpol': -1243.81, 'FullFitness': -837.3052, 'deltaG': -7.226924, 'ClusterRank': 1, 'IntraFull': 274.096, 'deltaGvdw': -37.9051}, 'V', ['REMARK  Energy: 228.843\n', 'REMARK  SimpleFitness: 228.843\n', 'REMARK  FullFitness: -837.3052\n', 'REMARK  InterFull: -37.9051\n', 'REMARK  IntraFull: 274.096\n', 'REMARK  solvFull: -1243.81\n', 'REMARK  surfFull: 170.314\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1243.81\n', 'REMARK  deltaGcompsolvnonpol: 170.314\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.87821\n', 'REMARK  deltaGligsolvnonpol: 12.4321\n', 'REMARK  deltaGvdw: -37.9051\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.226924\n', 'REMARK  Cluster: 22\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      76.149  -2.912  13.506  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.109  -1.823  13.052  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      77.035  -4.039  13.985  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      75.279  -2.384  14.598  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      77.839  -2.174  11.786  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.621  -0.417  12.847  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      76.306  -5.136  14.791  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      77.781  -4.541  12.752  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      74.701  -3.408  15.506  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.686  -0.902  11.606  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      78.607  -3.442  12.108  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      76.904  -2.401  10.603  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      77.753   0.218  12.073  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      75.185  -4.638  15.643  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      77.348  -5.765  15.699  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      75.698  -6.175  13.875  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.278  -0.543  10.228  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      74.614  -5.574  16.663  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      76.788  -6.792  16.663  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.156   0.707  10.386  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      80.110  -1.661   9.623  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.714  -6.165  17.526  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      80.689   1.264   9.073  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.165  -7.169  18.371  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.091   0.824   8.787  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      82.889   1.420   7.686  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.117   1.807   9.062  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.336   2.510   6.833  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      83.977   0.605   7.086  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      75.500  -3.265  12.702  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      77.867  -1.728  13.836  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      77.776  -3.600  14.659  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      74.466  -1.817  14.138  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      75.859  -1.685  15.206  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.431   0.105  13.789  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      75.715  -0.385  12.250  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.077  -4.920  12.006  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.445  -5.366  13.023  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      73.879  -3.114  16.145  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.514  -0.960  12.319  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      79.391  -3.180  12.816  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.080  -3.838  11.207  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.297   0.924  12.706  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      77.345   0.780  11.228  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      77.843  -4.984  16.282  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      78.117  -6.216  15.076  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.462  -0.310   9.538  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      74.061  -6.378  16.168  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      73.882  -5.078  17.310  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      77.590  -7.181  17.297  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      76.387  -7.656  16.126  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      80.978   0.494  11.077  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      79.571   1.510  10.836  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.159  -5.391  18.158  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.660   2.356   9.136  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.028   0.979   8.252  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.293  -0.204   9.052  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.767   3.243   7.409  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.684   2.090   6.062  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      83.153   3.038   6.335  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      74.481  -6.739  18.917  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.559  -2.598   9.553  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      81.010  -1.827  10.218  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      80.422  -1.409   8.608  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      76.338  -1.503  10.345  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      76.189  -3.204  10.788  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      77.469  -2.697   9.719  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      74.974  -5.703  13.204  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      75.176  -6.972  14.409  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      76.447  -6.672  13.261  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      83.603   0.071   6.207  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      84.368  -0.133   7.793  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      84.802   1.249   6.770  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.199', True, 'REMARK  Energy: 228.843\nREMARK  SimpleFitness: 228.843\nREMARK  FullFitness: -837.3052\nREMARK  InterFull: -37.9051\nREMARK  IntraFull: 274.096\nREMARK  solvFull: -1243.81\nREMARK  surfFull: 170.314\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1243.81\nREMARK  deltaGcompsolvnonpol: 170.314\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.87821\nREMARK  deltaGligsolvnonpol: 12.4321\nREMARK  deltaGvdw: -37.9051\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.226924\nREMARK  Cluster: 22\nREMARK  ClusterRank: 1\n', 199), ({'deltaGligsolvpol': -4.87456, 'surfFull': 170.319, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.319, 'SimpleFitness': 229.182, 'InterFull': -38.1183, 'extraFull': 0.0, 'Energy': 229.182, 'solvFull': -1244.04, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 22, 'deltaGligsolvnonpol': 12.4243, 'deltaGcompsolvpol': -1244.04, 'FullFitness': -837.29736, 'deltaG': -7.260179, 'ClusterRank': 2, 'IntraFull': 274.542, 'deltaGvdw': -38.1183}, 'V', ['REMARK  Energy: 229.182\n', 'REMARK  SimpleFitness: 229.182\n', 'REMARK  FullFitness: -837.29736\n', 'REMARK  InterFull: -38.1183\n', 'REMARK  IntraFull: 274.542\n', 'REMARK  solvFull: -1244.04\n', 'REMARK  surfFull: 170.319\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1244.04\n', 'REMARK  deltaGcompsolvnonpol: 170.319\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.87456\n', 'REMARK  deltaGligsolvnonpol: 12.4243\n', 'REMARK  deltaGvdw: -38.1183\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.260179\n', 'REMARK  Cluster: 22\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      76.143  -2.975  13.539  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.120  -1.909  13.071  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      77.013  -4.111  14.026  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      75.289  -2.420  14.631  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      77.839  -2.282  11.805  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.656  -0.496  12.865  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      76.267  -5.188  14.844  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      77.749  -4.636  12.795  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      74.695  -3.427  15.548  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.705  -1.025  11.613  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      78.593  -3.556  12.139  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      76.894  -2.505  10.628  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      77.803   0.114  12.094  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      75.154  -4.665  15.692  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      77.295  -5.823  15.761  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      75.643  -6.221  13.933  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.285  -0.667  10.230  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      74.568  -5.587  16.719  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      76.719  -6.852  16.713  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.206   0.550  10.403  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      80.071  -1.797   9.587  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.653  -6.212  17.578  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      80.763   1.102   9.100  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.082  -7.217  18.408  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.150   0.610   8.815  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      82.996   1.220   7.760  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.212   1.531   9.156  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.512   2.370   6.946  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      84.060   0.382   7.144  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      75.485  -3.325  12.741  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      77.885  -1.823  13.850  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      77.763  -3.681  14.697  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      74.485  -1.842  14.169  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      75.885  -1.730  15.231  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.476   0.030  13.806  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      75.753  -0.451  12.265  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.039  -5.010  12.053  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.401  -5.468  13.072  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      73.882  -3.113  16.189  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.542  -1.101  12.314  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      79.378  -3.297  12.848  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.066  -3.966  11.244  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.369   0.797  12.734  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      77.409   0.699  11.259  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      77.789  -5.047  16.354  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      78.066  -6.273  15.144  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.466  -0.395   9.558  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      73.990  -6.374  16.226  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      73.852  -5.072  17.369  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      77.512  -7.260  17.346  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      76.303  -7.704  16.167  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.018   0.300  11.094  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      79.649   1.369  10.861  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.110  -5.455  18.220  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.773   2.193   9.176  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.093   0.853   8.276  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.299  -0.437   9.031  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.941   3.090   7.539  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.879   2.014   6.130  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      83.363   2.899   6.510  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      74.403  -6.783  18.958  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.512  -2.732   9.552  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      81.001  -1.970  10.131  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      80.332  -1.550   8.557  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      76.343  -1.599  10.365  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      76.165  -3.293  10.824  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      77.448  -2.819   9.743  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      74.944  -5.735  13.246  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      75.089  -6.997  14.468  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      76.386  -6.747  13.337  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      83.695  -0.067   6.217  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      84.376  -0.425   7.813  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      84.934   0.995   6.909  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.200', True, 'REMARK  Energy: 229.182\nREMARK  SimpleFitness: 229.182\nREMARK  FullFitness: -837.29736\nREMARK  InterFull: -38.1183\nREMARK  IntraFull: 274.542\nREMARK  solvFull: -1244.04\nREMARK  surfFull: 170.319\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1244.04\nREMARK  deltaGcompsolvnonpol: 170.319\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.87456\nREMARK  deltaGligsolvnonpol: 12.4243\nREMARK  deltaGvdw: -38.1183\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.260179\nREMARK  Cluster: 22\nREMARK  ClusterRank: 2\n', 200), ({'deltaGligsolvpol': -4.87456, 'surfFull': 170.319, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.319, 'SimpleFitness': 229.182, 'InterFull': -38.1183, 'extraFull': 0.0, 'Energy': 229.182, 'solvFull': -1244.04, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 22, 'deltaGligsolvnonpol': 12.4243, 'deltaGcompsolvpol': -1244.04, 'FullFitness': -837.29736, 'deltaG': -7.260179, 'ClusterRank': 3, 'IntraFull': 274.542, 'deltaGvdw': -38.1183}, 'V', ['REMARK  Energy: 229.182\n', 'REMARK  SimpleFitness: 229.182\n', 'REMARK  FullFitness: -837.29736\n', 'REMARK  InterFull: -38.1183\n', 'REMARK  IntraFull: 274.542\n', 'REMARK  solvFull: -1244.04\n', 'REMARK  surfFull: 170.319\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1244.04\n', 'REMARK  deltaGcompsolvnonpol: 170.319\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.87456\n', 'REMARK  deltaGligsolvnonpol: 12.4243\n', 'REMARK  deltaGvdw: -38.1183\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.260179\n', 'REMARK  Cluster: 22\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      76.143  -2.975  13.539  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.120  -1.909  13.071  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      77.013  -4.111  14.026  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      75.289  -2.420  14.631  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      77.839  -2.282  11.805  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.656  -0.496  12.865  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      76.267  -5.188  14.844  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      77.749  -4.636  12.795  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      74.695  -3.427  15.548  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.705  -1.025  11.613  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      78.593  -3.556  12.139  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      76.894  -2.505  10.628  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      77.803   0.114  12.094  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      75.154  -4.665  15.692  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      77.295  -5.823  15.761  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      75.643  -6.221  13.933  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.285  -0.667  10.230  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      74.568  -5.587  16.719  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      76.719  -6.852  16.713  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.206   0.550  10.403  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      80.071  -1.797   9.587  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.653  -6.212  17.578  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      80.763   1.102   9.100  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.082  -7.217  18.408  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.150   0.610   8.815  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      82.996   1.220   7.760  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.212   1.531   9.156  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.512   2.370   6.946  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      84.060   0.382   7.144  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      75.485  -3.325  12.741  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      77.885  -1.823  13.850  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      77.763  -3.681  14.697  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      74.485  -1.842  14.169  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      75.885  -1.730  15.231  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.476   0.030  13.806  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      75.753  -0.451  12.265  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.039  -5.010  12.053  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.401  -5.468  13.072  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      73.882  -3.113  16.189  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.542  -1.101  12.314  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      79.378  -3.297  12.848  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.066  -3.966  11.244  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.369   0.797  12.734  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      77.409   0.699  11.259  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      77.789  -5.047  16.354  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      78.066  -6.273  15.144  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.466  -0.395   9.558  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      73.990  -6.374  16.226  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      73.852  -5.072  17.369  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      77.512  -7.260  17.346  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      76.303  -7.704  16.167  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.018   0.300  11.094  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      79.649   1.369  10.861  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.110  -5.455  18.220  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.773   2.193   9.176  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.093   0.853   8.276  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.299  -0.437   9.031  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.941   3.090   7.539  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.879   2.014   6.130  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      83.363   2.899   6.510  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      74.403  -6.783  18.958  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.512  -2.732   9.552  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      81.001  -1.970  10.131  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      80.332  -1.550   8.557  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      76.343  -1.599  10.365  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      76.165  -3.293  10.824  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      77.448  -2.819   9.743  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      74.944  -5.735  13.246  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      75.089  -6.997  14.468  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      76.386  -6.747  13.337  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      83.695  -0.067   6.217  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      84.376  -0.425   7.813  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      84.934   0.995   6.909  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.201', True, 'REMARK  Energy: 229.182\nREMARK  SimpleFitness: 229.182\nREMARK  FullFitness: -837.29736\nREMARK  InterFull: -38.1183\nREMARK  IntraFull: 274.542\nREMARK  solvFull: -1244.04\nREMARK  surfFull: 170.319\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1244.04\nREMARK  deltaGcompsolvnonpol: 170.319\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.87456\nREMARK  deltaGligsolvnonpol: 12.4243\nREMARK  deltaGvdw: -38.1183\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.260179\nREMARK  Cluster: 22\nREMARK  ClusterRank: 3\n', 201), ({'deltaGligsolvpol': -4.87456, 'surfFull': 170.319, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.319, 'SimpleFitness': 229.182, 'InterFull': -38.1183, 'extraFull': 0.0, 'Energy': 229.182, 'solvFull': -1244.04, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 22, 'deltaGligsolvnonpol': 12.4243, 'deltaGcompsolvpol': -1244.04, 'FullFitness': -837.29736, 'deltaG': -7.260179, 'ClusterRank': 4, 'IntraFull': 274.542, 'deltaGvdw': -38.1183}, 'V', ['REMARK  Energy: 229.182\n', 'REMARK  SimpleFitness: 229.182\n', 'REMARK  FullFitness: -837.29736\n', 'REMARK  InterFull: -38.1183\n', 'REMARK  IntraFull: 274.542\n', 'REMARK  solvFull: -1244.04\n', 'REMARK  surfFull: 170.319\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1244.04\n', 'REMARK  deltaGcompsolvnonpol: 170.319\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.87456\n', 'REMARK  deltaGligsolvnonpol: 12.4243\n', 'REMARK  deltaGvdw: -38.1183\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.260179\n', 'REMARK  Cluster: 22\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      76.143  -2.975  13.539  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.120  -1.909  13.071  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      77.013  -4.111  14.026  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      75.289  -2.420  14.631  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      77.839  -2.282  11.805  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.656  -0.496  12.865  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      76.267  -5.188  14.844  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      77.749  -4.636  12.795  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      74.695  -3.427  15.548  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.705  -1.025  11.613  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      78.593  -3.556  12.139  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      76.894  -2.505  10.628  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      77.803   0.114  12.094  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      75.154  -4.665  15.692  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      77.295  -5.823  15.761  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      75.643  -6.221  13.933  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.285  -0.667  10.230  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      74.568  -5.587  16.719  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      76.719  -6.852  16.713  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.206   0.550  10.403  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      80.071  -1.797   9.587  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.653  -6.212  17.578  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      80.763   1.102   9.100  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.082  -7.217  18.408  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.150   0.610   8.815  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      82.996   1.220   7.760  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.212   1.531   9.156  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.512   2.370   6.946  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      84.060   0.382   7.144  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      75.485  -3.325  12.741  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      77.885  -1.823  13.850  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      77.763  -3.681  14.697  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      74.485  -1.842  14.169  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      75.885  -1.730  15.231  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.476   0.030  13.806  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      75.753  -0.451  12.265  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.039  -5.010  12.053  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.401  -5.468  13.072  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      73.882  -3.113  16.189  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.542  -1.101  12.314  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      79.378  -3.297  12.848  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.066  -3.966  11.244  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.369   0.797  12.734  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      77.409   0.699  11.259  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      77.789  -5.047  16.354  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      78.066  -6.273  15.144  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.466  -0.395   9.558  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      73.990  -6.374  16.226  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      73.852  -5.072  17.369  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      77.512  -7.260  17.346  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      76.303  -7.704  16.167  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.018   0.300  11.094  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      79.649   1.369  10.861  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.110  -5.455  18.220  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.773   2.193   9.176  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.093   0.853   8.276  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.299  -0.437   9.031  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.941   3.090   7.539  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.879   2.014   6.130  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      83.363   2.899   6.510  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      74.403  -6.783  18.958  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.512  -2.732   9.552  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      81.001  -1.970  10.131  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      80.332  -1.550   8.557  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      76.343  -1.599  10.365  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      76.165  -3.293  10.824  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      77.448  -2.819   9.743  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      74.944  -5.735  13.246  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      75.089  -6.997  14.468  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      76.386  -6.747  13.337  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      83.695  -0.067   6.217  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      84.376  -0.425   7.813  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      84.934   0.995   6.909  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.202', True, 'REMARK  Energy: 229.182\nREMARK  SimpleFitness: 229.182\nREMARK  FullFitness: -837.29736\nREMARK  InterFull: -38.1183\nREMARK  IntraFull: 274.542\nREMARK  solvFull: -1244.04\nREMARK  surfFull: 170.319\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1244.04\nREMARK  deltaGcompsolvnonpol: 170.319\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.87456\nREMARK  deltaGligsolvnonpol: 12.4243\nREMARK  deltaGvdw: -38.1183\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.260179\nREMARK  Cluster: 22\nREMARK  ClusterRank: 4\n', 202), ({'deltaGligsolvpol': -4.79587, 'surfFull': 170.326, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.326, 'SimpleFitness': 230.868, 'InterFull': -33.9079, 'extraFull': 0.0, 'Energy': 230.868, 'solvFull': -1244.93, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 22, 'deltaGligsolvnonpol': 12.4246, 'deltaGcompsolvpol': -1244.93, 'FullFitness': -834.23895, 'deltaG': -6.9205256, 'ClusterRank': 5, 'IntraFull': 274.273, 'deltaGvdw': -33.9079}, 'V', ['REMARK  Energy: 230.868\n', 'REMARK  SimpleFitness: 230.868\n', 'REMARK  FullFitness: -834.23895\n', 'REMARK  InterFull: -33.9079\n', 'REMARK  IntraFull: 274.273\n', 'REMARK  solvFull: -1244.93\n', 'REMARK  surfFull: 170.326\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1244.93\n', 'REMARK  deltaGcompsolvnonpol: 170.326\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79587\n', 'REMARK  deltaGligsolvnonpol: 12.4246\n', 'REMARK  deltaGvdw: -33.9079\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9205256\n', 'REMARK  Cluster: 22\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      76.182  -2.886  13.471  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.143  -1.803  13.008  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      77.064  -4.018  13.949  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      75.319  -2.352  14.567  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      77.869  -2.167  11.744  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.660  -0.396  12.788  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      76.330  -5.116  14.748  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      77.806  -4.528  12.718  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      74.737  -3.382  15.468  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.732  -0.909  11.568  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      78.630  -3.436  12.069  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      76.936  -2.383  10.556  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      77.814   0.225  12.033  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      75.202  -4.617  15.591  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      77.352  -5.755  15.671  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      75.728  -6.143  13.817  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.342  -0.568  10.194  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      74.589  -5.578  16.567  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      76.769  -6.828  16.570  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.257   0.651  10.369  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      80.144  -1.707   9.587  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.646  -6.264  17.417  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      80.829   1.188   9.066  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.046  -7.337  18.132  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.208   0.673   8.787  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.052   1.246   7.709  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.286   1.589   9.096  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.574   2.382   6.872  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      84.092   0.370   7.106  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      75.528  -3.236  12.670  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      77.901  -1.707  13.792  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      77.807  -3.585  14.625  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      74.505  -1.789  14.106  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      75.899  -1.652  15.172  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.455   0.134  13.723  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      75.767  -0.367  12.170  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.105  -4.908  11.971  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.471  -5.352  12.992  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      73.901  -3.092  16.093  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.555  -0.983  12.286  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      79.412  -3.172  12.777  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.103  -3.842  11.173  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.367   0.913  12.680  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      77.427   0.804  11.190  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      77.809  -4.987  16.304  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      78.152  -6.174  15.064  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.538  -0.308   9.500  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      74.003  -6.326  16.026  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      73.872  -5.078  17.228  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      77.548  -7.238  17.218  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      76.410  -7.677  15.982  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.060   0.411  11.073  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      79.688   1.471  10.811  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.054  -5.558  18.145  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.858   2.278   9.137  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.156   0.945   8.242  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.350  -0.369   9.028  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      82.033   3.132   7.455  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.914   2.017   6.082  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      83.425   2.880   6.401  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.761  -7.775  18.621  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.581  -2.637   9.526  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      81.050  -1.886  10.169  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      80.447  -1.468   8.566  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      76.404  -1.470  10.278  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      76.190  -3.157  10.746  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      77.497  -2.711   9.681  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      75.035  -5.655  13.126  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      75.172  -6.932  14.331  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      76.487  -6.655  13.229  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      83.703  -0.102   6.200  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      84.402  -0.421   7.795  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      84.975   0.956   6.837  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.203', True, 'REMARK  Energy: 230.868\nREMARK  SimpleFitness: 230.868\nREMARK  FullFitness: -834.23895\nREMARK  InterFull: -33.9079\nREMARK  IntraFull: 274.273\nREMARK  solvFull: -1244.93\nREMARK  surfFull: 170.326\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1244.93\nREMARK  deltaGcompsolvnonpol: 170.326\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79587\nREMARK  deltaGligsolvnonpol: 12.4246\nREMARK  deltaGvdw: -33.9079\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9205256\nREMARK  Cluster: 22\nREMARK  ClusterRank: 5\n', 203), ({'deltaGligsolvpol': -4.79587, 'surfFull': 170.326, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.326, 'SimpleFitness': 230.868, 'InterFull': -33.9079, 'extraFull': 0.0, 'Energy': 230.868, 'solvFull': -1244.93, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 22, 'deltaGligsolvnonpol': 12.4246, 'deltaGcompsolvpol': -1244.93, 'FullFitness': -834.23895, 'deltaG': -6.9205256, 'ClusterRank': 6, 'IntraFull': 274.273, 'deltaGvdw': -33.9079}, 'V', ['REMARK  Energy: 230.868\n', 'REMARK  SimpleFitness: 230.868\n', 'REMARK  FullFitness: -834.23895\n', 'REMARK  InterFull: -33.9079\n', 'REMARK  IntraFull: 274.273\n', 'REMARK  solvFull: -1244.93\n', 'REMARK  surfFull: 170.326\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1244.93\n', 'REMARK  deltaGcompsolvnonpol: 170.326\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79587\n', 'REMARK  deltaGligsolvnonpol: 12.4246\n', 'REMARK  deltaGvdw: -33.9079\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9205256\n', 'REMARK  Cluster: 22\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      76.182  -2.886  13.471  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.143  -1.803  13.008  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      77.064  -4.018  13.949  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      75.319  -2.352  14.567  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      77.869  -2.167  11.744  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.660  -0.396  12.788  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      76.330  -5.116  14.748  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      77.806  -4.528  12.718  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      74.737  -3.382  15.468  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.732  -0.909  11.568  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      78.630  -3.436  12.069  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      76.936  -2.383  10.556  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      77.814   0.225  12.033  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      75.202  -4.617  15.591  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      77.352  -5.755  15.671  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      75.728  -6.143  13.817  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.342  -0.568  10.194  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      74.589  -5.578  16.567  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      76.769  -6.828  16.570  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.257   0.651  10.369  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      80.144  -1.707   9.587  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.646  -6.264  17.417  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      80.829   1.188   9.066  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.046  -7.337  18.132  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.208   0.673   8.787  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.052   1.246   7.709  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.286   1.589   9.096  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.574   2.382   6.872  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      84.092   0.370   7.106  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      75.528  -3.236  12.670  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      77.901  -1.707  13.792  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      77.807  -3.585  14.625  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      74.505  -1.789  14.106  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      75.899  -1.652  15.172  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.455   0.134  13.723  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      75.767  -0.367  12.170  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.105  -4.908  11.971  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.471  -5.352  12.992  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      73.901  -3.092  16.093  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.555  -0.983  12.286  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      79.412  -3.172  12.777  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.103  -3.842  11.173  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.367   0.913  12.680  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      77.427   0.804  11.190  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      77.809  -4.987  16.304  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      78.152  -6.174  15.064  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.538  -0.308   9.500  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      74.003  -6.326  16.026  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      73.872  -5.078  17.228  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      77.548  -7.238  17.218  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      76.410  -7.677  15.982  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.060   0.411  11.073  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      79.688   1.471  10.811  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.054  -5.558  18.145  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.858   2.278   9.137  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.156   0.945   8.242  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.350  -0.369   9.028  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      82.033   3.132   7.455  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.914   2.017   6.082  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      83.425   2.880   6.401  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.761  -7.775  18.621  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.581  -2.637   9.526  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      81.050  -1.886  10.169  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      80.447  -1.468   8.566  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      76.404  -1.470  10.278  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      76.190  -3.157  10.746  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      77.497  -2.711   9.681  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      75.035  -5.655  13.126  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      75.172  -6.932  14.331  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      76.487  -6.655  13.229  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      83.703  -0.102   6.200  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      84.402  -0.421   7.795  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      84.975   0.956   6.837  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.204', True, 'REMARK  Energy: 230.868\nREMARK  SimpleFitness: 230.868\nREMARK  FullFitness: -834.23895\nREMARK  InterFull: -33.9079\nREMARK  IntraFull: 274.273\nREMARK  solvFull: -1244.93\nREMARK  surfFull: 170.326\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1244.93\nREMARK  deltaGcompsolvnonpol: 170.326\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79587\nREMARK  deltaGligsolvnonpol: 12.4246\nREMARK  deltaGvdw: -33.9079\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9205256\nREMARK  Cluster: 22\nREMARK  ClusterRank: 6\n', 204), ({'deltaGligsolvpol': -4.79587, 'surfFull': 170.326, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 170.326, 'SimpleFitness': 230.868, 'InterFull': -33.9079, 'extraFull': 0.0, 'Energy': 230.868, 'solvFull': -1244.93, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 22, 'deltaGligsolvnonpol': 12.4246, 'deltaGcompsolvpol': -1244.93, 'FullFitness': -834.23895, 'deltaG': -6.9205256, 'ClusterRank': 7, 'IntraFull': 274.273, 'deltaGvdw': -33.9079}, 'V', ['REMARK  Energy: 230.868\n', 'REMARK  SimpleFitness: 230.868\n', 'REMARK  FullFitness: -834.23895\n', 'REMARK  InterFull: -33.9079\n', 'REMARK  IntraFull: 274.273\n', 'REMARK  solvFull: -1244.93\n', 'REMARK  surfFull: 170.326\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1244.93\n', 'REMARK  deltaGcompsolvnonpol: 170.326\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79587\n', 'REMARK  deltaGligsolvnonpol: 12.4246\n', 'REMARK  deltaGvdw: -33.9079\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9205256\n', 'REMARK  Cluster: 22\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      76.182  -2.886  13.471  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.143  -1.803  13.008  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      77.064  -4.018  13.949  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      75.319  -2.352  14.567  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      77.869  -2.167  11.744  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.660  -0.396  12.788  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      76.330  -5.116  14.748  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      77.806  -4.528  12.718  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      74.737  -3.382  15.468  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.732  -0.909  11.568  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      78.630  -3.436  12.069  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      76.936  -2.383  10.556  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      77.814   0.225  12.033  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      75.202  -4.617  15.591  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      77.352  -5.755  15.671  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      75.728  -6.143  13.817  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.342  -0.568  10.194  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      74.589  -5.578  16.567  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      76.769  -6.828  16.570  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      80.257   0.651  10.369  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      80.144  -1.707   9.587  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.646  -6.264  17.417  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      80.829   1.188   9.066  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.046  -7.337  18.132  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      82.208   0.673   8.787  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      83.052   1.246   7.709  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      83.286   1.589   9.096  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.574   2.382   6.872  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      84.092   0.370   7.106  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      75.528  -3.236  12.670  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      77.901  -1.707  13.792  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      77.807  -3.585  14.625  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      74.505  -1.789  14.106  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      75.899  -1.652  15.172  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.455   0.134  13.723  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      75.767  -0.367  12.170  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      77.105  -4.908  11.971  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      78.471  -5.352  12.992  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      73.901  -3.092  16.093  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      79.555  -0.983  12.286  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      79.412  -3.172  12.777  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.103  -3.842  11.173  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.367   0.913  12.680  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      77.427   0.804  11.190  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      77.809  -4.987  16.304  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      78.152  -6.174  15.064  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.538  -0.308   9.500  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      74.003  -6.326  16.026  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      73.872  -5.078  17.228  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      77.548  -7.238  17.218  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      76.410  -7.677  15.982  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      81.060   0.411  11.073  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      79.688   1.471  10.811  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.054  -5.558  18.145  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.858   2.278   9.137  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      80.156   0.945   8.242  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.350  -0.369   9.028  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      82.033   3.132   7.455  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.914   2.017   6.082  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      83.425   2.880   6.401  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.761  -7.775  18.621  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      79.581  -2.637   9.526  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      81.050  -1.886  10.169  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      80.447  -1.468   8.566  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      76.404  -1.470  10.278  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      76.190  -3.157  10.746  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      77.497  -2.711   9.681  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      75.035  -5.655  13.126  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      75.172  -6.932  14.331  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      76.487  -6.655  13.229  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      83.703  -0.102   6.200  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      84.402  -0.421   7.795  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      84.975   0.956   6.837  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.205', True, 'REMARK  Energy: 230.868\nREMARK  SimpleFitness: 230.868\nREMARK  FullFitness: -834.23895\nREMARK  InterFull: -33.9079\nREMARK  IntraFull: 274.273\nREMARK  solvFull: -1244.93\nREMARK  surfFull: 170.326\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1244.93\nREMARK  deltaGcompsolvnonpol: 170.326\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79587\nREMARK  deltaGligsolvnonpol: 12.4246\nREMARK  deltaGvdw: -33.9079\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9205256\nREMARK  Cluster: 22\nREMARK  ClusterRank: 7\n', 205), ({'deltaGligsolvpol': -4.62895, 'surfFull': 174.369, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.369, 'SimpleFitness': 240.777, 'InterFull': -22.6866, 'extraFull': 0.0, 'Energy': 240.777, 'solvFull': -1261.53, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 23, 'deltaGligsolvnonpol': 12.5544, 'deltaGcompsolvpol': -1261.53, 'FullFitness': -836.89264, 'deltaG': -6.514936, 'ClusterRank': 0, 'IntraFull': 272.955, 'deltaGvdw': -22.6866}, 'V', ['REMARK  Energy: 240.777\n', 'REMARK  SimpleFitness: 240.777\n', 'REMARK  FullFitness: -836.89264\n', 'REMARK  InterFull: -22.6866\n', 'REMARK  IntraFull: 272.955\n', 'REMARK  solvFull: -1261.53\n', 'REMARK  surfFull: 174.369\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1261.53\n', 'REMARK  deltaGcompsolvnonpol: 174.369\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.62895\n', 'REMARK  deltaGligsolvnonpol: 12.5544\n', 'REMARK  deltaGvdw: -22.6866\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.514936\n', 'REMARK  Cluster: 23\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      78.885  12.683  30.556  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.263  11.530  29.797  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      80.227  13.026  29.914  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.958  13.881  30.479  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.115  10.288  29.727  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.922  11.026  30.275  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      80.925  14.180  30.668  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.108  11.784  29.717  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      78.628  15.157  30.839  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.135   9.421  28.928  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.386  10.656  28.995  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      79.428   9.756  31.137  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.815   9.641  29.655  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      79.954  15.299  30.949  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      82.058  14.697  29.779  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.519  13.705  31.996  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      78.456   7.975  28.484  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      80.529  16.621  31.346  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      82.665  16.002  30.254  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      79.262   7.094  29.430  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.168   7.262  28.106  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      81.592  17.062  30.362  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      79.655   5.782  28.769  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      82.180  18.272  30.820  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      80.667   5.038  29.582  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      81.959   4.561  29.018  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      81.901   5.751  29.834  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.357   4.832  27.607  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      82.632   3.407  29.672  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      79.021  12.422  31.607  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.116  11.884  28.771  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.995  13.390  28.911  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.113  13.723  31.154  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.552  13.977  29.468  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.112  11.678  29.941  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.881  10.965  31.366  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.473  11.411  30.675  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.993  12.044  29.132  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      77.987  16.009  31.030  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.002   9.942  27.975  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.141  10.978  27.979  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.041   9.785  28.914  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      75.961   9.592  28.973  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      76.673   8.894  30.435  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      81.678  14.849  28.765  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      82.855  13.953  29.713  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.055   8.066  27.574  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      80.965  16.547  32.347  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      79.761  17.398  31.419  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      83.442  16.329  29.558  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      83.159  15.871  31.221  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      78.708   6.905  30.354  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.182   7.615  29.694  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      81.147  17.247  29.379  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.022   5.996  27.764  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.780   5.138  28.653  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      80.224   4.499  30.411  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      82.158   5.867  27.314  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.813   4.173  26.928  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      83.427   4.649  27.477  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      82.961  18.429  30.263  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      76.531   7.912  27.504  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.614   6.952  28.995  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      77.367   6.370  27.507  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      78.584   9.231  31.591  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.733  10.536  31.834  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.263   9.055  31.103  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      80.766  13.213  32.618  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      81.933  14.529  32.583  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      82.336  12.999  31.832  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      82.351   2.477  29.171  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      82.356   3.326  30.727  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      83.718   3.518  29.609  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.206', True, 'REMARK  Energy: 240.777\nREMARK  SimpleFitness: 240.777\nREMARK  FullFitness: -836.89264\nREMARK  InterFull: -22.6866\nREMARK  IntraFull: 272.955\nREMARK  solvFull: -1261.53\nREMARK  surfFull: 174.369\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1261.53\nREMARK  deltaGcompsolvnonpol: 174.369\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.62895\nREMARK  deltaGligsolvnonpol: 12.5544\nREMARK  deltaGvdw: -22.6866\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.514936\nREMARK  Cluster: 23\nREMARK  ClusterRank: 0\n', 206), ({'deltaGligsolvpol': -4.62895, 'surfFull': 174.369, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.369, 'SimpleFitness': 240.777, 'InterFull': -22.6866, 'extraFull': 0.0, 'Energy': 240.777, 'solvFull': -1261.53, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 23, 'deltaGligsolvnonpol': 12.5544, 'deltaGcompsolvpol': -1261.53, 'FullFitness': -836.89264, 'deltaG': -6.514936, 'ClusterRank': 1, 'IntraFull': 272.955, 'deltaGvdw': -22.6866}, 'V', ['REMARK  Energy: 240.777\n', 'REMARK  SimpleFitness: 240.777\n', 'REMARK  FullFitness: -836.89264\n', 'REMARK  InterFull: -22.6866\n', 'REMARK  IntraFull: 272.955\n', 'REMARK  solvFull: -1261.53\n', 'REMARK  surfFull: 174.369\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1261.53\n', 'REMARK  deltaGcompsolvnonpol: 174.369\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.62895\n', 'REMARK  deltaGligsolvnonpol: 12.5544\n', 'REMARK  deltaGvdw: -22.6866\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.514936\n', 'REMARK  Cluster: 23\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      78.885  12.683  30.556  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.263  11.530  29.797  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      80.227  13.026  29.914  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.958  13.881  30.479  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.115  10.288  29.727  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.922  11.026  30.275  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      80.925  14.180  30.668  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.108  11.784  29.717  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      78.628  15.157  30.839  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.135   9.421  28.928  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.386  10.656  28.995  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      79.428   9.756  31.137  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.815   9.641  29.655  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      79.954  15.299  30.949  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      82.058  14.697  29.779  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.519  13.705  31.996  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      78.456   7.975  28.484  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      80.529  16.621  31.346  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      82.665  16.002  30.254  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      79.262   7.094  29.430  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.168   7.262  28.106  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      81.592  17.062  30.362  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      79.655   5.782  28.769  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      82.180  18.272  30.820  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      80.667   5.038  29.582  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      81.959   4.561  29.018  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      81.901   5.751  29.834  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.357   4.832  27.607  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      82.632   3.407  29.672  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      79.021  12.422  31.607  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.116  11.884  28.771  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.995  13.390  28.911  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.113  13.723  31.154  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.552  13.977  29.468  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.112  11.678  29.941  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.881  10.965  31.366  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.473  11.411  30.675  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.993  12.044  29.132  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      77.987  16.009  31.030  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.002   9.942  27.975  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.141  10.978  27.979  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.041   9.785  28.914  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      75.961   9.592  28.973  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      76.673   8.894  30.435  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      81.678  14.849  28.765  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      82.855  13.953  29.713  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.055   8.066  27.574  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      80.965  16.547  32.347  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      79.761  17.398  31.419  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      83.442  16.329  29.558  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      83.159  15.871  31.221  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      78.708   6.905  30.354  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.182   7.615  29.694  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      81.147  17.247  29.379  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.022   5.996  27.764  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.780   5.138  28.653  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      80.224   4.499  30.411  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      82.158   5.867  27.314  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.813   4.173  26.928  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      83.427   4.649  27.477  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      82.961  18.429  30.263  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      76.531   7.912  27.504  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.614   6.952  28.995  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      77.367   6.370  27.507  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      78.584   9.231  31.591  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.733  10.536  31.834  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.263   9.055  31.103  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      80.766  13.213  32.618  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      81.933  14.529  32.583  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      82.336  12.999  31.832  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      82.351   2.477  29.171  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      82.356   3.326  30.727  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      83.718   3.518  29.609  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.207', True, 'REMARK  Energy: 240.777\nREMARK  SimpleFitness: 240.777\nREMARK  FullFitness: -836.89264\nREMARK  InterFull: -22.6866\nREMARK  IntraFull: 272.955\nREMARK  solvFull: -1261.53\nREMARK  surfFull: 174.369\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1261.53\nREMARK  deltaGcompsolvnonpol: 174.369\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.62895\nREMARK  deltaGligsolvnonpol: 12.5544\nREMARK  deltaGvdw: -22.6866\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.514936\nREMARK  Cluster: 23\nREMARK  ClusterRank: 1\n', 207), ({'deltaGligsolvpol': -4.62179, 'surfFull': 174.375, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.375, 'SimpleFitness': 240.86, 'InterFull': -22.7333, 'extraFull': 0.0, 'Energy': 240.86, 'solvFull': -1261.6, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 23, 'deltaGligsolvnonpol': 12.5557, 'deltaGcompsolvpol': -1261.6, 'FullFitness': -836.7893, 'deltaG': -6.5236287, 'ClusterRank': 2, 'IntraFull': 273.169, 'deltaGvdw': -22.7333}, 'V', ['REMARK  Energy: 240.86\n', 'REMARK  SimpleFitness: 240.86\n', 'REMARK  FullFitness: -836.7893\n', 'REMARK  InterFull: -22.7333\n', 'REMARK  IntraFull: 273.169\n', 'REMARK  solvFull: -1261.6\n', 'REMARK  surfFull: 174.375\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1261.6\n', 'REMARK  deltaGcompsolvnonpol: 174.375\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.62179\n', 'REMARK  deltaGligsolvnonpol: 12.5557\n', 'REMARK  deltaGvdw: -22.7333\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.5236287\n', 'REMARK  Cluster: 23\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      78.915  12.606  30.520  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.275  11.462  29.760  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      80.259  12.938  29.878  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.003  13.817  30.454  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.117  10.213  29.681  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.935  10.969  30.252  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      80.976  14.071  30.647  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.125  11.689  29.655  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      78.691  15.076  30.839  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.122   9.351  28.894  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.382  10.573  28.935  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      79.441   9.679  31.088  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.811   9.585  29.632  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      80.019  15.197  30.952  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      82.109  14.592  29.761  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.572  13.565  31.962  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      78.425   7.898  28.456  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      80.615  16.501  31.379  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      82.737  15.877  30.262  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      79.229   7.017  29.403  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.128   7.193  28.092  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      81.680  16.950  30.402  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      79.592   5.687  28.760  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      82.289  18.139  30.889  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      80.613   4.943  29.564  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      81.926   4.521  29.004  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      81.825   5.679  29.860  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.336   4.852  27.609  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      82.625   3.366  29.629  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      79.050  12.340  31.570  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.121  11.821  28.737  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      80.028  13.322  28.881  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.151  13.661  31.121  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.606  13.934  29.442  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.126  11.627  29.928  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.906  10.907  31.343  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.502  11.303  30.603  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      82.003  11.947  29.058  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      78.062  15.933  31.049  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      77.985   9.869  27.940  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.127  10.903  27.924  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.026   9.695  28.841  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      75.951   9.543  28.958  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      76.670   8.839  30.413  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      81.725  14.773  28.754  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      82.895  13.838  29.672  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.019   7.978  27.541  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      81.052  16.397  32.377  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      79.858  17.287  31.473  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      83.514  16.210  29.568  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      83.237  15.716  31.222  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      78.685   6.851  30.337  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.159   7.530  29.645  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      81.236  17.167  29.426  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      79.936   5.873  27.741  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.706   5.053  28.676  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      80.172   4.366  30.368  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      82.108   5.890  27.349  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.822   4.200  26.900  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      83.413   4.707  27.490  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      83.074  18.294  30.337  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      76.484   7.848  27.502  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.586   6.880  28.988  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      77.315   6.304  27.487  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      78.600   9.155  31.548  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.755  10.457  31.784  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.274   8.976  31.044  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      80.820  13.064  32.577  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      81.996  14.373  32.564  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      82.384  12.857  31.778  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      82.364   2.443  29.106  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      82.351   3.253  30.682  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      83.708   3.503  29.570  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.208', True, 'REMARK  Energy: 240.86\nREMARK  SimpleFitness: 240.86\nREMARK  FullFitness: -836.7893\nREMARK  InterFull: -22.7333\nREMARK  IntraFull: 273.169\nREMARK  solvFull: -1261.6\nREMARK  surfFull: 174.375\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1261.6\nREMARK  deltaGcompsolvnonpol: 174.375\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.62179\nREMARK  deltaGligsolvnonpol: 12.5557\nREMARK  deltaGvdw: -22.7333\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.5236287\nREMARK  Cluster: 23\nREMARK  ClusterRank: 2\n', 208), ({'deltaGligsolvpol': -4.62179, 'surfFull': 174.375, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.375, 'SimpleFitness': 240.86, 'InterFull': -22.7333, 'extraFull': 0.0, 'Energy': 240.86, 'solvFull': -1261.6, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 23, 'deltaGligsolvnonpol': 12.5557, 'deltaGcompsolvpol': -1261.6, 'FullFitness': -836.7893, 'deltaG': -6.5236287, 'ClusterRank': 3, 'IntraFull': 273.169, 'deltaGvdw': -22.7333}, 'V', ['REMARK  Energy: 240.86\n', 'REMARK  SimpleFitness: 240.86\n', 'REMARK  FullFitness: -836.7893\n', 'REMARK  InterFull: -22.7333\n', 'REMARK  IntraFull: 273.169\n', 'REMARK  solvFull: -1261.6\n', 'REMARK  surfFull: 174.375\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1261.6\n', 'REMARK  deltaGcompsolvnonpol: 174.375\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.62179\n', 'REMARK  deltaGligsolvnonpol: 12.5557\n', 'REMARK  deltaGvdw: -22.7333\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.5236287\n', 'REMARK  Cluster: 23\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      78.915  12.606  30.520  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.275  11.462  29.760  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      80.259  12.938  29.878  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.003  13.817  30.454  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.117  10.213  29.681  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.935  10.969  30.252  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      80.976  14.071  30.647  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.125  11.689  29.655  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      78.691  15.076  30.839  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.122   9.351  28.894  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.382  10.573  28.935  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      79.441   9.679  31.088  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.811   9.585  29.632  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      80.019  15.197  30.952  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      82.109  14.592  29.761  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.572  13.565  31.962  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      78.425   7.898  28.456  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      80.615  16.501  31.379  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      82.737  15.877  30.262  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      79.229   7.017  29.403  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.128   7.193  28.092  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      81.680  16.950  30.402  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      79.592   5.687  28.760  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      82.289  18.139  30.889  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      80.613   4.943  29.564  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      81.926   4.521  29.004  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      81.825   5.679  29.860  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.336   4.852  27.609  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      82.625   3.366  29.629  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      79.050  12.340  31.570  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.121  11.821  28.737  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      80.028  13.322  28.881  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.151  13.661  31.121  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.606  13.934  29.442  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.126  11.627  29.928  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.906  10.907  31.343  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.502  11.303  30.603  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      82.003  11.947  29.058  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      78.062  15.933  31.049  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      77.985   9.869  27.940  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.127  10.903  27.924  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.026   9.695  28.841  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      75.951   9.543  28.958  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      76.670   8.839  30.413  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      81.725  14.773  28.754  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      82.895  13.838  29.672  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.019   7.978  27.541  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      81.052  16.397  32.377  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      79.858  17.287  31.473  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      83.514  16.210  29.568  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      83.237  15.716  31.222  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      78.685   6.851  30.337  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.159   7.530  29.645  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      81.236  17.167  29.426  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      79.936   5.873  27.741  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.706   5.053  28.676  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      80.172   4.366  30.368  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      82.108   5.890  27.349  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.822   4.200  26.900  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      83.413   4.707  27.490  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      83.074  18.294  30.337  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      76.484   7.848  27.502  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.586   6.880  28.988  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      77.315   6.304  27.487  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      78.600   9.155  31.548  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.755  10.457  31.784  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.274   8.976  31.044  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      80.820  13.064  32.577  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      81.996  14.373  32.564  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      82.384  12.857  31.778  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      82.364   2.443  29.106  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      82.351   3.253  30.682  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      83.708   3.503  29.570  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.209', True, 'REMARK  Energy: 240.86\nREMARK  SimpleFitness: 240.86\nREMARK  FullFitness: -836.7893\nREMARK  InterFull: -22.7333\nREMARK  IntraFull: 273.169\nREMARK  solvFull: -1261.6\nREMARK  surfFull: 174.375\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1261.6\nREMARK  deltaGcompsolvnonpol: 174.375\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.62179\nREMARK  deltaGligsolvnonpol: 12.5557\nREMARK  deltaGvdw: -22.7333\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.5236287\nREMARK  Cluster: 23\nREMARK  ClusterRank: 3\n', 209), ({'deltaGligsolvpol': -4.62179, 'surfFull': 174.375, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.375, 'SimpleFitness': 240.86, 'InterFull': -22.7333, 'extraFull': 0.0, 'Energy': 240.86, 'solvFull': -1261.6, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 23, 'deltaGligsolvnonpol': 12.5557, 'deltaGcompsolvpol': -1261.6, 'FullFitness': -836.7893, 'deltaG': -6.5236287, 'ClusterRank': 4, 'IntraFull': 273.169, 'deltaGvdw': -22.7333}, 'V', ['REMARK  Energy: 240.86\n', 'REMARK  SimpleFitness: 240.86\n', 'REMARK  FullFitness: -836.7893\n', 'REMARK  InterFull: -22.7333\n', 'REMARK  IntraFull: 273.169\n', 'REMARK  solvFull: -1261.6\n', 'REMARK  surfFull: 174.375\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1261.6\n', 'REMARK  deltaGcompsolvnonpol: 174.375\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.62179\n', 'REMARK  deltaGligsolvnonpol: 12.5557\n', 'REMARK  deltaGvdw: -22.7333\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.5236287\n', 'REMARK  Cluster: 23\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      78.915  12.606  30.520  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.275  11.462  29.760  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      80.259  12.938  29.878  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      78.003  13.817  30.454  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.117  10.213  29.681  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      76.935  10.969  30.252  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      80.976  14.071  30.647  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.125  11.689  29.655  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      78.691  15.076  30.839  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.122   9.351  28.894  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.382  10.573  28.935  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      79.441   9.679  31.088  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      76.811   9.585  29.632  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      80.019  15.197  30.952  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      82.109  14.592  29.761  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.572  13.565  31.962  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      78.425   7.898  28.456  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      80.615  16.501  31.379  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      82.737  15.877  30.262  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      79.229   7.017  29.403  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.128   7.193  28.092  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      81.680  16.950  30.402  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      79.592   5.687  28.760  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      82.289  18.139  30.889  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      80.613   4.943  29.564  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      81.926   4.521  29.004  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      81.825   5.679  29.860  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.336   4.852  27.609  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      82.625   3.366  29.629  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      79.050  12.340  31.570  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.121  11.821  28.737  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      80.028  13.322  28.881  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.151  13.661  31.121  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.606  13.934  29.442  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.126  11.627  29.928  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      76.906  10.907  31.343  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.502  11.303  30.603  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      82.003  11.947  29.058  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      78.062  15.933  31.049  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      77.985   9.869  27.940  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.127  10.903  27.924  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.026   9.695  28.841  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      75.951   9.543  28.958  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      76.670   8.839  30.413  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      81.725  14.773  28.754  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      82.895  13.838  29.672  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.019   7.978  27.541  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      81.052  16.397  32.377  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      79.858  17.287  31.473  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      83.514  16.210  29.568  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      83.237  15.716  31.222  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      78.685   6.851  30.337  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.159   7.530  29.645  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      81.236  17.167  29.426  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      79.936   5.873  27.741  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.706   5.053  28.676  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      80.172   4.366  30.368  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      82.108   5.890  27.349  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.822   4.200  26.900  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      83.413   4.707  27.490  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      83.074  18.294  30.337  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      76.484   7.848  27.502  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.586   6.880  28.988  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      77.315   6.304  27.487  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      78.600   9.155  31.548  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      79.755  10.457  31.784  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.274   8.976  31.044  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      80.820  13.064  32.577  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      81.996  14.373  32.564  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      82.384  12.857  31.778  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      82.364   2.443  29.106  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      82.351   3.253  30.682  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      83.708   3.503  29.570  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.210', True, 'REMARK  Energy: 240.86\nREMARK  SimpleFitness: 240.86\nREMARK  FullFitness: -836.7893\nREMARK  InterFull: -22.7333\nREMARK  IntraFull: 273.169\nREMARK  solvFull: -1261.6\nREMARK  surfFull: 174.375\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1261.6\nREMARK  deltaGcompsolvnonpol: 174.375\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.62179\nREMARK  deltaGligsolvnonpol: 12.5557\nREMARK  deltaGvdw: -22.7333\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.5236287\nREMARK  Cluster: 23\nREMARK  ClusterRank: 4\n', 210), ({'deltaGligsolvpol': -4.64362, 'surfFull': 174.503, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.503, 'SimpleFitness': 239.912, 'InterFull': -19.8226, 'extraFull': 0.0, 'Energy': 239.912, 'solvFull': -1260.09, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 23, 'deltaGligsolvnonpol': 12.5751, 'deltaGcompsolvpol': -1260.09, 'FullFitness': -836.5086, 'deltaG': -6.1442533, 'ClusterRank': 5, 'IntraFull': 268.901, 'deltaGvdw': -19.8226}, 'V', ['REMARK  Energy: 239.912\n', 'REMARK  SimpleFitness: 239.912\n', 'REMARK  FullFitness: -836.5086\n', 'REMARK  InterFull: -19.8226\n', 'REMARK  IntraFull: 268.901\n', 'REMARK  solvFull: -1260.09\n', 'REMARK  surfFull: 174.503\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1260.09\n', 'REMARK  deltaGcompsolvnonpol: 174.503\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.64362\n', 'REMARK  deltaGligsolvnonpol: 12.5751\n', 'REMARK  deltaGvdw: -19.8226\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.1442533\n', 'REMARK  Cluster: 23\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      78.976  13.040  30.836  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.445  11.784  30.177  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      80.121  13.586  29.985  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.861  14.067  30.906  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.477  10.701  29.990  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      77.277  11.080  30.829  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      80.725  14.863  30.612  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.162  12.507  29.648  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      78.355  15.446  31.159  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.563   9.649  29.361  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.543  11.244  29.067  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.104  10.267  31.318  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      77.329   9.677  30.244  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      79.637  15.811  31.051  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      81.589  15.538  29.544  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.602  14.535  31.823  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.089   8.255  28.976  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      80.040  17.221  31.347  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      82.042  16.936  29.913  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      79.468   7.296  30.105  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.009   7.587  28.144  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      80.839  17.807  30.201  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      80.109   6.034  29.546  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      81.289  19.108  30.556  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      81.005   5.398  30.560  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      82.236   4.641  30.209  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      82.308   6.019  30.641  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.615   4.420  28.783  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      82.817   3.691  31.198  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      79.318  12.827  31.852  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.101  12.081  29.181  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.671  13.877  29.031  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.160  13.788  31.698  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.305  14.071  29.964  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.328  11.574  30.605  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      77.389  11.045  31.915  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.742  12.237  30.532  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.877  12.895  28.919  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      77.617  16.184  31.451  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.246  10.089  28.411  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.097  11.471  28.096  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.318  10.491  28.901  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      76.422   9.448  29.677  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      77.412   8.950  31.050  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      81.022  15.602  28.611  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      82.476  14.935  29.339  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.967   8.402  28.341  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      80.641  17.247  32.261  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      79.175  17.862  31.548  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      82.627  17.369  29.097  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      82.705  16.915  30.782  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      78.593   7.032  30.705  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.181   7.767  30.777  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      80.216  17.894  29.306  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.669   6.295  28.645  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      79.335   5.323  29.249  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      80.492   5.160  31.483  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      82.575   5.344  28.199  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.943   3.690  28.323  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      83.635   4.033  28.721  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      81.932  19.374  29.877  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.585   8.291  27.424  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      77.198   7.221  28.778  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.404   6.738  27.580  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      79.410   9.706  31.949  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      80.471  11.105  31.913  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.969   9.628  31.126  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      81.060  13.933  32.557  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      81.954  15.433  32.337  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      82.495  13.980  31.523  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      82.620   2.661  30.894  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      82.400   3.841  32.199  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      83.901   3.823  31.255  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.211', True, 'REMARK  Energy: 239.912\nREMARK  SimpleFitness: 239.912\nREMARK  FullFitness: -836.5086\nREMARK  InterFull: -19.8226\nREMARK  IntraFull: 268.901\nREMARK  solvFull: -1260.09\nREMARK  surfFull: 174.503\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1260.09\nREMARK  deltaGcompsolvnonpol: 174.503\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.64362\nREMARK  deltaGligsolvnonpol: 12.5751\nREMARK  deltaGvdw: -19.8226\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.1442533\nREMARK  Cluster: 23\nREMARK  ClusterRank: 5\n', 211), ({'deltaGligsolvpol': -4.64362, 'surfFull': 174.503, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.503, 'SimpleFitness': 239.912, 'InterFull': -19.8226, 'extraFull': 0.0, 'Energy': 239.912, 'solvFull': -1260.09, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 23, 'deltaGligsolvnonpol': 12.5751, 'deltaGcompsolvpol': -1260.09, 'FullFitness': -836.5086, 'deltaG': -6.1442533, 'ClusterRank': 6, 'IntraFull': 268.901, 'deltaGvdw': -19.8226}, 'V', ['REMARK  Energy: 239.912\n', 'REMARK  SimpleFitness: 239.912\n', 'REMARK  FullFitness: -836.5086\n', 'REMARK  InterFull: -19.8226\n', 'REMARK  IntraFull: 268.901\n', 'REMARK  solvFull: -1260.09\n', 'REMARK  surfFull: 174.503\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1260.09\n', 'REMARK  deltaGcompsolvnonpol: 174.503\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.64362\n', 'REMARK  deltaGligsolvnonpol: 12.5751\n', 'REMARK  deltaGvdw: -19.8226\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.1442533\n', 'REMARK  Cluster: 23\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      78.976  13.040  30.836  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.445  11.784  30.177  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      80.121  13.586  29.985  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.861  14.067  30.906  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.477  10.701  29.990  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      77.277  11.080  30.829  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      80.725  14.863  30.612  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.162  12.507  29.648  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      78.355  15.446  31.159  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.563   9.649  29.361  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.543  11.244  29.067  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.104  10.267  31.318  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      77.329   9.677  30.244  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      79.637  15.811  31.051  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      81.589  15.538  29.544  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.602  14.535  31.823  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.089   8.255  28.976  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      80.040  17.221  31.347  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      82.042  16.936  29.913  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      79.468   7.296  30.105  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.009   7.587  28.144  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      80.839  17.807  30.201  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      80.109   6.034  29.546  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      81.289  19.108  30.556  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      81.005   5.398  30.560  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      82.236   4.641  30.209  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      82.308   6.019  30.641  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.615   4.420  28.783  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      82.817   3.691  31.198  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      79.318  12.827  31.852  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.101  12.081  29.181  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.671  13.877  29.031  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.160  13.788  31.698  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.305  14.071  29.964  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.328  11.574  30.605  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      77.389  11.045  31.915  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.742  12.237  30.532  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.877  12.895  28.919  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      77.617  16.184  31.451  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.246  10.089  28.411  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.097  11.471  28.096  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.318  10.491  28.901  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      76.422   9.448  29.677  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      77.412   8.950  31.050  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      81.022  15.602  28.611  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      82.476  14.935  29.339  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.967   8.402  28.341  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      80.641  17.247  32.261  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      79.175  17.862  31.548  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      82.627  17.369  29.097  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      82.705  16.915  30.782  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      78.593   7.032  30.705  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.181   7.767  30.777  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      80.216  17.894  29.306  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.669   6.295  28.645  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      79.335   5.323  29.249  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      80.492   5.160  31.483  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      82.575   5.344  28.199  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.943   3.690  28.323  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      83.635   4.033  28.721  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      81.932  19.374  29.877  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.585   8.291  27.424  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      77.198   7.221  28.778  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.404   6.738  27.580  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      79.410   9.706  31.949  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      80.471  11.105  31.913  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.969   9.628  31.126  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      81.060  13.933  32.557  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      81.954  15.433  32.337  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      82.495  13.980  31.523  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      82.620   2.661  30.894  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      82.400   3.841  32.199  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      83.901   3.823  31.255  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.212', True, 'REMARK  Energy: 239.912\nREMARK  SimpleFitness: 239.912\nREMARK  FullFitness: -836.5086\nREMARK  InterFull: -19.8226\nREMARK  IntraFull: 268.901\nREMARK  solvFull: -1260.09\nREMARK  surfFull: 174.503\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1260.09\nREMARK  deltaGcompsolvnonpol: 174.503\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.64362\nREMARK  deltaGligsolvnonpol: 12.5751\nREMARK  deltaGvdw: -19.8226\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.1442533\nREMARK  Cluster: 23\nREMARK  ClusterRank: 6\n', 212), ({'deltaGligsolvpol': -4.64362, 'surfFull': 174.503, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 174.503, 'SimpleFitness': 239.912, 'InterFull': -19.8226, 'extraFull': 0.0, 'Energy': 239.912, 'solvFull': -1260.09, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 23, 'deltaGligsolvnonpol': 12.5751, 'deltaGcompsolvpol': -1260.09, 'FullFitness': -836.5086, 'deltaG': -6.1442533, 'ClusterRank': 7, 'IntraFull': 268.901, 'deltaGvdw': -19.8226}, 'V', ['REMARK  Energy: 239.912\n', 'REMARK  SimpleFitness: 239.912\n', 'REMARK  FullFitness: -836.5086\n', 'REMARK  InterFull: -19.8226\n', 'REMARK  IntraFull: 268.901\n', 'REMARK  solvFull: -1260.09\n', 'REMARK  surfFull: 174.503\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1260.09\n', 'REMARK  deltaGcompsolvnonpol: 174.503\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.64362\n', 'REMARK  deltaGligsolvnonpol: 12.5751\n', 'REMARK  deltaGvdw: -19.8226\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.1442533\n', 'REMARK  Cluster: 23\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      78.976  13.040  30.836  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      78.445  11.784  30.177  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      80.121  13.586  29.985  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.861  14.067  30.906  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      79.477  10.701  29.990  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      77.277  11.080  30.829  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      80.725  14.863  30.612  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.162  12.507  29.648  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      78.355  15.446  31.159  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.563   9.649  29.361  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.543  11.244  29.067  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.104  10.267  31.318  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      77.329   9.677  30.244  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      79.637  15.811  31.051  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      81.589  15.538  29.544  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      81.602  14.535  31.823  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      79.089   8.255  28.976  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      80.040  17.221  31.347  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      82.042  16.936  29.913  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      79.468   7.296  30.105  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      78.009   7.587  28.144  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      80.839  17.807  30.201  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      80.109   6.034  29.546  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      81.289  19.108  30.556  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      81.005   5.398  30.560  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      82.236   4.641  30.209  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      82.308   6.019  30.641  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      82.615   4.420  28.783  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      82.817   3.691  31.198  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      79.318  12.827  31.852  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      78.101  12.081  29.181  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.671  13.877  29.031  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.160  13.788  31.698  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      77.305  14.071  29.964  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      76.328  11.574  30.605  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      77.389  11.045  31.915  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      81.742  12.237  30.532  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.877  12.895  28.919  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      77.617  16.184  31.451  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.246  10.089  28.411  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      80.097  11.471  28.096  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      81.318  10.491  28.901  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      76.422   9.448  29.677  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      77.412   8.950  31.050  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      81.022  15.602  28.611  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      82.476  14.935  29.339  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      79.967   8.402  28.341  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      80.641  17.247  32.261  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      79.175  17.862  31.548  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      82.627  17.369  29.097  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      82.705  16.915  30.782  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      78.593   7.032  30.705  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.181   7.767  30.777  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      80.216  17.894  29.306  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      80.669   6.295  28.645  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      79.335   5.323  29.249  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      80.492   5.160  31.483  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      82.575   5.344  28.199  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      81.943   3.690  28.323  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      83.635   4.033  28.721  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      81.932  19.374  29.877  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.585   8.291  27.424  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      77.198   7.221  28.778  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      78.404   6.738  27.580  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      79.410   9.706  31.949  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      80.471  11.105  31.913  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.969   9.628  31.126  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      81.060  13.933  32.557  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      81.954  15.433  32.337  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      82.495  13.980  31.523  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      82.620   2.661  30.894  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      82.400   3.841  32.199  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      83.901   3.823  31.255  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.213', True, 'REMARK  Energy: 239.912\nREMARK  SimpleFitness: 239.912\nREMARK  FullFitness: -836.5086\nREMARK  InterFull: -19.8226\nREMARK  IntraFull: 268.901\nREMARK  solvFull: -1260.09\nREMARK  surfFull: 174.503\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1260.09\nREMARK  deltaGcompsolvnonpol: 174.503\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.64362\nREMARK  deltaGligsolvnonpol: 12.5751\nREMARK  deltaGvdw: -19.8226\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.1442533\nREMARK  Cluster: 23\nREMARK  ClusterRank: 7\n', 213), ({'deltaGligsolvpol': -4.62776, 'surfFull': 171.731, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.731, 'SimpleFitness': 232.273, 'InterFull': -30.7696, 'extraFull': 0.0, 'Energy': 232.273, 'solvFull': -1247.59, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 24, 'deltaGligsolvnonpol': 12.7294, 'deltaGcompsolvpol': -1247.59, 'FullFitness': -836.5405, 'deltaG': -6.6926384, 'ClusterRank': 0, 'IntraFull': 270.088, 'deltaGvdw': -30.7696}, 'V', ['REMARK  Energy: 232.273\n', 'REMARK  SimpleFitness: 232.273\n', 'REMARK  FullFitness: -836.5405\n', 'REMARK  InterFull: -30.7696\n', 'REMARK  IntraFull: 270.088\n', 'REMARK  solvFull: -1247.59\n', 'REMARK  surfFull: 171.731\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1247.59\n', 'REMARK  deltaGcompsolvnonpol: 171.731\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.62776\n', 'REMARK  deltaGligsolvnonpol: 12.7294\n', 'REMARK  deltaGvdw: -30.7696\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.6926384\n', 'REMARK  Cluster: 24\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      62.742  -3.419  25.673  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.242  -3.241  25.743  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      62.048  -2.059  25.755  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      62.359  -4.080  24.363  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      64.689  -2.514  26.983  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      65.083  -4.493  25.720  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      60.519  -2.260  25.854  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      62.629  -1.120  26.823  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      60.898  -3.986  24.085  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.203  -2.633  26.801  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      64.150  -1.111  26.849  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      64.175  -3.167  28.272  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      66.400  -4.071  26.356  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      60.056  -3.194  24.762  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.861  -0.894  25.699  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      60.094  -2.840  27.206  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      67.148  -2.139  27.910  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      58.597  -3.201  24.436  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      58.368  -0.953  25.443  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      67.279  -3.020  29.148  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      68.547  -2.016  27.332  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      58.090  -1.792  24.216  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      67.315  -2.154  30.394  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      56.688  -1.828  23.986  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.941  -2.961  31.593  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      66.749  -2.368  32.939  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      65.615  -2.674  32.097  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      66.979  -0.916  33.176  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      66.849  -3.246  34.135  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      62.418  -4.070  26.486  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.542  -2.643  24.877  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      62.255  -1.562  24.801  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      62.649  -5.133  24.395  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      62.903  -3.619  23.535  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      65.226  -4.863  24.701  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      64.615  -5.288  26.307  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      62.256  -1.373  27.816  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      62.292  -0.098  26.634  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      60.506  -4.614  23.295  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.434  -2.016  25.927  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.517  -0.669  25.920  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      64.515  -0.491  27.668  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      67.221  -4.138  25.638  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      66.631  -4.740  27.188  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      60.339  -0.379  24.865  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      60.032  -0.287  26.591  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      66.814  -1.141  28.206  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      58.042  -3.665  25.256  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      58.378  -3.807  23.551  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      57.971   0.056  25.302  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      57.841  -1.369  26.306  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      68.190  -3.623  29.100  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.464  -3.737  29.225  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      58.569  -1.344  23.340  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      66.626  -1.313  30.278  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      68.317  -1.735  30.520  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      67.273  -3.990  31.535  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      66.803  -0.310  32.285  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      68.008  -0.749  33.503  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      66.309  -0.559  33.963  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      56.370  -0.912  24.062  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      68.544  -1.421  26.416  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      68.959  -3.000  27.090  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      69.218  -1.537  28.050  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.567  -4.177  28.406  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      63.089  -3.252  28.322  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      64.478  -2.572  29.137  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      60.586  -3.792  27.417  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      59.017  -3.022  27.252  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      60.328  -2.152  28.021  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      67.850  -3.179  34.568  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      66.654  -4.293  33.883  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      66.126  -2.934  34.893  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.214', True, 'REMARK  Energy: 232.273\nREMARK  SimpleFitness: 232.273\nREMARK  FullFitness: -836.5405\nREMARK  InterFull: -30.7696\nREMARK  IntraFull: 270.088\nREMARK  solvFull: -1247.59\nREMARK  surfFull: 171.731\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1247.59\nREMARK  deltaGcompsolvnonpol: 171.731\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.62776\nREMARK  deltaGligsolvnonpol: 12.7294\nREMARK  deltaGvdw: -30.7696\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.6926384\nREMARK  Cluster: 24\nREMARK  ClusterRank: 0\n', 214), ({'deltaGligsolvpol': -4.56024, 'surfFull': 171.771, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.771, 'SimpleFitness': 233.142, 'InterFull': -30.0098, 'extraFull': 0.0, 'Energy': 233.142, 'solvFull': -1245.31, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 24, 'deltaGligsolvnonpol': 12.8385, 'deltaGcompsolvpol': -1245.31, 'FullFitness': -833.7258, 'deltaG': -6.491901, 'ClusterRank': 1, 'IntraFull': 269.823, 'deltaGvdw': -30.0098}, 'V', ['REMARK  Energy: 233.142\n', 'REMARK  SimpleFitness: 233.142\n', 'REMARK  FullFitness: -833.7258\n', 'REMARK  InterFull: -30.0098\n', 'REMARK  IntraFull: 269.823\n', 'REMARK  solvFull: -1245.31\n', 'REMARK  surfFull: 171.771\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1245.31\n', 'REMARK  deltaGcompsolvnonpol: 171.771\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.56024\n', 'REMARK  deltaGligsolvnonpol: 12.8385\n', 'REMARK  deltaGvdw: -30.0098\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.491901\n', 'REMARK  Cluster: 24\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      63.192  -2.586  25.714  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      64.631  -2.403  26.159  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      62.284  -2.307  26.907  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      62.883  -1.606  24.598  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      65.065  -3.333  27.266  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      65.705  -2.526  25.110  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      60.789  -2.463  26.548  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      62.706  -3.131  28.126  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      61.428  -1.452  24.353  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.540  -2.901  27.367  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      64.181  -2.985  28.450  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      64.905  -4.809  26.899  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      66.974  -2.747  25.910  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      60.480  -1.843  25.211  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      59.979  -1.749  27.633  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      60.375  -3.936  26.502  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      67.587  -3.643  28.238  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      59.037  -1.638  24.876  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      58.509  -1.588  27.296  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      67.181  -3.831  29.690  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      68.087  -4.983  27.724  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      58.352  -0.859  25.979  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      67.152  -2.507  30.431  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      56.969  -0.737  25.673  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      66.767  -2.714  31.858  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      66.911  -1.638  32.871  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      65.626  -1.930  32.279  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      67.501  -0.323  32.491  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      66.988  -1.999  34.312  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      63.027  -3.600  25.343  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      64.708  -1.382  26.548  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      62.449  -1.258  27.174  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      63.351  -1.952  23.676  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      63.305  -0.624  24.827  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      65.775  -1.630  24.487  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      65.515  -3.385  24.462  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      62.493  -4.191  27.978  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      62.133  -2.820  29.002  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      61.131  -1.001  23.418  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      66.504  -1.883  27.764  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      64.377  -1.953  28.738  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      64.408  -3.615  29.309  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      67.658  -1.901  25.803  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      67.480  -3.628  25.515  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      60.400  -0.754  27.801  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      60.058  -2.292  28.578  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      68.470  -2.997  28.244  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      58.542  -2.604  24.743  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      58.906  -1.114  23.924  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      58.002  -1.033  28.090  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      58.015  -2.562  27.244  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      67.902  -4.489  30.180  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.226  -4.352  29.768  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      58.775   0.148  26.054  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      66.460  -1.813  29.947  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      68.146  -2.055  30.377  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      66.850  -3.741  32.188  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      67.200  -0.004  31.489  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      68.592  -0.376  32.522  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      67.179   0.447  33.196  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      56.548  -0.346  26.457  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      68.515  -4.902  26.723  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      67.297  -5.734  27.711  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      68.878  -5.358  28.379  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      65.566  -5.105  26.083  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      63.889  -5.065  26.595  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      65.143  -5.434  27.764  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      61.035  -4.512  25.847  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      59.354  -4.075  26.138  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      60.407  -4.386  27.497  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      68.029  -2.009  34.644  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      66.558  -2.987  34.503  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      66.445  -1.265  34.913  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.215', True, 'REMARK  Energy: 233.142\nREMARK  SimpleFitness: 233.142\nREMARK  FullFitness: -833.7258\nREMARK  InterFull: -30.0098\nREMARK  IntraFull: 269.823\nREMARK  solvFull: -1245.31\nREMARK  surfFull: 171.771\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1245.31\nREMARK  deltaGcompsolvnonpol: 171.771\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.56024\nREMARK  deltaGligsolvnonpol: 12.8385\nREMARK  deltaGvdw: -30.0098\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.491901\nREMARK  Cluster: 24\nREMARK  ClusterRank: 1\n', 215), ({'deltaGligsolvpol': -4.91997, 'surfFull': 172.272, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.272, 'SimpleFitness': 230.722, 'InterFull': -36.8079, 'extraFull': 0.0, 'Energy': 230.722, 'solvFull': -1245.48, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 25, 'deltaGligsolvnonpol': 12.8969, 'deltaGcompsolvpol': -1245.48, 'FullFitness': -836.11487, 'deltaG': -7.0815144, 'ClusterRank': 0, 'IntraFull': 273.901, 'deltaGvdw': -36.8079}, 'V', ['REMARK  Energy: 230.722\n', 'REMARK  SimpleFitness: 230.722\n', 'REMARK  FullFitness: -836.11487\n', 'REMARK  InterFull: -36.8079\n', 'REMARK  IntraFull: 273.901\n', 'REMARK  solvFull: -1245.48\n', 'REMARK  surfFull: 172.272\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1245.48\n', 'REMARK  deltaGcompsolvnonpol: 172.272\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.91997\n', 'REMARK  deltaGligsolvnonpol: 12.8969\n', 'REMARK  deltaGvdw: -36.8079\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.0815144\n', 'REMARK  Cluster: 25\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      68.071  -7.636  31.173  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      67.620  -6.197  31.297  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      69.167  -7.700  30.116  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      68.615  -8.096  32.514  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      67.048  -5.595  30.034  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      66.612  -5.888  32.373  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      69.697  -9.142  29.940  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      68.710  -7.040  28.807  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      69.415  -9.342  32.417  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.679  -4.213  30.608  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      68.168  -5.631  29.003  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      65.836  -6.372  29.517  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      66.065  -4.534  31.968  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      69.889  -9.834  31.267  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      71.054  -9.052  29.243  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      68.747  -9.978  29.079  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      65.883  -3.127  29.853  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      70.689 -11.100  31.274  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      71.792 -10.375  29.184  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      66.628  -2.569  28.642  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      64.412  -3.414  29.569  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      72.022 -10.898  30.583  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.136  -3.116  27.316  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      72.710 -12.141  30.502  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      67.075  -2.778  26.209  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      66.799  -3.291  24.848  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      66.538  -1.910  25.185  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      65.574  -4.112  24.619  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      67.937  -3.480  23.906  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.235  -8.281  30.892  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      68.513  -5.620  31.552  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      69.993  -7.090  30.495  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      67.783  -8.267  33.202  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      69.242  -7.314  32.953  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      67.067  -5.853  33.366  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      65.813  -6.634  32.387  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      67.934  -7.634  28.320  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      69.545  -6.990  28.105  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      69.622  -9.868  33.341  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      67.637  -3.736  30.828  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      68.984  -4.982  29.319  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.815  -5.254  28.043  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      66.335  -3.768  32.699  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      64.976  -4.588  31.939  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      71.686  -8.330  29.768  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      70.924  -8.676  28.227  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      65.862  -2.295  30.562  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      70.131 -11.893  30.768  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      70.863 -11.471  32.289  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      72.749 -10.250  28.671  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      71.234 -11.110  28.597  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      67.701  -2.747  28.758  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.505  -1.482  28.619  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      72.644 -10.198  31.147  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.138  -2.724  27.095  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      66.055  -4.202  27.385  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.106  -2.659  26.519  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      65.529  -4.955  25.313  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      65.582  -4.524  23.609  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      64.661  -3.521  24.739  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      72.153 -12.731  29.966  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      63.863  -3.616  30.491  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      64.271  -4.266  28.902  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      63.945  -2.544  29.101  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.978  -6.302  30.189  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      66.046  -7.433  29.371  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      65.527  -5.979  28.546  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      67.723  -9.929  29.459  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      69.030 -11.032  29.045  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      68.743  -9.629  28.043  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      68.376  -4.472  24.029  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      68.722  -2.738  24.073  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      67.591  -3.385  22.874  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.216', True, 'REMARK  Energy: 230.722\nREMARK  SimpleFitness: 230.722\nREMARK  FullFitness: -836.11487\nREMARK  InterFull: -36.8079\nREMARK  IntraFull: 273.901\nREMARK  solvFull: -1245.48\nREMARK  surfFull: 172.272\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1245.48\nREMARK  deltaGcompsolvnonpol: 172.272\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.91997\nREMARK  deltaGligsolvnonpol: 12.8969\nREMARK  deltaGvdw: -36.8079\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.0815144\nREMARK  Cluster: 25\nREMARK  ClusterRank: 0\n', 216), ({'deltaGligsolvpol': -4.91997, 'surfFull': 172.272, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.272, 'SimpleFitness': 230.722, 'InterFull': -36.8079, 'extraFull': 0.0, 'Energy': 230.722, 'solvFull': -1245.48, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 25, 'deltaGligsolvnonpol': 12.8969, 'deltaGcompsolvpol': -1245.48, 'FullFitness': -836.11487, 'deltaG': -7.0815144, 'ClusterRank': 1, 'IntraFull': 273.901, 'deltaGvdw': -36.8079}, 'V', ['REMARK  Energy: 230.722\n', 'REMARK  SimpleFitness: 230.722\n', 'REMARK  FullFitness: -836.11487\n', 'REMARK  InterFull: -36.8079\n', 'REMARK  IntraFull: 273.901\n', 'REMARK  solvFull: -1245.48\n', 'REMARK  surfFull: 172.272\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1245.48\n', 'REMARK  deltaGcompsolvnonpol: 172.272\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.91997\n', 'REMARK  deltaGligsolvnonpol: 12.8969\n', 'REMARK  deltaGvdw: -36.8079\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.0815144\n', 'REMARK  Cluster: 25\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      68.071  -7.636  31.173  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      67.620  -6.197  31.297  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      69.167  -7.700  30.116  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      68.615  -8.096  32.514  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      67.048  -5.595  30.034  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      66.612  -5.888  32.373  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      69.697  -9.142  29.940  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      68.710  -7.040  28.807  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      69.415  -9.342  32.417  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.679  -4.213  30.608  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      68.168  -5.631  29.003  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      65.836  -6.372  29.517  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      66.065  -4.534  31.968  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      69.889  -9.834  31.267  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      71.054  -9.052  29.243  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      68.747  -9.978  29.079  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      65.883  -3.127  29.853  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      70.689 -11.100  31.274  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      71.792 -10.375  29.184  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      66.628  -2.569  28.642  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      64.412  -3.414  29.569  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      72.022 -10.898  30.583  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.136  -3.116  27.316  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      72.710 -12.141  30.502  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      67.075  -2.778  26.209  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      66.799  -3.291  24.848  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      66.538  -1.910  25.185  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      65.574  -4.112  24.619  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      67.937  -3.480  23.906  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.235  -8.281  30.892  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      68.513  -5.620  31.552  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      69.993  -7.090  30.495  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      67.783  -8.267  33.202  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      69.242  -7.314  32.953  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      67.067  -5.853  33.366  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      65.813  -6.634  32.387  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      67.934  -7.634  28.320  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      69.545  -6.990  28.105  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      69.622  -9.868  33.341  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      67.637  -3.736  30.828  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      68.984  -4.982  29.319  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.815  -5.254  28.043  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      66.335  -3.768  32.699  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      64.976  -4.588  31.939  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      71.686  -8.330  29.768  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      70.924  -8.676  28.227  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      65.862  -2.295  30.562  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      70.131 -11.893  30.768  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      70.863 -11.471  32.289  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      72.749 -10.250  28.671  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      71.234 -11.110  28.597  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      67.701  -2.747  28.758  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.505  -1.482  28.619  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      72.644 -10.198  31.147  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.138  -2.724  27.095  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      66.055  -4.202  27.385  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.106  -2.659  26.519  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      65.529  -4.955  25.313  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      65.582  -4.524  23.609  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      64.661  -3.521  24.739  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      72.153 -12.731  29.966  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      63.863  -3.616  30.491  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      64.271  -4.266  28.902  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      63.945  -2.544  29.101  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.978  -6.302  30.189  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      66.046  -7.433  29.371  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      65.527  -5.979  28.546  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      67.723  -9.929  29.459  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      69.030 -11.032  29.045  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      68.743  -9.629  28.043  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      68.376  -4.472  24.029  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      68.722  -2.738  24.073  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      67.591  -3.385  22.874  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.217', True, 'REMARK  Energy: 230.722\nREMARK  SimpleFitness: 230.722\nREMARK  FullFitness: -836.11487\nREMARK  InterFull: -36.8079\nREMARK  IntraFull: 273.901\nREMARK  solvFull: -1245.48\nREMARK  surfFull: 172.272\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1245.48\nREMARK  deltaGcompsolvnonpol: 172.272\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.91997\nREMARK  deltaGligsolvnonpol: 12.8969\nREMARK  deltaGvdw: -36.8079\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.0815144\nREMARK  Cluster: 25\nREMARK  ClusterRank: 1\n', 217), ({'deltaGligsolvpol': -4.92259, 'surfFull': 172.264, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.264, 'SimpleFitness': 230.769, 'InterFull': -36.8182, 'extraFull': 0.0, 'Energy': 230.769, 'solvFull': -1245.49, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 25, 'deltaGligsolvnonpol': 12.9003, 'deltaGcompsolvpol': -1245.49, 'FullFitness': -836.1102, 'deltaG': -7.0840187, 'ClusterRank': 2, 'IntraFull': 273.934, 'deltaGvdw': -36.8182}, 'V', ['REMARK  Energy: 230.769\n', 'REMARK  SimpleFitness: 230.769\n', 'REMARK  FullFitness: -836.1102\n', 'REMARK  InterFull: -36.8182\n', 'REMARK  IntraFull: 273.934\n', 'REMARK  solvFull: -1245.49\n', 'REMARK  surfFull: 172.264\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1245.49\n', 'REMARK  deltaGcompsolvnonpol: 172.264\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.92259\n', 'REMARK  deltaGligsolvnonpol: 12.9003\n', 'REMARK  deltaGvdw: -36.8182\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.0840187\n', 'REMARK  Cluster: 25\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      68.056  -7.637  31.144  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      67.612  -6.195  31.274  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      69.165  -7.696  30.102  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      68.575  -8.114  32.489  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      67.057  -5.583  30.008  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      66.595  -5.884  32.341  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      69.694  -9.138  29.921  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      68.726  -7.028  28.792  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      69.380  -9.358  32.392  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.689  -4.201  30.584  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      68.187  -5.619  28.990  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      65.846  -6.351  29.475  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      66.065  -4.522  31.939  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      69.869  -9.840  31.245  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      71.058  -9.044  29.241  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      68.752  -9.965  29.044  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      65.904  -3.111  29.822  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      70.669 -11.107  31.250  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      71.792 -10.369  29.175  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      66.657  -2.558  28.613  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      64.433  -3.389  29.532  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      72.008 -10.905  30.571  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.172  -3.111  27.287  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      72.689 -12.152  30.483  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      67.119  -2.782  26.183  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      66.841  -3.297  24.823  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      66.592  -1.912  25.155  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      65.608  -4.108  24.596  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      67.977  -3.498  23.882  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.220  -8.274  30.845  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      68.507  -5.625  31.540  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      69.987  -7.091  30.495  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      67.730  -8.296  33.157  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      69.193  -7.338  32.949  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      67.040  -5.860  33.339  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      65.789  -6.623  32.341  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      67.954  -7.615  28.292  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      69.570  -6.976  28.100  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      69.573  -9.892  33.315  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      67.646  -3.728  30.811  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      69.003  -4.975  29.318  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.848  -5.235  28.027  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      66.341  -3.762  32.674  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      64.975  -4.565  31.905  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      71.687  -8.330  29.781  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      70.940  -8.656  28.228  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      65.885  -2.278  30.531  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      70.111 -11.894  30.736  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      70.835 -11.484  32.264  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      72.753 -10.241  28.672  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      71.237 -11.096  28.575  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      67.729  -2.735  28.737  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.534  -1.472  28.584  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      72.630 -10.214  31.146  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.177  -2.719  27.058  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      66.091  -4.196  27.361  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.150  -2.676  26.495  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      65.551  -4.945  25.296  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      65.617  -4.528  23.589  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      64.701  -3.506  24.706  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      72.127 -12.736  29.947  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      63.878  -3.588  30.450  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      64.290  -4.239  28.863  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      63.973  -2.515  29.062  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.983  -6.283  30.141  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      66.053  -7.412  29.322  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      65.546  -5.950  28.505  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      67.723  -9.917  29.412  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      69.033 -11.019  29.005  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      68.761  -9.608  28.011  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      68.418  -4.488  24.021  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      68.761  -2.752  24.036  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      67.629  -3.420  22.849  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.218', True, 'REMARK  Energy: 230.769\nREMARK  SimpleFitness: 230.769\nREMARK  FullFitness: -836.1102\nREMARK  InterFull: -36.8182\nREMARK  IntraFull: 273.934\nREMARK  solvFull: -1245.49\nREMARK  surfFull: 172.264\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1245.49\nREMARK  deltaGcompsolvnonpol: 172.264\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.92259\nREMARK  deltaGligsolvnonpol: 12.9003\nREMARK  deltaGvdw: -36.8182\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.0840187\nREMARK  Cluster: 25\nREMARK  ClusterRank: 2\n', 218), ({'deltaGligsolvpol': -4.92259, 'surfFull': 172.264, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.264, 'SimpleFitness': 230.769, 'InterFull': -36.8182, 'extraFull': 0.0, 'Energy': 230.769, 'solvFull': -1245.49, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 25, 'deltaGligsolvnonpol': 12.9003, 'deltaGcompsolvpol': -1245.49, 'FullFitness': -836.1102, 'deltaG': -7.0840187, 'ClusterRank': 3, 'IntraFull': 273.934, 'deltaGvdw': -36.8182}, 'V', ['REMARK  Energy: 230.769\n', 'REMARK  SimpleFitness: 230.769\n', 'REMARK  FullFitness: -836.1102\n', 'REMARK  InterFull: -36.8182\n', 'REMARK  IntraFull: 273.934\n', 'REMARK  solvFull: -1245.49\n', 'REMARK  surfFull: 172.264\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1245.49\n', 'REMARK  deltaGcompsolvnonpol: 172.264\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.92259\n', 'REMARK  deltaGligsolvnonpol: 12.9003\n', 'REMARK  deltaGvdw: -36.8182\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -7.0840187\n', 'REMARK  Cluster: 25\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      68.056  -7.637  31.144  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      67.612  -6.195  31.274  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      69.165  -7.696  30.102  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      68.575  -8.114  32.489  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      67.057  -5.583  30.008  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      66.595  -5.884  32.341  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      69.694  -9.138  29.921  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      68.726  -7.028  28.792  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      69.380  -9.358  32.392  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.689  -4.201  30.584  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      68.187  -5.619  28.990  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      65.846  -6.351  29.475  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      66.065  -4.522  31.939  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      69.869  -9.840  31.245  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      71.058  -9.044  29.241  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      68.752  -9.965  29.044  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      65.904  -3.111  29.822  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      70.669 -11.107  31.250  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      71.792 -10.369  29.175  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      66.657  -2.558  28.613  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      64.433  -3.389  29.532  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      72.008 -10.905  30.571  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.172  -3.111  27.287  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      72.689 -12.152  30.483  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      67.119  -2.782  26.183  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      66.841  -3.297  24.823  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      66.592  -1.912  25.155  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      65.608  -4.108  24.596  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      67.977  -3.498  23.882  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.220  -8.274  30.845  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      68.507  -5.625  31.540  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      69.987  -7.091  30.495  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      67.730  -8.296  33.157  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      69.193  -7.338  32.949  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      67.040  -5.860  33.339  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      65.789  -6.623  32.341  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      67.954  -7.615  28.292  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      69.570  -6.976  28.100  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      69.573  -9.892  33.315  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      67.646  -3.728  30.811  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      69.003  -4.975  29.318  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.848  -5.235  28.027  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      66.341  -3.762  32.674  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      64.975  -4.565  31.905  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      71.687  -8.330  29.781  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      70.940  -8.656  28.228  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      65.885  -2.278  30.531  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      70.111 -11.894  30.736  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      70.835 -11.484  32.264  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      72.753 -10.241  28.672  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      71.237 -11.096  28.575  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      67.729  -2.735  28.737  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.534  -1.472  28.584  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      72.630 -10.214  31.146  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.177  -2.719  27.058  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      66.091  -4.196  27.361  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.150  -2.676  26.495  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      65.551  -4.945  25.296  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      65.617  -4.528  23.589  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      64.701  -3.506  24.706  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      72.127 -12.736  29.947  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      63.878  -3.588  30.450  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      64.290  -4.239  28.863  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      63.973  -2.515  29.062  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.983  -6.283  30.141  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      66.053  -7.412  29.322  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      65.546  -5.950  28.505  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      67.723  -9.917  29.412  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      69.033 -11.019  29.005  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      68.761  -9.608  28.011  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      68.418  -4.488  24.021  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      68.761  -2.752  24.036  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      67.629  -3.420  22.849  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.219', True, 'REMARK  Energy: 230.769\nREMARK  SimpleFitness: 230.769\nREMARK  FullFitness: -836.1102\nREMARK  InterFull: -36.8182\nREMARK  IntraFull: 273.934\nREMARK  solvFull: -1245.49\nREMARK  surfFull: 172.264\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1245.49\nREMARK  deltaGcompsolvnonpol: 172.264\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.92259\nREMARK  deltaGligsolvnonpol: 12.9003\nREMARK  deltaGvdw: -36.8182\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -7.0840187\nREMARK  Cluster: 25\nREMARK  ClusterRank: 3\n', 219), ({'deltaGligsolvpol': -4.87817, 'surfFull': 172.218, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.218, 'SimpleFitness': 231.831, 'InterFull': -35.4068, 'extraFull': 0.0, 'Energy': 231.831, 'solvFull': -1246.16, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 25, 'deltaGligsolvnonpol': 12.9135, 'deltaGcompsolvpol': -1246.16, 'FullFitness': -834.7608, 'deltaG': -6.9998264, 'ClusterRank': 4, 'IntraFull': 274.588, 'deltaGvdw': -35.4068}, 'V', ['REMARK  Energy: 231.831\n', 'REMARK  SimpleFitness: 231.831\n', 'REMARK  FullFitness: -834.7608\n', 'REMARK  InterFull: -35.4068\n', 'REMARK  IntraFull: 274.588\n', 'REMARK  solvFull: -1246.16\n', 'REMARK  surfFull: 172.218\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1246.16\n', 'REMARK  deltaGcompsolvnonpol: 172.218\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.87817\n', 'REMARK  deltaGligsolvnonpol: 12.9135\n', 'REMARK  deltaGvdw: -35.4068\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9998264\n', 'REMARK  Cluster: 25\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      68.030  -7.538  31.153  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      67.582  -6.098  31.271  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      69.100  -7.620  30.072  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      68.616  -7.975  32.483  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      66.990  -5.504  30.014  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      66.592  -5.776  32.361  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      69.612  -9.069  29.900  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      68.618  -6.968  28.768  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      69.371  -9.248  32.383  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.640  -4.117  30.585  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      68.088  -5.554  28.963  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      65.768  -6.284  29.528  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      66.031  -4.430  31.947  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      69.801  -9.764  31.226  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      70.973  -8.998  29.212  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      68.656  -9.895  29.037  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      65.844  -3.028  29.835  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      70.553 -11.058  31.223  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      71.680 -10.338  29.135  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      66.609  -2.444  28.649  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      64.383  -3.328  29.518  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      71.886 -10.905  30.520  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.124  -2.956  27.306  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      72.507 -12.180  30.405  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      67.100  -2.652  26.220  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      66.878  -3.240  24.879  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      66.596  -1.844  25.130  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      65.664  -4.073  24.641  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      68.067  -3.493  24.019  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.188  -8.189  30.905  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      68.480  -5.520  31.506  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      69.939  -7.013  30.426  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      67.811  -8.103  33.210  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      69.287  -7.202  32.868  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      67.069  -5.723  33.343  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      65.797  -6.526  32.403  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      67.829  -7.561  28.303  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      69.440  -6.930  28.049  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      69.577  -9.776  33.306  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      67.603  -3.646  30.796  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      68.912  -4.904  29.260  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.715  -5.183  28.007  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      66.296  -3.654  32.671  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      64.942  -4.494  31.917  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      71.618  -8.301  29.755  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      70.858  -8.599  28.203  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      65.800  -2.209  30.559  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      69.959 -11.829  30.724  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      70.724 -11.436  32.236  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      72.647 -10.222  28.638  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      71.112 -11.044  28.521  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      67.679  -2.630  28.774  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.494  -1.356  28.655  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      72.547 -10.251  31.096  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.149  -2.520  27.068  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.994  -4.038  27.369  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.117  -2.504  26.559  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      65.608  -4.896  25.357  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      65.696  -4.510  23.642  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      64.745  -3.483  24.723  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      73.196 -12.088  29.726  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      63.819  -3.547  30.426  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      64.263  -4.173  28.839  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      63.913  -2.459  29.050  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.916  -6.190  30.205  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      65.965  -7.351  29.410  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      65.457  -5.913  28.549  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      67.630  -9.825  29.409  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      68.918 -10.955  29.009  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      68.668  -9.552  27.999  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      68.686  -4.282  24.455  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      68.683  -2.595  23.916  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      67.755  -3.812  23.021  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.220', True, 'REMARK  Energy: 231.831\nREMARK  SimpleFitness: 231.831\nREMARK  FullFitness: -834.7608\nREMARK  InterFull: -35.4068\nREMARK  IntraFull: 274.588\nREMARK  solvFull: -1246.16\nREMARK  surfFull: 172.218\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1246.16\nREMARK  deltaGcompsolvnonpol: 172.218\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.87817\nREMARK  deltaGligsolvnonpol: 12.9135\nREMARK  deltaGvdw: -35.4068\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9998264\nREMARK  Cluster: 25\nREMARK  ClusterRank: 4\n', 220), ({'deltaGligsolvpol': -4.87817, 'surfFull': 172.218, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.218, 'SimpleFitness': 231.831, 'InterFull': -35.4068, 'extraFull': 0.0, 'Energy': 231.831, 'solvFull': -1246.16, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 25, 'deltaGligsolvnonpol': 12.9135, 'deltaGcompsolvpol': -1246.16, 'FullFitness': -834.7608, 'deltaG': -6.9998264, 'ClusterRank': 5, 'IntraFull': 274.588, 'deltaGvdw': -35.4068}, 'V', ['REMARK  Energy: 231.831\n', 'REMARK  SimpleFitness: 231.831\n', 'REMARK  FullFitness: -834.7608\n', 'REMARK  InterFull: -35.4068\n', 'REMARK  IntraFull: 274.588\n', 'REMARK  solvFull: -1246.16\n', 'REMARK  surfFull: 172.218\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1246.16\n', 'REMARK  deltaGcompsolvnonpol: 172.218\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.87817\n', 'REMARK  deltaGligsolvnonpol: 12.9135\n', 'REMARK  deltaGvdw: -35.4068\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9998264\n', 'REMARK  Cluster: 25\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      68.030  -7.538  31.153  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      67.582  -6.098  31.271  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      69.100  -7.620  30.072  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      68.616  -7.975  32.483  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      66.990  -5.504  30.014  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      66.592  -5.776  32.361  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      69.612  -9.069  29.900  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      68.618  -6.968  28.768  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      69.371  -9.248  32.383  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.640  -4.117  30.585  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      68.088  -5.554  28.963  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      65.768  -6.284  29.528  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      66.031  -4.430  31.947  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      69.801  -9.764  31.226  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      70.973  -8.998  29.212  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      68.656  -9.895  29.037  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      65.844  -3.028  29.835  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      70.553 -11.058  31.223  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      71.680 -10.338  29.135  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      66.609  -2.444  28.649  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      64.383  -3.328  29.518  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      71.886 -10.905  30.520  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.124  -2.956  27.306  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      72.507 -12.180  30.405  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      67.100  -2.652  26.220  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      66.878  -3.240  24.879  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      66.596  -1.844  25.130  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      65.664  -4.073  24.641  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      68.067  -3.493  24.019  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.188  -8.189  30.905  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      68.480  -5.520  31.506  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      69.939  -7.013  30.426  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      67.811  -8.103  33.210  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      69.287  -7.202  32.868  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      67.069  -5.723  33.343  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      65.797  -6.526  32.403  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      67.829  -7.561  28.303  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      69.440  -6.930  28.049  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      69.577  -9.776  33.306  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      67.603  -3.646  30.796  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      68.912  -4.904  29.260  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.715  -5.183  28.007  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      66.296  -3.654  32.671  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      64.942  -4.494  31.917  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      71.618  -8.301  29.755  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      70.858  -8.599  28.203  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      65.800  -2.209  30.559  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      69.959 -11.829  30.724  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      70.724 -11.436  32.236  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      72.647 -10.222  28.638  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      71.112 -11.044  28.521  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      67.679  -2.630  28.774  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.494  -1.356  28.655  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      72.547 -10.251  31.096  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.149  -2.520  27.068  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.994  -4.038  27.369  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.117  -2.504  26.559  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      65.608  -4.896  25.357  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      65.696  -4.510  23.642  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      64.745  -3.483  24.723  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      73.196 -12.088  29.726  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      63.819  -3.547  30.426  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      64.263  -4.173  28.839  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      63.913  -2.459  29.050  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.916  -6.190  30.205  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      65.965  -7.351  29.410  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      65.457  -5.913  28.549  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      67.630  -9.825  29.409  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      68.918 -10.955  29.009  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      68.668  -9.552  27.999  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      68.686  -4.282  24.455  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      68.683  -2.595  23.916  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      67.755  -3.812  23.021  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.221', True, 'REMARK  Energy: 231.831\nREMARK  SimpleFitness: 231.831\nREMARK  FullFitness: -834.7608\nREMARK  InterFull: -35.4068\nREMARK  IntraFull: 274.588\nREMARK  solvFull: -1246.16\nREMARK  surfFull: 172.218\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1246.16\nREMARK  deltaGcompsolvnonpol: 172.218\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.87817\nREMARK  deltaGligsolvnonpol: 12.9135\nREMARK  deltaGvdw: -35.4068\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9998264\nREMARK  Cluster: 25\nREMARK  ClusterRank: 5\n', 221), ({'deltaGligsolvpol': -4.87817, 'surfFull': 172.218, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.218, 'SimpleFitness': 231.831, 'InterFull': -35.4068, 'extraFull': 0.0, 'Energy': 231.831, 'solvFull': -1246.16, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 25, 'deltaGligsolvnonpol': 12.9135, 'deltaGcompsolvpol': -1246.16, 'FullFitness': -834.7608, 'deltaG': -6.9998264, 'ClusterRank': 6, 'IntraFull': 274.588, 'deltaGvdw': -35.4068}, 'V', ['REMARK  Energy: 231.831\n', 'REMARK  SimpleFitness: 231.831\n', 'REMARK  FullFitness: -834.7608\n', 'REMARK  InterFull: -35.4068\n', 'REMARK  IntraFull: 274.588\n', 'REMARK  solvFull: -1246.16\n', 'REMARK  surfFull: 172.218\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1246.16\n', 'REMARK  deltaGcompsolvnonpol: 172.218\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.87817\n', 'REMARK  deltaGligsolvnonpol: 12.9135\n', 'REMARK  deltaGvdw: -35.4068\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9998264\n', 'REMARK  Cluster: 25\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      68.030  -7.538  31.153  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      67.582  -6.098  31.271  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      69.100  -7.620  30.072  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      68.616  -7.975  32.483  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      66.990  -5.504  30.014  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      66.592  -5.776  32.361  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      69.612  -9.069  29.900  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      68.618  -6.968  28.768  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      69.371  -9.248  32.383  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.640  -4.117  30.585  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      68.088  -5.554  28.963  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      65.768  -6.284  29.528  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      66.031  -4.430  31.947  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      69.801  -9.764  31.226  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      70.973  -8.998  29.212  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      68.656  -9.895  29.037  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      65.844  -3.028  29.835  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      70.553 -11.058  31.223  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      71.680 -10.338  29.135  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      66.609  -2.444  28.649  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      64.383  -3.328  29.518  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      71.886 -10.905  30.520  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.124  -2.956  27.306  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      72.507 -12.180  30.405  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      67.100  -2.652  26.220  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      66.878  -3.240  24.879  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      66.596  -1.844  25.130  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      65.664  -4.073  24.641  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      68.067  -3.493  24.019  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.188  -8.189  30.905  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      68.480  -5.520  31.506  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      69.939  -7.013  30.426  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      67.811  -8.103  33.210  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      69.287  -7.202  32.868  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      67.069  -5.723  33.343  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      65.797  -6.526  32.403  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      67.829  -7.561  28.303  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      69.440  -6.930  28.049  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      69.577  -9.776  33.306  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      67.603  -3.646  30.796  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      68.912  -4.904  29.260  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.715  -5.183  28.007  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      66.296  -3.654  32.671  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      64.942  -4.494  31.917  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      71.618  -8.301  29.755  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      70.858  -8.599  28.203  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      65.800  -2.209  30.559  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      69.959 -11.829  30.724  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      70.724 -11.436  32.236  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      72.647 -10.222  28.638  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      71.112 -11.044  28.521  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      67.679  -2.630  28.774  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.494  -1.356  28.655  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      72.547 -10.251  31.096  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.149  -2.520  27.068  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.994  -4.038  27.369  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.117  -2.504  26.559  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      65.608  -4.896  25.357  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      65.696  -4.510  23.642  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      64.745  -3.483  24.723  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      73.196 -12.088  29.726  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      63.819  -3.547  30.426  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      64.263  -4.173  28.839  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      63.913  -2.459  29.050  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.916  -6.190  30.205  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      65.965  -7.351  29.410  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      65.457  -5.913  28.549  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      67.630  -9.825  29.409  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      68.918 -10.955  29.009  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      68.668  -9.552  27.999  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      68.686  -4.282  24.455  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      68.683  -2.595  23.916  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      67.755  -3.812  23.021  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.222', True, 'REMARK  Energy: 231.831\nREMARK  SimpleFitness: 231.831\nREMARK  FullFitness: -834.7608\nREMARK  InterFull: -35.4068\nREMARK  IntraFull: 274.588\nREMARK  solvFull: -1246.16\nREMARK  surfFull: 172.218\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1246.16\nREMARK  deltaGcompsolvnonpol: 172.218\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.87817\nREMARK  deltaGligsolvnonpol: 12.9135\nREMARK  deltaGvdw: -35.4068\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9998264\nREMARK  Cluster: 25\nREMARK  ClusterRank: 6\n', 222), ({'deltaGligsolvpol': -4.87817, 'surfFull': 172.218, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.218, 'SimpleFitness': 231.831, 'InterFull': -35.4068, 'extraFull': 0.0, 'Energy': 231.831, 'solvFull': -1246.16, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 25, 'deltaGligsolvnonpol': 12.9135, 'deltaGcompsolvpol': -1246.16, 'FullFitness': -834.7608, 'deltaG': -6.9998264, 'ClusterRank': 7, 'IntraFull': 274.588, 'deltaGvdw': -35.4068}, 'V', ['REMARK  Energy: 231.831\n', 'REMARK  SimpleFitness: 231.831\n', 'REMARK  FullFitness: -834.7608\n', 'REMARK  InterFull: -35.4068\n', 'REMARK  IntraFull: 274.588\n', 'REMARK  solvFull: -1246.16\n', 'REMARK  surfFull: 172.218\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1246.16\n', 'REMARK  deltaGcompsolvnonpol: 172.218\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.87817\n', 'REMARK  deltaGligsolvnonpol: 12.9135\n', 'REMARK  deltaGvdw: -35.4068\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9998264\n', 'REMARK  Cluster: 25\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      68.030  -7.538  31.153  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      67.582  -6.098  31.271  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      69.100  -7.620  30.072  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      68.616  -7.975  32.483  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      66.990  -5.504  30.014  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      66.592  -5.776  32.361  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      69.612  -9.069  29.900  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      68.618  -6.968  28.768  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      69.371  -9.248  32.383  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      66.640  -4.117  30.585  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      68.088  -5.554  28.963  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      65.768  -6.284  29.528  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      66.031  -4.430  31.947  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      69.801  -9.764  31.226  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      70.973  -8.998  29.212  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      68.656  -9.895  29.037  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      65.844  -3.028  29.835  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      70.553 -11.058  31.223  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      71.680 -10.338  29.135  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      66.609  -2.444  28.649  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      64.383  -3.328  29.518  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      71.886 -10.905  30.520  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      66.124  -2.956  27.306  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      72.507 -12.180  30.405  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      67.100  -2.652  26.220  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      66.878  -3.240  24.879  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      66.596  -1.844  25.130  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      65.664  -4.073  24.641  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      68.067  -3.493  24.019  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      67.188  -8.189  30.905  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      68.480  -5.520  31.506  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      69.939  -7.013  30.426  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      67.811  -8.103  33.210  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      69.287  -7.202  32.868  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      67.069  -5.723  33.343  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      65.797  -6.526  32.403  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      67.829  -7.561  28.303  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      69.440  -6.930  28.049  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      69.577  -9.776  33.306  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      67.603  -3.646  30.796  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      68.912  -4.904  29.260  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      67.715  -5.183  28.007  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      66.296  -3.654  32.671  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      64.942  -4.494  31.917  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      71.618  -8.301  29.755  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      70.858  -8.599  28.203  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      65.800  -2.209  30.559  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      69.959 -11.829  30.724  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      70.724 -11.436  32.236  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      72.647 -10.222  28.638  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      71.112 -11.044  28.521  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      67.679  -2.630  28.774  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      66.494  -1.356  28.655  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      72.547 -10.251  31.096  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      65.149  -2.520  27.068  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      65.994  -4.038  27.369  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      68.117  -2.504  26.559  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      65.608  -4.896  25.357  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      65.696  -4.510  23.642  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      64.745  -3.483  24.723  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      73.196 -12.088  29.726  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      63.819  -3.547  30.426  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      64.263  -4.173  28.839  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      63.913  -2.459  29.050  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      64.916  -6.190  30.205  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      65.965  -7.351  29.410  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      65.457  -5.913  28.549  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      67.630  -9.825  29.409  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      68.918 -10.955  29.009  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      68.668  -9.552  27.999  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      68.686  -4.282  24.455  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      68.683  -2.595  23.916  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      67.755  -3.812  23.021  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.223', True, 'REMARK  Energy: 231.831\nREMARK  SimpleFitness: 231.831\nREMARK  FullFitness: -834.7608\nREMARK  InterFull: -35.4068\nREMARK  IntraFull: 274.588\nREMARK  solvFull: -1246.16\nREMARK  surfFull: 172.218\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1246.16\nREMARK  deltaGcompsolvnonpol: 172.218\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.87817\nREMARK  deltaGligsolvnonpol: 12.9135\nREMARK  deltaGvdw: -35.4068\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9998264\nREMARK  Cluster: 25\nREMARK  ClusterRank: 7\n', 223), ({'deltaGligsolvpol': -4.64963, 'surfFull': 171.376, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.376, 'SimpleFitness': 226.818, 'InterFull': -36.5131, 'extraFull': 0.0, 'Energy': 226.818, 'solvFull': -1242.25, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 26, 'deltaGligsolvnonpol': 12.7092, 'deltaGcompsolvpol': -1242.25, 'FullFitness': -834.8341, 'deltaG': -6.939501, 'ClusterRank': 0, 'IntraFull': 272.553, 'deltaGvdw': -36.5131}, 'V', ['REMARK  Energy: 226.818\n', 'REMARK  SimpleFitness: 226.818\n', 'REMARK  FullFitness: -834.8341\n', 'REMARK  InterFull: -36.5131\n', 'REMARK  IntraFull: 272.553\n', 'REMARK  solvFull: -1242.25\n', 'REMARK  surfFull: 171.376\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1242.25\n', 'REMARK  deltaGcompsolvnonpol: 171.376\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.64963\n', 'REMARK  deltaGligsolvnonpol: 12.7092\n', 'REMARK  deltaGvdw: -36.5131\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.939501\n', 'REMARK  Cluster: 26\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      78.183  -0.543  11.827  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      79.491   0.209  11.675  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      78.550  -2.004  11.638  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.638  -0.288  13.203  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.012   0.166  10.269  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      79.560   1.661  12.080  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      77.421  -2.989  12.026  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      79.122  -2.195  10.223  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      76.591  -1.240  13.612  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      81.249   1.041  10.435  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.310  -1.280   9.926  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      79.012   0.739   9.273  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.808   2.167  11.376  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      76.484  -2.459  13.083  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      78.107  -4.216  12.619  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      76.624  -3.403  10.796  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      81.990   1.445   9.149  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      75.488  -3.412  13.656  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      77.156  -5.213  13.248  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      81.575   2.789   8.562  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      83.470   1.509   9.466  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      76.231  -4.579  14.265  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.879   2.864   7.079  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.295  -5.554  14.708  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      81.488   4.200   6.536  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      80.668   4.383   5.309  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      80.074   4.496   6.619  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      80.154   3.231   4.518  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      80.769   5.676   4.580  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      77.431  -0.243  11.094  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      80.228  -0.296  12.308  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.372  -2.192  12.331  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.228   0.725  13.246  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.455  -0.361  13.924  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.636   1.784  13.164  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.676   2.205  11.737  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      78.354  -1.995   9.472  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      79.436  -3.233  10.086  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      75.934  -0.946  14.421  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      81.950   0.431  11.011  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.170  -1.608  10.512  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      80.592  -1.369   8.873  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      81.600   2.378  12.100  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.572   3.107  10.878  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      78.812  -3.900  13.394  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      78.697  -4.721  11.848  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      81.841   0.664   8.399  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      74.792  -3.759  12.888  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      74.860  -2.946  14.423  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      77.742  -5.977  13.755  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      76.578  -5.725  12.479  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      82.076   3.606   9.090  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.503   2.941   8.691  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.810  -4.245  15.132  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      81.356   2.050   6.575  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      82.947   2.712   6.902  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.176   4.983   6.830  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.810   2.410   5.154  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      80.936   2.853   3.855  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      79.308   3.548   3.902  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.813  -6.334  14.969  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      83.818   0.550   9.860  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      83.670   2.279  10.215  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      84.055   1.739   8.572  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      78.604   1.689   9.599  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      78.159   0.078   9.109  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.482   0.896   8.302  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      76.286  -2.517  10.253  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      75.738  -3.994  11.036  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.223  -4.019  10.120  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      81.479   5.584   3.754  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      81.108   6.483   5.236  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      79.795   5.953   4.168  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.224', True, 'REMARK  Energy: 226.818\nREMARK  SimpleFitness: 226.818\nREMARK  FullFitness: -834.8341\nREMARK  InterFull: -36.5131\nREMARK  IntraFull: 272.553\nREMARK  solvFull: -1242.25\nREMARK  surfFull: 171.376\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1242.25\nREMARK  deltaGcompsolvnonpol: 171.376\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.64963\nREMARK  deltaGligsolvnonpol: 12.7092\nREMARK  deltaGvdw: -36.5131\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.939501\nREMARK  Cluster: 26\nREMARK  ClusterRank: 0\n', 224), ({'deltaGligsolvpol': -4.64963, 'surfFull': 171.376, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.376, 'SimpleFitness': 226.818, 'InterFull': -36.5131, 'extraFull': 0.0, 'Energy': 226.818, 'solvFull': -1242.25, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 26, 'deltaGligsolvnonpol': 12.7092, 'deltaGcompsolvpol': -1242.25, 'FullFitness': -834.8341, 'deltaG': -6.939501, 'ClusterRank': 1, 'IntraFull': 272.553, 'deltaGvdw': -36.5131}, 'V', ['REMARK  Energy: 226.818\n', 'REMARK  SimpleFitness: 226.818\n', 'REMARK  FullFitness: -834.8341\n', 'REMARK  InterFull: -36.5131\n', 'REMARK  IntraFull: 272.553\n', 'REMARK  solvFull: -1242.25\n', 'REMARK  surfFull: 171.376\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1242.25\n', 'REMARK  deltaGcompsolvnonpol: 171.376\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.64963\n', 'REMARK  deltaGligsolvnonpol: 12.7092\n', 'REMARK  deltaGvdw: -36.5131\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.939501\n', 'REMARK  Cluster: 26\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      78.183  -0.543  11.827  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      79.491   0.209  11.675  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      78.550  -2.004  11.638  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.638  -0.288  13.203  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.012   0.166  10.269  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      79.560   1.661  12.080  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      77.421  -2.989  12.026  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      79.122  -2.195  10.223  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      76.591  -1.240  13.612  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      81.249   1.041  10.435  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.310  -1.280   9.926  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      79.012   0.739   9.273  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.808   2.167  11.376  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      76.484  -2.459  13.083  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      78.107  -4.216  12.619  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      76.624  -3.403  10.796  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      81.990   1.445   9.149  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      75.488  -3.412  13.656  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      77.156  -5.213  13.248  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      81.575   2.789   8.562  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      83.470   1.509   9.466  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      76.231  -4.579  14.265  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.879   2.864   7.079  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.295  -5.554  14.708  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      81.488   4.200   6.536  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      80.668   4.383   5.309  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      80.074   4.496   6.619  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      80.154   3.231   4.518  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      80.769   5.676   4.580  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      77.431  -0.243  11.094  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      80.228  -0.296  12.308  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.372  -2.192  12.331  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.228   0.725  13.246  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.455  -0.361  13.924  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.636   1.784  13.164  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.676   2.205  11.737  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      78.354  -1.995   9.472  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      79.436  -3.233  10.086  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      75.934  -0.946  14.421  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      81.950   0.431  11.011  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.170  -1.608  10.512  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      80.592  -1.369   8.873  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      81.600   2.378  12.100  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.572   3.107  10.878  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      78.812  -3.900  13.394  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      78.697  -4.721  11.848  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      81.841   0.664   8.399  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      74.792  -3.759  12.888  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      74.860  -2.946  14.423  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      77.742  -5.977  13.755  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      76.578  -5.725  12.479  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      82.076   3.606   9.090  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.503   2.941   8.691  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.810  -4.245  15.132  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      81.356   2.050   6.575  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      82.947   2.712   6.902  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.176   4.983   6.830  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.810   2.410   5.154  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      80.936   2.853   3.855  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      79.308   3.548   3.902  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.813  -6.334  14.969  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      83.818   0.550   9.860  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      83.670   2.279  10.215  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      84.055   1.739   8.572  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      78.604   1.689   9.599  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      78.159   0.078   9.109  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.482   0.896   8.302  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      76.286  -2.517  10.253  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      75.738  -3.994  11.036  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.223  -4.019  10.120  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      81.479   5.584   3.754  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      81.108   6.483   5.236  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      79.795   5.953   4.168  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.225', True, 'REMARK  Energy: 226.818\nREMARK  SimpleFitness: 226.818\nREMARK  FullFitness: -834.8341\nREMARK  InterFull: -36.5131\nREMARK  IntraFull: 272.553\nREMARK  solvFull: -1242.25\nREMARK  surfFull: 171.376\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1242.25\nREMARK  deltaGcompsolvnonpol: 171.376\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.64963\nREMARK  deltaGligsolvnonpol: 12.7092\nREMARK  deltaGvdw: -36.5131\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.939501\nREMARK  Cluster: 26\nREMARK  ClusterRank: 1\n', 225), ({'deltaGligsolvpol': -4.64963, 'surfFull': 171.376, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.376, 'SimpleFitness': 226.818, 'InterFull': -36.5131, 'extraFull': 0.0, 'Energy': 226.818, 'solvFull': -1242.25, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 26, 'deltaGligsolvnonpol': 12.7092, 'deltaGcompsolvpol': -1242.25, 'FullFitness': -834.8341, 'deltaG': -6.939501, 'ClusterRank': 2, 'IntraFull': 272.553, 'deltaGvdw': -36.5131}, 'V', ['REMARK  Energy: 226.818\n', 'REMARK  SimpleFitness: 226.818\n', 'REMARK  FullFitness: -834.8341\n', 'REMARK  InterFull: -36.5131\n', 'REMARK  IntraFull: 272.553\n', 'REMARK  solvFull: -1242.25\n', 'REMARK  surfFull: 171.376\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1242.25\n', 'REMARK  deltaGcompsolvnonpol: 171.376\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.64963\n', 'REMARK  deltaGligsolvnonpol: 12.7092\n', 'REMARK  deltaGvdw: -36.5131\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.939501\n', 'REMARK  Cluster: 26\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      78.183  -0.543  11.827  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      79.491   0.209  11.675  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      78.550  -2.004  11.638  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.638  -0.288  13.203  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.012   0.166  10.269  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      79.560   1.661  12.080  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      77.421  -2.989  12.026  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      79.122  -2.195  10.223  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      76.591  -1.240  13.612  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      81.249   1.041  10.435  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.310  -1.280   9.926  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      79.012   0.739   9.273  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.808   2.167  11.376  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      76.484  -2.459  13.083  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      78.107  -4.216  12.619  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      76.624  -3.403  10.796  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      81.990   1.445   9.149  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      75.488  -3.412  13.656  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      77.156  -5.213  13.248  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      81.575   2.789   8.562  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      83.470   1.509   9.466  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      76.231  -4.579  14.265  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.879   2.864   7.079  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.295  -5.554  14.708  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      81.488   4.200   6.536  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      80.668   4.383   5.309  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      80.074   4.496   6.619  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      80.154   3.231   4.518  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      80.769   5.676   4.580  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      77.431  -0.243  11.094  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      80.228  -0.296  12.308  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.372  -2.192  12.331  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.228   0.725  13.246  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.455  -0.361  13.924  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.636   1.784  13.164  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.676   2.205  11.737  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      78.354  -1.995   9.472  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      79.436  -3.233  10.086  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      75.934  -0.946  14.421  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      81.950   0.431  11.011  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.170  -1.608  10.512  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      80.592  -1.369   8.873  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      81.600   2.378  12.100  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.572   3.107  10.878  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      78.812  -3.900  13.394  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      78.697  -4.721  11.848  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      81.841   0.664   8.399  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      74.792  -3.759  12.888  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      74.860  -2.946  14.423  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      77.742  -5.977  13.755  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      76.578  -5.725  12.479  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      82.076   3.606   9.090  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.503   2.941   8.691  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.810  -4.245  15.132  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      81.356   2.050   6.575  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      82.947   2.712   6.902  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.176   4.983   6.830  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.810   2.410   5.154  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      80.936   2.853   3.855  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      79.308   3.548   3.902  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.813  -6.334  14.969  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      83.818   0.550   9.860  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      83.670   2.279  10.215  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      84.055   1.739   8.572  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      78.604   1.689   9.599  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      78.159   0.078   9.109  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.482   0.896   8.302  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      76.286  -2.517  10.253  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      75.738  -3.994  11.036  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.223  -4.019  10.120  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      81.479   5.584   3.754  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      81.108   6.483   5.236  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      79.795   5.953   4.168  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.226', True, 'REMARK  Energy: 226.818\nREMARK  SimpleFitness: 226.818\nREMARK  FullFitness: -834.8341\nREMARK  InterFull: -36.5131\nREMARK  IntraFull: 272.553\nREMARK  solvFull: -1242.25\nREMARK  surfFull: 171.376\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1242.25\nREMARK  deltaGcompsolvnonpol: 171.376\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.64963\nREMARK  deltaGligsolvnonpol: 12.7092\nREMARK  deltaGvdw: -36.5131\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.939501\nREMARK  Cluster: 26\nREMARK  ClusterRank: 2\n', 226), ({'deltaGligsolvpol': -4.64843, 'surfFull': 171.381, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.381, 'SimpleFitness': 226.813, 'InterFull': -36.5232, 'extraFull': 0.0, 'Energy': 226.813, 'solvFull': -1242.25, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 26, 'deltaGligsolvnonpol': 12.7111, 'deltaGcompsolvpol': -1242.25, 'FullFitness': -834.82825, 'deltaG': -6.9402375, 'ClusterRank': 3, 'IntraFull': 272.564, 'deltaGvdw': -36.5232}, 'V', ['REMARK  Energy: 226.813\n', 'REMARK  SimpleFitness: 226.813\n', 'REMARK  FullFitness: -834.82825\n', 'REMARK  InterFull: -36.5232\n', 'REMARK  IntraFull: 272.564\n', 'REMARK  solvFull: -1242.25\n', 'REMARK  surfFull: 171.381\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1242.25\n', 'REMARK  deltaGcompsolvnonpol: 171.381\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.64843\n', 'REMARK  deltaGligsolvnonpol: 12.7111\n', 'REMARK  deltaGvdw: -36.5232\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9402375\n', 'REMARK  Cluster: 26\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      78.190  -0.541  11.823  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      79.498   0.211  11.672  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      78.557  -2.001  11.633  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.644  -0.287  13.199  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.020   0.168  10.266  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      79.567   1.663  12.077  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      77.429  -2.987  12.021  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      79.129  -2.192  10.219  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      76.598  -1.240  13.607  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      81.257   1.044  10.432  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.318  -1.278   9.923  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      79.020   0.741   9.269  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.817   2.168  11.374  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      76.491  -2.458  13.078  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      78.117  -4.214  12.614  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      76.632  -3.404  10.791  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      81.995   1.449   9.145  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      75.496  -3.413  13.651  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      77.168  -5.212  13.246  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      81.579   2.793   8.559  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      83.476   1.514   9.459  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      76.242  -4.578  14.262  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.873   2.864   7.074  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.307  -5.554  14.705  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      81.481   4.201   6.532  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      80.662   4.384   5.304  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      80.066   4.493   6.614  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      80.150   3.231   4.511  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      80.760   5.677   4.577  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      77.438  -0.241  11.090  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      80.235  -0.294  12.305  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.379  -2.190  12.327  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.234   0.725  13.242  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.461  -0.360  13.921  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.642   1.786  13.161  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.684   2.208  11.732  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      78.361  -1.991   9.468  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      79.443  -3.230  10.080  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      75.940  -0.947  14.417  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      81.959   0.433  11.007  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.178  -1.606  10.510  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      80.601  -1.366   8.871  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      81.608   2.377  12.099  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.583   3.110  10.878  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      78.822  -3.896  13.389  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      78.707  -4.719  11.844  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      81.847   0.668   8.395  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      74.801  -3.762  12.883  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      74.867  -2.947  14.417  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      77.756  -5.973  13.754  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      76.591  -5.726  12.477  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      82.085   3.610   9.082  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.508   2.946   8.694  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.819  -4.242  15.129  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      81.345   2.050   6.575  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      82.939   2.710   6.891  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.167   4.983   6.827  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.807   2.409   5.146  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      80.934   2.855   3.849  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      79.305   3.548   3.895  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.826  -6.331  14.973  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      83.827   0.555   9.851  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      83.676   2.283  10.210  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      84.059   1.748   8.565  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      78.615   1.693   9.594  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      78.166   0.082   9.108  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.490   0.895   8.298  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      76.293  -2.518  10.247  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      75.747  -3.996  11.031  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.232  -4.019  10.115  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      81.469   5.588   3.749  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      81.099   6.484   5.234  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      79.785   5.955   4.168  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.227', True, 'REMARK  Energy: 226.813\nREMARK  SimpleFitness: 226.813\nREMARK  FullFitness: -834.82825\nREMARK  InterFull: -36.5232\nREMARK  IntraFull: 272.564\nREMARK  solvFull: -1242.25\nREMARK  surfFull: 171.381\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1242.25\nREMARK  deltaGcompsolvnonpol: 171.381\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.64843\nREMARK  deltaGligsolvnonpol: 12.7111\nREMARK  deltaGvdw: -36.5232\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9402375\nREMARK  Cluster: 26\nREMARK  ClusterRank: 3\n', 227), ({'deltaGligsolvpol': -4.64843, 'surfFull': 171.381, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.381, 'SimpleFitness': 226.813, 'InterFull': -36.5232, 'extraFull': 0.0, 'Energy': 226.813, 'solvFull': -1242.25, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 26, 'deltaGligsolvnonpol': 12.7111, 'deltaGcompsolvpol': -1242.25, 'FullFitness': -834.82825, 'deltaG': -6.9402375, 'ClusterRank': 4, 'IntraFull': 272.564, 'deltaGvdw': -36.5232}, 'V', ['REMARK  Energy: 226.813\n', 'REMARK  SimpleFitness: 226.813\n', 'REMARK  FullFitness: -834.82825\n', 'REMARK  InterFull: -36.5232\n', 'REMARK  IntraFull: 272.564\n', 'REMARK  solvFull: -1242.25\n', 'REMARK  surfFull: 171.381\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1242.25\n', 'REMARK  deltaGcompsolvnonpol: 171.381\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.64843\n', 'REMARK  deltaGligsolvnonpol: 12.7111\n', 'REMARK  deltaGvdw: -36.5232\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9402375\n', 'REMARK  Cluster: 26\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      78.190  -0.541  11.823  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      79.498   0.211  11.672  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      78.557  -2.001  11.633  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.644  -0.287  13.199  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.020   0.168  10.266  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      79.567   1.663  12.077  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      77.429  -2.987  12.021  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      79.129  -2.192  10.219  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      76.598  -1.240  13.607  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      81.257   1.044  10.432  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.318  -1.278   9.923  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      79.020   0.741   9.269  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.817   2.168  11.374  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      76.491  -2.458  13.078  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      78.117  -4.214  12.614  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      76.632  -3.404  10.791  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      81.995   1.449   9.145  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      75.496  -3.413  13.651  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      77.168  -5.212  13.246  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      81.579   2.793   8.559  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      83.476   1.514   9.459  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      76.242  -4.578  14.262  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.873   2.864   7.074  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.307  -5.554  14.705  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      81.481   4.201   6.532  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      80.662   4.384   5.304  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      80.066   4.493   6.614  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      80.150   3.231   4.511  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      80.760   5.677   4.577  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      77.438  -0.241  11.090  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      80.235  -0.294  12.305  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.379  -2.190  12.327  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.234   0.725  13.242  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.461  -0.360  13.921  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.642   1.786  13.161  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.684   2.208  11.732  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      78.361  -1.991   9.468  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      79.443  -3.230  10.080  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      75.940  -0.947  14.417  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      81.959   0.433  11.007  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.178  -1.606  10.510  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      80.601  -1.366   8.871  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      81.608   2.377  12.099  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.583   3.110  10.878  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      78.822  -3.896  13.389  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      78.707  -4.719  11.844  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      81.847   0.668   8.395  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      74.801  -3.762  12.883  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      74.867  -2.947  14.417  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      77.756  -5.973  13.754  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      76.591  -5.726  12.477  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      82.085   3.610   9.082  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.508   2.946   8.694  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.819  -4.242  15.129  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      81.345   2.050   6.575  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      82.939   2.710   6.891  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.167   4.983   6.827  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.807   2.409   5.146  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      80.934   2.855   3.849  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      79.305   3.548   3.895  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.826  -6.331  14.973  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      83.827   0.555   9.851  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      83.676   2.283  10.210  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      84.059   1.748   8.565  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      78.615   1.693   9.594  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      78.166   0.082   9.108  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.490   0.895   8.298  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      76.293  -2.518  10.247  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      75.747  -3.996  11.031  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.232  -4.019  10.115  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      81.469   5.588   3.749  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      81.099   6.484   5.234  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      79.785   5.955   4.168  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.228', True, 'REMARK  Energy: 226.813\nREMARK  SimpleFitness: 226.813\nREMARK  FullFitness: -834.82825\nREMARK  InterFull: -36.5232\nREMARK  IntraFull: 272.564\nREMARK  solvFull: -1242.25\nREMARK  surfFull: 171.381\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1242.25\nREMARK  deltaGcompsolvnonpol: 171.381\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.64843\nREMARK  deltaGligsolvnonpol: 12.7111\nREMARK  deltaGvdw: -36.5232\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9402375\nREMARK  Cluster: 26\nREMARK  ClusterRank: 4\n', 228), ({'deltaGligsolvpol': -4.64843, 'surfFull': 171.381, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.381, 'SimpleFitness': 226.813, 'InterFull': -36.5232, 'extraFull': 0.0, 'Energy': 226.813, 'solvFull': -1242.25, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 26, 'deltaGligsolvnonpol': 12.7111, 'deltaGcompsolvpol': -1242.25, 'FullFitness': -834.82825, 'deltaG': -6.9402375, 'ClusterRank': 5, 'IntraFull': 272.564, 'deltaGvdw': -36.5232}, 'V', ['REMARK  Energy: 226.813\n', 'REMARK  SimpleFitness: 226.813\n', 'REMARK  FullFitness: -834.82825\n', 'REMARK  InterFull: -36.5232\n', 'REMARK  IntraFull: 272.564\n', 'REMARK  solvFull: -1242.25\n', 'REMARK  surfFull: 171.381\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1242.25\n', 'REMARK  deltaGcompsolvnonpol: 171.381\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.64843\n', 'REMARK  deltaGligsolvnonpol: 12.7111\n', 'REMARK  deltaGvdw: -36.5232\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.9402375\n', 'REMARK  Cluster: 26\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      78.190  -0.541  11.823  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      79.498   0.211  11.672  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      78.557  -2.001  11.633  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.644  -0.287  13.199  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.020   0.168  10.266  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      79.567   1.663  12.077  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      77.429  -2.987  12.021  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      79.129  -2.192  10.219  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      76.598  -1.240  13.607  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      81.257   1.044  10.432  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.318  -1.278   9.923  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      79.020   0.741   9.269  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.817   2.168  11.374  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      76.491  -2.458  13.078  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      78.117  -4.214  12.614  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      76.632  -3.404  10.791  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      81.995   1.449   9.145  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      75.496  -3.413  13.651  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      77.168  -5.212  13.246  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      81.579   2.793   8.559  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      83.476   1.514   9.459  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      76.242  -4.578  14.262  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.873   2.864   7.074  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.307  -5.554  14.705  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      81.481   4.201   6.532  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      80.662   4.384   5.304  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      80.066   4.493   6.614  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      80.150   3.231   4.511  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      80.760   5.677   4.577  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      77.438  -0.241  11.090  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      80.235  -0.294  12.305  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.379  -2.190  12.327  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.234   0.725  13.242  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.461  -0.360  13.921  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.642   1.786  13.161  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.684   2.208  11.732  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      78.361  -1.991   9.468  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      79.443  -3.230  10.080  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      75.940  -0.947  14.417  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      81.959   0.433  11.007  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.178  -1.606  10.510  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      80.601  -1.366   8.871  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      81.608   2.377  12.099  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.583   3.110  10.878  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      78.822  -3.896  13.389  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      78.707  -4.719  11.844  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      81.847   0.668   8.395  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      74.801  -3.762  12.883  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      74.867  -2.947  14.417  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      77.756  -5.973  13.754  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      76.591  -5.726  12.477  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      82.085   3.610   9.082  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.508   2.946   8.694  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.819  -4.242  15.129  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      81.345   2.050   6.575  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      82.939   2.710   6.891  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.167   4.983   6.827  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.807   2.409   5.146  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      80.934   2.855   3.849  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      79.305   3.548   3.895  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.826  -6.331  14.973  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      83.827   0.555   9.851  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      83.676   2.283  10.210  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      84.059   1.748   8.565  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      78.615   1.693   9.594  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      78.166   0.082   9.108  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.490   0.895   8.298  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      76.293  -2.518  10.247  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      75.747  -3.996  11.031  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.232  -4.019  10.115  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      81.469   5.588   3.749  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      81.099   6.484   5.234  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      79.785   5.955   4.168  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.229', True, 'REMARK  Energy: 226.813\nREMARK  SimpleFitness: 226.813\nREMARK  FullFitness: -834.82825\nREMARK  InterFull: -36.5232\nREMARK  IntraFull: 272.564\nREMARK  solvFull: -1242.25\nREMARK  surfFull: 171.381\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1242.25\nREMARK  deltaGcompsolvnonpol: 171.381\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.64843\nREMARK  deltaGligsolvnonpol: 12.7111\nREMARK  deltaGvdw: -36.5232\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.9402375\nREMARK  Cluster: 26\nREMARK  ClusterRank: 5\n', 229), ({'deltaGligsolvpol': -4.6459, 'surfFull': 171.397, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.397, 'SimpleFitness': 226.817, 'InterFull': -36.3915, 'extraFull': 0.0, 'Energy': 226.817, 'solvFull': -1242.22, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 26, 'deltaGligsolvnonpol': 12.7115, 'deltaGcompsolvpol': -1242.22, 'FullFitness': -834.7555, 'deltaG': -6.924619, 'ClusterRank': 6, 'IntraFull': 272.459, 'deltaGvdw': -36.3915}, 'V', ['REMARK  Energy: 226.817\n', 'REMARK  SimpleFitness: 226.817\n', 'REMARK  FullFitness: -834.7555\n', 'REMARK  InterFull: -36.3915\n', 'REMARK  IntraFull: 272.459\n', 'REMARK  solvFull: -1242.22\n', 'REMARK  surfFull: 171.397\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1242.22\n', 'REMARK  deltaGcompsolvnonpol: 171.397\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.6459\n', 'REMARK  deltaGligsolvnonpol: 12.7115\n', 'REMARK  deltaGvdw: -36.3915\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.924619\n', 'REMARK  Cluster: 26\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      78.213  -0.526  11.808  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      79.522   0.224  11.657  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      78.578  -1.987  11.618  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.667  -0.272  13.183  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.045   0.180  10.252  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      79.591   1.677  12.060  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      77.448  -2.972  12.003  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      79.153  -2.179  10.205  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      76.621  -1.226  13.593  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      81.282   1.057  10.416  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.344  -1.267   9.913  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      79.046   0.750   9.254  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.841   2.181  11.358  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      76.513  -2.443  13.062  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      78.134  -4.202  12.590  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      76.648  -3.382  10.773  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      82.016   1.464   9.127  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      75.518  -3.398  13.634  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      77.183  -5.200  13.217  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      81.595   2.807   8.541  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      83.498   1.532   9.436  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      76.260  -4.569  14.238  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.879   2.874   7.053  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.322  -5.544  14.678  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      81.471   4.205   6.507  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      80.631   4.374   5.291  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      80.056   4.489   6.609  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      80.114   3.213   4.514  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      80.708   5.663   4.554  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      77.461  -0.225  11.074  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      80.258  -0.280  12.292  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.398  -2.176  12.313  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.256   0.740  13.226  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.484  -0.343  13.905  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.664   1.801  13.144  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.708   2.220  11.714  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      78.387  -1.978   9.452  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      79.465  -3.217  10.068  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      75.965  -0.933  14.404  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      81.986   0.448  10.989  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.200  -1.596  10.505  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      80.631  -1.357   8.861  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      81.632   2.389  12.084  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.609   3.124  10.863  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      78.839  -3.889  13.367  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      78.723  -4.704  11.818  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      81.868   0.683   8.377  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      74.819  -3.741  12.866  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      74.891  -2.934  14.405  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      77.768  -5.967  13.719  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      76.603  -5.708  12.445  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      82.104   3.625   9.058  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.525   2.960   8.684  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.840  -4.239  15.105  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      81.357   2.053   6.561  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      82.946   2.730   6.865  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.157   4.994   6.787  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.792   2.391   5.159  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      80.888   2.842   3.837  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      79.253   3.519   3.914  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.839  -6.325  14.938  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      83.851   0.574   9.827  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      83.699   2.302  10.186  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      84.077   1.767   8.540  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      78.643   1.704   9.575  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      78.190   0.092   9.096  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.515   0.900   8.282  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      76.307  -2.494  10.235  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      75.765  -3.977  11.012  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.247  -3.993  10.093  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      81.395   5.571   3.709  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      81.061   6.475   5.197  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      79.722   5.935   4.168  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.230', True, 'REMARK  Energy: 226.817\nREMARK  SimpleFitness: 226.817\nREMARK  FullFitness: -834.7555\nREMARK  InterFull: -36.3915\nREMARK  IntraFull: 272.459\nREMARK  solvFull: -1242.22\nREMARK  surfFull: 171.397\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1242.22\nREMARK  deltaGcompsolvnonpol: 171.397\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.6459\nREMARK  deltaGligsolvnonpol: 12.7115\nREMARK  deltaGvdw: -36.3915\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.924619\nREMARK  Cluster: 26\nREMARK  ClusterRank: 6\n', 230), ({'deltaGligsolvpol': -4.6459, 'surfFull': 171.397, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.397, 'SimpleFitness': 226.817, 'InterFull': -36.3915, 'extraFull': 0.0, 'Energy': 226.817, 'solvFull': -1242.22, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 26, 'deltaGligsolvnonpol': 12.7115, 'deltaGcompsolvpol': -1242.22, 'FullFitness': -834.7555, 'deltaG': -6.924619, 'ClusterRank': 7, 'IntraFull': 272.459, 'deltaGvdw': -36.3915}, 'V', ['REMARK  Energy: 226.817\n', 'REMARK  SimpleFitness: 226.817\n', 'REMARK  FullFitness: -834.7555\n', 'REMARK  InterFull: -36.3915\n', 'REMARK  IntraFull: 272.459\n', 'REMARK  solvFull: -1242.22\n', 'REMARK  surfFull: 171.397\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1242.22\n', 'REMARK  deltaGcompsolvnonpol: 171.397\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.6459\n', 'REMARK  deltaGligsolvnonpol: 12.7115\n', 'REMARK  deltaGvdw: -36.3915\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.924619\n', 'REMARK  Cluster: 26\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      78.213  -0.526  11.808  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      79.522   0.224  11.657  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      78.578  -1.987  11.618  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.667  -0.272  13.183  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.045   0.180  10.252  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      79.591   1.677  12.060  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      77.448  -2.972  12.003  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      79.153  -2.179  10.205  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      76.621  -1.226  13.593  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      81.282   1.057  10.416  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.344  -1.267   9.913  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      79.046   0.750   9.254  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      80.841   2.181  11.358  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      76.513  -2.443  13.062  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      78.134  -4.202  12.590  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      76.648  -3.382  10.773  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      82.016   1.464   9.127  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      75.518  -3.398  13.634  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      77.183  -5.200  13.217  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      81.595   2.807   8.541  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      83.498   1.532   9.436  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      76.260  -4.569  14.238  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      81.879   2.874   7.053  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.322  -5.544  14.678  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      81.471   4.205   6.507  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      80.631   4.374   5.291  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      80.056   4.489   6.609  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      80.114   3.213   4.514  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      80.708   5.663   4.554  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      77.461  -0.225  11.074  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      80.258  -0.280  12.292  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      79.398  -2.176  12.313  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      77.256   0.740  13.226  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.484  -0.343  13.905  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.664   1.801  13.144  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.708   2.220  11.714  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      78.387  -1.978   9.452  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      79.465  -3.217  10.068  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      75.965  -0.933  14.404  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      81.986   0.448  10.989  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      81.200  -1.596  10.505  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      80.631  -1.357   8.861  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      81.632   2.389  12.084  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      80.609   3.124  10.863  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      78.839  -3.889  13.367  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      78.723  -4.704  11.818  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      81.868   0.683   8.377  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      74.819  -3.741  12.866  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      74.891  -2.934  14.405  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      77.768  -5.967  13.719  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      76.603  -5.708  12.445  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      82.104   3.625   9.058  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      80.525   2.960   8.684  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.840  -4.239  15.105  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      81.357   2.053   6.561  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      82.946   2.730   6.865  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      82.157   4.994   6.787  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.792   2.391   5.159  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      80.888   2.842   3.837  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      79.253   3.519   3.914  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.839  -6.325  14.938  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      83.851   0.574   9.827  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      83.699   2.302  10.186  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      84.077   1.767   8.540  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      78.643   1.704   9.575  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      78.190   0.092   9.096  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      79.515   0.900   8.282  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      76.307  -2.494  10.235  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      75.765  -3.977  11.012  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      77.247  -3.993  10.093  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      81.395   5.571   3.709  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      81.061   6.475   5.197  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      79.722   5.935   4.168  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.231', True, 'REMARK  Energy: 226.817\nREMARK  SimpleFitness: 226.817\nREMARK  FullFitness: -834.7555\nREMARK  InterFull: -36.3915\nREMARK  IntraFull: 272.459\nREMARK  solvFull: -1242.22\nREMARK  surfFull: 171.397\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1242.22\nREMARK  deltaGcompsolvnonpol: 171.397\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.6459\nREMARK  deltaGligsolvnonpol: 12.7115\nREMARK  deltaGvdw: -36.3915\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.924619\nREMARK  Cluster: 26\nREMARK  ClusterRank: 7\n', 231), ({'deltaGligsolvpol': -4.82575, 'surfFull': 176.636, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 176.636, 'SimpleFitness': 244.273, 'InterFull': -18.426, 'extraFull': 0.0, 'Energy': 244.273, 'solvFull': -1265.31, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 27, 'deltaGligsolvnonpol': 12.8361, 'deltaGcompsolvpol': -1265.31, 'FullFitness': -834.7651, 'deltaG': -6.143368, 'ClusterRank': 0, 'IntraFull': 272.335, 'deltaGvdw': -18.426}, 'V', ['REMARK  Energy: 244.273\n', 'REMARK  SimpleFitness: 244.273\n', 'REMARK  FullFitness: -834.7651\n', 'REMARK  InterFull: -18.426\n', 'REMARK  IntraFull: 272.335\n', 'REMARK  solvFull: -1265.31\n', 'REMARK  surfFull: 176.636\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1265.31\n', 'REMARK  deltaGcompsolvnonpol: 176.636\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82575\n', 'REMARK  deltaGligsolvnonpol: 12.8361\n', 'REMARK  deltaGvdw: -18.426\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.143368\n', 'REMARK  Cluster: 27\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      52.129   5.210  18.763  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      53.604   5.562  18.749  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      51.371   6.243  17.935  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      51.943   3.830  18.157  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      53.932   6.930  19.296  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      54.539   4.630  19.469  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      49.854   5.957  17.921  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      51.731   7.674  18.346  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      50.537   3.554  17.763  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.464   6.869  19.165  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      53.231   7.914  18.375  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      53.460   7.099  20.743  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      55.815   5.441  19.585  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      49.588   4.494  17.674  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      49.240   6.786  16.791  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      49.195   6.357  19.242  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      56.422   7.922  19.770  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      48.194   4.111  17.288  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      47.804   6.419  16.474  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.238   9.327  19.192  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      56.584   7.925  21.287  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      47.709   4.951  16.125  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      55.449  10.297  20.063  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      46.351   4.628  15.849  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      55.253  11.593  19.350  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      54.692  12.785  20.034  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      56.112  12.667  19.798  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      54.308  12.732  21.474  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      54.029  13.833  19.213  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      51.750   5.195  19.788  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      53.917   5.552  17.702  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      51.726   6.130  16.908  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      52.263   3.073  18.878  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      52.577   3.720  17.272  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      54.700   3.699  18.924  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      54.153   4.380  20.461  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      51.318   7.916  19.326  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      51.290   8.386  17.643  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      50.282   2.525  17.544  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      55.652   6.913  18.088  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      53.629   7.810  17.362  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      53.417   8.941  18.691  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      56.590   5.037  18.927  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      56.187   5.367  20.607  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      49.834   6.653  15.882  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      49.275   7.849  17.040  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.401   7.604  19.400  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      47.525   4.246  18.142  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      48.118   3.051  17.023  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      47.439   7.023  15.639  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      47.150   6.647  17.321  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      55.787   9.257  18.198  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.229   9.761  19.029  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      48.300   4.738  15.229  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      55.966  10.467  21.010  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      54.470   9.879  20.299  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      55.072  11.478  18.289  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      55.041  12.192  22.079  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      53.338  12.242  21.584  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      54.226  13.746  21.876  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      46.031   5.295  15.219  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      56.903   6.951  21.661  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      55.664   8.200  21.805  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      57.354   8.643  21.577  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.013   6.459  21.435  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      52.401   6.874  20.876  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      53.602   8.131  21.069  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      49.694   5.889  20.095  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      48.141   6.070  19.286  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      49.226   7.440  19.385  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      52.949  13.668  19.195  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      54.394  13.825  18.181  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      54.220  14.823  19.636  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.232', True, 'REMARK  Energy: 244.273\nREMARK  SimpleFitness: 244.273\nREMARK  FullFitness: -834.7651\nREMARK  InterFull: -18.426\nREMARK  IntraFull: 272.335\nREMARK  solvFull: -1265.31\nREMARK  surfFull: 176.636\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1265.31\nREMARK  deltaGcompsolvnonpol: 176.636\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82575\nREMARK  deltaGligsolvnonpol: 12.8361\nREMARK  deltaGvdw: -18.426\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.143368\nREMARK  Cluster: 27\nREMARK  ClusterRank: 0\n', 232), ({'deltaGligsolvpol': -4.82575, 'surfFull': 176.636, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 176.636, 'SimpleFitness': 244.273, 'InterFull': -18.426, 'extraFull': 0.0, 'Energy': 244.273, 'solvFull': -1265.31, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 27, 'deltaGligsolvnonpol': 12.8361, 'deltaGcompsolvpol': -1265.31, 'FullFitness': -834.7651, 'deltaG': -6.143368, 'ClusterRank': 1, 'IntraFull': 272.335, 'deltaGvdw': -18.426}, 'V', ['REMARK  Energy: 244.273\n', 'REMARK  SimpleFitness: 244.273\n', 'REMARK  FullFitness: -834.7651\n', 'REMARK  InterFull: -18.426\n', 'REMARK  IntraFull: 272.335\n', 'REMARK  solvFull: -1265.31\n', 'REMARK  surfFull: 176.636\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1265.31\n', 'REMARK  deltaGcompsolvnonpol: 176.636\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82575\n', 'REMARK  deltaGligsolvnonpol: 12.8361\n', 'REMARK  deltaGvdw: -18.426\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.143368\n', 'REMARK  Cluster: 27\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      52.129   5.210  18.763  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      53.604   5.562  18.749  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      51.371   6.243  17.935  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      51.943   3.830  18.157  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      53.932   6.930  19.296  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      54.539   4.630  19.469  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      49.854   5.957  17.921  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      51.731   7.674  18.346  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      50.537   3.554  17.763  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.464   6.869  19.165  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      53.231   7.914  18.375  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      53.460   7.099  20.743  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      55.815   5.441  19.585  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      49.588   4.494  17.674  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      49.240   6.786  16.791  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      49.195   6.357  19.242  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      56.422   7.922  19.770  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      48.194   4.111  17.288  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      47.804   6.419  16.474  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.238   9.327  19.192  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      56.584   7.925  21.287  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      47.709   4.951  16.125  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      55.449  10.297  20.063  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      46.351   4.628  15.849  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      55.253  11.593  19.350  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      54.692  12.785  20.034  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      56.112  12.667  19.798  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      54.308  12.732  21.474  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      54.029  13.833  19.213  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      51.750   5.195  19.788  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      53.917   5.552  17.702  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      51.726   6.130  16.908  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      52.263   3.073  18.878  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      52.577   3.720  17.272  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      54.700   3.699  18.924  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      54.153   4.380  20.461  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      51.318   7.916  19.326  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      51.290   8.386  17.643  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      50.282   2.525  17.544  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      55.652   6.913  18.088  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      53.629   7.810  17.362  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      53.417   8.941  18.691  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      56.590   5.037  18.927  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      56.187   5.367  20.607  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      49.834   6.653  15.882  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      49.275   7.849  17.040  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.401   7.604  19.400  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      47.525   4.246  18.142  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      48.118   3.051  17.023  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      47.439   7.023  15.639  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      47.150   6.647  17.321  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      55.787   9.257  18.198  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.229   9.761  19.029  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      48.300   4.738  15.229  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      55.966  10.467  21.010  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      54.470   9.879  20.299  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      55.072  11.478  18.289  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      55.041  12.192  22.079  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      53.338  12.242  21.584  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      54.226  13.746  21.876  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      46.031   5.295  15.219  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      56.903   6.951  21.661  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      55.664   8.200  21.805  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      57.354   8.643  21.577  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.013   6.459  21.435  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      52.401   6.874  20.876  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      53.602   8.131  21.069  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      49.694   5.889  20.095  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      48.141   6.070  19.286  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      49.226   7.440  19.385  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      52.949  13.668  19.195  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      54.394  13.825  18.181  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      54.220  14.823  19.636  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.233', True, 'REMARK  Energy: 244.273\nREMARK  SimpleFitness: 244.273\nREMARK  FullFitness: -834.7651\nREMARK  InterFull: -18.426\nREMARK  IntraFull: 272.335\nREMARK  solvFull: -1265.31\nREMARK  surfFull: 176.636\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1265.31\nREMARK  deltaGcompsolvnonpol: 176.636\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82575\nREMARK  deltaGligsolvnonpol: 12.8361\nREMARK  deltaGvdw: -18.426\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.143368\nREMARK  Cluster: 27\nREMARK  ClusterRank: 1\n', 233), ({'deltaGligsolvpol': -4.82987, 'surfFull': 176.666, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 176.666, 'SimpleFitness': 244.372, 'InterFull': -18.3511, 'extraFull': 0.0, 'Energy': 244.372, 'solvFull': -1265.53, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 27, 'deltaGligsolvnonpol': 12.8555, 'deltaGcompsolvpol': -1265.53, 'FullFitness': -834.7451, 'deltaG': -6.1484895, 'ClusterRank': 2, 'IntraFull': 272.47, 'deltaGvdw': -18.3511}, 'V', ['REMARK  Energy: 244.372\n', 'REMARK  SimpleFitness: 244.372\n', 'REMARK  FullFitness: -834.7451\n', 'REMARK  InterFull: -18.3511\n', 'REMARK  IntraFull: 272.47\n', 'REMARK  solvFull: -1265.53\n', 'REMARK  surfFull: 176.666\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1265.53\n', 'REMARK  deltaGcompsolvnonpol: 176.666\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82987\n', 'REMARK  deltaGligsolvnonpol: 12.8555\n', 'REMARK  deltaGvdw: -18.3511\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.1484895\n', 'REMARK  Cluster: 27\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      52.158   5.137  18.810  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      53.632   5.486  18.772  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      51.388   6.160  17.981  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      51.963   3.751  18.218  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      53.969   6.862  19.293  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      54.571   4.567  19.503  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      49.870   5.877  18.008  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      51.760   7.599  18.354  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      50.549   3.472  17.858  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.498   6.798  19.144  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      53.262   7.830  18.359  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      53.510   7.057  20.742  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      55.855   5.371  19.568  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      49.597   4.411  17.782  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      49.227   6.696  16.887  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      49.246   6.291  19.342  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      56.466   7.856  19.728  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      48.196   4.023  17.434  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      47.785   6.322  16.606  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.286   9.256  19.135  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      56.641   7.875  21.242  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      47.685   4.850  16.273  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      55.488  10.232  19.991  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      46.323   4.521  16.030  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      55.275  11.518  19.264  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      54.639  12.686  19.926  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      56.070  12.629  19.740  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      54.211  12.623  21.352  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      53.961  13.706  19.081  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      51.795   5.131  19.840  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      53.935   5.455  17.722  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      51.718   6.026  16.948  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      52.298   3.000  18.937  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      52.577   3.637  17.320  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      54.713   3.615  18.989  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      54.201   4.354  20.509  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      51.361   7.866  19.334  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      51.316   8.296  17.641  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      50.288   2.441  17.655  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      55.672   6.834  18.065  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      53.647   7.701  17.344  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      53.459   8.861  18.648  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      56.601   4.957  18.884  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      56.265   5.302  20.575  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      49.801   6.562  15.965  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      49.262   7.761  17.132  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.440   7.529  19.352  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      47.547   4.169  18.302  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      48.114   2.960  17.182  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      47.398   6.918  15.775  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      47.151   6.553  17.466  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      55.845   9.177  18.138  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.278   9.691  18.980  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      48.258   4.630  15.366  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      56.004  10.421  20.936  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      54.515   9.807  20.234  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      55.139  11.395  18.197  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      54.935  12.099  21.981  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      53.248  12.113  21.432  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      54.096  13.635  21.750  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      45.985   5.186  15.408  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      56.951   6.900  21.624  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      55.730   8.167  21.764  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      57.423   8.586  21.518  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.069   6.428  21.439  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      52.452   6.834  20.889  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      53.655   8.093  21.049  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      49.765   5.831  20.187  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      48.193   6.006  19.414  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      49.282   7.375  19.473  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      52.885  13.513  19.051  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      54.338  13.694  18.055  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      54.120  14.705  19.494  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.234', True, 'REMARK  Energy: 244.372\nREMARK  SimpleFitness: 244.372\nREMARK  FullFitness: -834.7451\nREMARK  InterFull: -18.3511\nREMARK  IntraFull: 272.47\nREMARK  solvFull: -1265.53\nREMARK  surfFull: 176.666\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1265.53\nREMARK  deltaGcompsolvnonpol: 176.666\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82987\nREMARK  deltaGligsolvnonpol: 12.8555\nREMARK  deltaGvdw: -18.3511\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.1484895\nREMARK  Cluster: 27\nREMARK  ClusterRank: 2\n', 234), ({'deltaGligsolvpol': -4.82987, 'surfFull': 176.666, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 176.666, 'SimpleFitness': 244.372, 'InterFull': -18.3511, 'extraFull': 0.0, 'Energy': 244.372, 'solvFull': -1265.53, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 27, 'deltaGligsolvnonpol': 12.8555, 'deltaGcompsolvpol': -1265.53, 'FullFitness': -834.7451, 'deltaG': -6.1484895, 'ClusterRank': 3, 'IntraFull': 272.47, 'deltaGvdw': -18.3511}, 'V', ['REMARK  Energy: 244.372\n', 'REMARK  SimpleFitness: 244.372\n', 'REMARK  FullFitness: -834.7451\n', 'REMARK  InterFull: -18.3511\n', 'REMARK  IntraFull: 272.47\n', 'REMARK  solvFull: -1265.53\n', 'REMARK  surfFull: 176.666\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1265.53\n', 'REMARK  deltaGcompsolvnonpol: 176.666\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82987\n', 'REMARK  deltaGligsolvnonpol: 12.8555\n', 'REMARK  deltaGvdw: -18.3511\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.1484895\n', 'REMARK  Cluster: 27\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      52.158   5.137  18.810  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      53.632   5.486  18.772  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      51.388   6.160  17.981  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      51.963   3.751  18.218  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      53.969   6.862  19.293  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      54.571   4.567  19.503  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      49.870   5.877  18.008  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      51.760   7.599  18.354  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      50.549   3.472  17.858  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.498   6.798  19.144  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      53.262   7.830  18.359  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      53.510   7.057  20.742  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      55.855   5.371  19.568  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      49.597   4.411  17.782  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      49.227   6.696  16.887  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      49.246   6.291  19.342  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      56.466   7.856  19.728  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      48.196   4.023  17.434  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      47.785   6.322  16.606  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.286   9.256  19.135  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      56.641   7.875  21.242  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      47.685   4.850  16.273  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      55.488  10.232  19.991  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      46.323   4.521  16.030  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      55.275  11.518  19.264  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      54.639  12.686  19.926  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      56.070  12.629  19.740  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      54.211  12.623  21.352  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      53.961  13.706  19.081  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      51.795   5.131  19.840  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      53.935   5.455  17.722  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      51.718   6.026  16.948  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      52.298   3.000  18.937  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      52.577   3.637  17.320  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      54.713   3.615  18.989  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      54.201   4.354  20.509  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      51.361   7.866  19.334  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      51.316   8.296  17.641  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      50.288   2.441  17.655  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      55.672   6.834  18.065  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      53.647   7.701  17.344  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      53.459   8.861  18.648  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      56.601   4.957  18.884  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      56.265   5.302  20.575  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      49.801   6.562  15.965  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      49.262   7.761  17.132  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.440   7.529  19.352  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      47.547   4.169  18.302  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      48.114   2.960  17.182  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      47.398   6.918  15.775  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      47.151   6.553  17.466  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      55.845   9.177  18.138  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.278   9.691  18.980  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      48.258   4.630  15.366  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      56.004  10.421  20.936  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      54.515   9.807  20.234  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      55.139  11.395  18.197  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      54.935  12.099  21.981  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      53.248  12.113  21.432  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      54.096  13.635  21.750  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      45.985   5.186  15.408  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      56.951   6.900  21.624  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      55.730   8.167  21.764  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      57.423   8.586  21.518  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.069   6.428  21.439  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      52.452   6.834  20.889  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      53.655   8.093  21.049  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      49.765   5.831  20.187  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      48.193   6.006  19.414  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      49.282   7.375  19.473  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      52.885  13.513  19.051  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      54.338  13.694  18.055  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      54.120  14.705  19.494  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.235', True, 'REMARK  Energy: 244.372\nREMARK  SimpleFitness: 244.372\nREMARK  FullFitness: -834.7451\nREMARK  InterFull: -18.3511\nREMARK  IntraFull: 272.47\nREMARK  solvFull: -1265.53\nREMARK  surfFull: 176.666\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1265.53\nREMARK  deltaGcompsolvnonpol: 176.666\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82987\nREMARK  deltaGligsolvnonpol: 12.8555\nREMARK  deltaGvdw: -18.3511\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.1484895\nREMARK  Cluster: 27\nREMARK  ClusterRank: 3\n', 235), ({'deltaGligsolvpol': -4.82288, 'surfFull': 176.629, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 176.629, 'SimpleFitness': 244.302, 'InterFull': -18.4984, 'extraFull': 0.0, 'Energy': 244.302, 'solvFull': -1265.37, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 27, 'deltaGligsolvnonpol': 12.8337, 'deltaGcompsolvpol': -1265.37, 'FullFitness': -834.74036, 'deltaG': -6.154496, 'ClusterRank': 4, 'IntraFull': 272.499, 'deltaGvdw': -18.4984}, 'V', ['REMARK  Energy: 244.302\n', 'REMARK  SimpleFitness: 244.302\n', 'REMARK  FullFitness: -834.74036\n', 'REMARK  InterFull: -18.4984\n', 'REMARK  IntraFull: 272.499\n', 'REMARK  solvFull: -1265.37\n', 'REMARK  surfFull: 176.629\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1265.37\n', 'REMARK  deltaGcompsolvnonpol: 176.629\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82288\n', 'REMARK  deltaGligsolvnonpol: 12.8337\n', 'REMARK  deltaGvdw: -18.4984\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.154496\n', 'REMARK  Cluster: 27\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      52.171   5.100  18.826  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      53.644   5.462  18.786  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      51.390   6.118  18.000  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      51.988   3.715  18.231  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      53.970   6.842  19.306  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      54.595   4.552  19.514  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      49.874   5.820  18.019  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      51.748   7.557  18.382  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      50.577   3.423  17.864  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.500   6.791  19.157  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      53.247   7.802  18.377  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      53.517   7.033  20.756  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      55.870   5.369  19.582  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      49.617   4.352  17.785  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      49.229   6.638  16.898  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      49.239   6.220  19.352  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      56.459   7.855  19.744  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      48.220   3.954  17.425  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      47.791   6.255  16.611  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.264   9.253  19.153  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      56.637   7.876  21.259  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      47.704   4.785  16.269  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      55.466  10.223  20.015  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      46.345   4.447  16.020  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      55.294  11.523  19.304  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      54.722  12.714  19.979  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      56.146  12.589  19.782  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      54.299  12.661  21.408  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      54.091  13.771  19.144  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      51.810   5.089  19.857  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      53.944   5.435  17.735  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      51.725   5.993  16.967  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      52.329   2.964  18.948  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      52.605   3.609  17.334  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      54.748   3.605  18.995  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      54.228   4.330  20.520  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      51.351   7.810  19.367  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      51.290   8.256  17.678  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      50.328   2.390  17.655  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      55.675   6.830  18.077  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      53.625   7.676  17.358  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      53.437   8.836  18.664  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      56.624   4.964  18.902  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      56.276   5.307  20.592  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      49.806   6.509  15.978  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      49.256   7.702  17.146  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.436   7.540  19.368  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      47.566   4.083  18.291  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      48.151   2.892  17.163  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      47.403   6.853  15.780  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      47.151   6.479  17.469  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      55.812   9.170  18.161  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.251   9.694  18.989  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      48.280   4.577  15.362  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      55.968  10.388  20.971  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      54.480   9.812  20.231  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      55.142  11.413  18.238  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      54.993  12.084  22.027  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      53.307  12.210  21.487  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      54.247  13.673  21.819  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      46.008   5.105  15.390  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      56.961   6.907  21.641  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      55.725   8.159  21.785  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      57.411   8.597  21.531  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.082   6.408  21.451  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      52.461   6.803  20.907  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      53.657   8.070  21.063  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      49.755   5.758  20.197  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      48.187   5.927  19.415  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      49.265   7.304  19.491  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      53.004  13.659  19.156  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      54.429  13.714  18.106  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      54.342  14.761  19.533  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.236', True, 'REMARK  Energy: 244.302\nREMARK  SimpleFitness: 244.302\nREMARK  FullFitness: -834.74036\nREMARK  InterFull: -18.4984\nREMARK  IntraFull: 272.499\nREMARK  solvFull: -1265.37\nREMARK  surfFull: 176.629\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1265.37\nREMARK  deltaGcompsolvnonpol: 176.629\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82288\nREMARK  deltaGligsolvnonpol: 12.8337\nREMARK  deltaGvdw: -18.4984\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.154496\nREMARK  Cluster: 27\nREMARK  ClusterRank: 4\n', 236), ({'deltaGligsolvpol': -4.82288, 'surfFull': 176.629, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 176.629, 'SimpleFitness': 244.302, 'InterFull': -18.4984, 'extraFull': 0.0, 'Energy': 244.302, 'solvFull': -1265.37, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 27, 'deltaGligsolvnonpol': 12.8337, 'deltaGcompsolvpol': -1265.37, 'FullFitness': -834.74036, 'deltaG': -6.154496, 'ClusterRank': 5, 'IntraFull': 272.499, 'deltaGvdw': -18.4984}, 'V', ['REMARK  Energy: 244.302\n', 'REMARK  SimpleFitness: 244.302\n', 'REMARK  FullFitness: -834.74036\n', 'REMARK  InterFull: -18.4984\n', 'REMARK  IntraFull: 272.499\n', 'REMARK  solvFull: -1265.37\n', 'REMARK  surfFull: 176.629\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1265.37\n', 'REMARK  deltaGcompsolvnonpol: 176.629\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82288\n', 'REMARK  deltaGligsolvnonpol: 12.8337\n', 'REMARK  deltaGvdw: -18.4984\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.154496\n', 'REMARK  Cluster: 27\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      52.171   5.100  18.826  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      53.644   5.462  18.786  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      51.390   6.118  18.000  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      51.988   3.715  18.231  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      53.970   6.842  19.306  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      54.595   4.552  19.514  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      49.874   5.820  18.019  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      51.748   7.557  18.382  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      50.577   3.423  17.864  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.500   6.791  19.157  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      53.247   7.802  18.377  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      53.517   7.033  20.756  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      55.870   5.369  19.582  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      49.617   4.352  17.785  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      49.229   6.638  16.898  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      49.239   6.220  19.352  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      56.459   7.855  19.744  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      48.220   3.954  17.425  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      47.791   6.255  16.611  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.264   9.253  19.153  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      56.637   7.876  21.259  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      47.704   4.785  16.269  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      55.466  10.223  20.015  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      46.345   4.447  16.020  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      55.294  11.523  19.304  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      54.722  12.714  19.979  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      56.146  12.589  19.782  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      54.299  12.661  21.408  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      54.091  13.771  19.144  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      51.810   5.089  19.857  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      53.944   5.435  17.735  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      51.725   5.993  16.967  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      52.329   2.964  18.948  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      52.605   3.609  17.334  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      54.748   3.605  18.995  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      54.228   4.330  20.520  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      51.351   7.810  19.367  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      51.290   8.256  17.678  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      50.328   2.390  17.655  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      55.675   6.830  18.077  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      53.625   7.676  17.358  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      53.437   8.836  18.664  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      56.624   4.964  18.902  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      56.276   5.307  20.592  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      49.806   6.509  15.978  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      49.256   7.702  17.146  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.436   7.540  19.368  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      47.566   4.083  18.291  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      48.151   2.892  17.163  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      47.403   6.853  15.780  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      47.151   6.479  17.469  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      55.812   9.170  18.161  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.251   9.694  18.989  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      48.280   4.577  15.362  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      55.968  10.388  20.971  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      54.480   9.812  20.231  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      55.142  11.413  18.238  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      54.993  12.084  22.027  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      53.307  12.210  21.487  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      54.247  13.673  21.819  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      46.008   5.105  15.390  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      56.961   6.907  21.641  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      55.725   8.159  21.785  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      57.411   8.597  21.531  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.082   6.408  21.451  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      52.461   6.803  20.907  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      53.657   8.070  21.063  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      49.755   5.758  20.197  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      48.187   5.927  19.415  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      49.265   7.304  19.491  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      53.004  13.659  19.156  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      54.429  13.714  18.106  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      54.342  14.761  19.533  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.237', True, 'REMARK  Energy: 244.302\nREMARK  SimpleFitness: 244.302\nREMARK  FullFitness: -834.74036\nREMARK  InterFull: -18.4984\nREMARK  IntraFull: 272.499\nREMARK  solvFull: -1265.37\nREMARK  surfFull: 176.629\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1265.37\nREMARK  deltaGcompsolvnonpol: 176.629\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82288\nREMARK  deltaGligsolvnonpol: 12.8337\nREMARK  deltaGvdw: -18.4984\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.154496\nREMARK  Cluster: 27\nREMARK  ClusterRank: 5\n', 237), ({'deltaGligsolvpol': -4.82288, 'surfFull': 176.629, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 176.629, 'SimpleFitness': 244.302, 'InterFull': -18.4984, 'extraFull': 0.0, 'Energy': 244.302, 'solvFull': -1265.37, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 27, 'deltaGligsolvnonpol': 12.8337, 'deltaGcompsolvpol': -1265.37, 'FullFitness': -834.74036, 'deltaG': -6.154496, 'ClusterRank': 6, 'IntraFull': 272.499, 'deltaGvdw': -18.4984}, 'V', ['REMARK  Energy: 244.302\n', 'REMARK  SimpleFitness: 244.302\n', 'REMARK  FullFitness: -834.74036\n', 'REMARK  InterFull: -18.4984\n', 'REMARK  IntraFull: 272.499\n', 'REMARK  solvFull: -1265.37\n', 'REMARK  surfFull: 176.629\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1265.37\n', 'REMARK  deltaGcompsolvnonpol: 176.629\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82288\n', 'REMARK  deltaGligsolvnonpol: 12.8337\n', 'REMARK  deltaGvdw: -18.4984\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.154496\n', 'REMARK  Cluster: 27\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      52.171   5.100  18.826  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      53.644   5.462  18.786  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      51.390   6.118  18.000  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      51.988   3.715  18.231  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      53.970   6.842  19.306  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      54.595   4.552  19.514  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      49.874   5.820  18.019  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      51.748   7.557  18.382  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      50.577   3.423  17.864  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.500   6.791  19.157  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      53.247   7.802  18.377  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      53.517   7.033  20.756  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      55.870   5.369  19.582  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      49.617   4.352  17.785  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      49.229   6.638  16.898  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      49.239   6.220  19.352  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      56.459   7.855  19.744  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      48.220   3.954  17.425  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      47.791   6.255  16.611  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.264   9.253  19.153  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      56.637   7.876  21.259  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      47.704   4.785  16.269  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      55.466  10.223  20.015  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      46.345   4.447  16.020  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      55.294  11.523  19.304  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      54.722  12.714  19.979  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      56.146  12.589  19.782  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      54.299  12.661  21.408  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      54.091  13.771  19.144  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      51.810   5.089  19.857  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      53.944   5.435  17.735  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      51.725   5.993  16.967  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      52.329   2.964  18.948  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      52.605   3.609  17.334  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      54.748   3.605  18.995  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      54.228   4.330  20.520  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      51.351   7.810  19.367  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      51.290   8.256  17.678  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      50.328   2.390  17.655  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      55.675   6.830  18.077  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      53.625   7.676  17.358  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      53.437   8.836  18.664  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      56.624   4.964  18.902  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      56.276   5.307  20.592  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      49.806   6.509  15.978  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      49.256   7.702  17.146  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.436   7.540  19.368  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      47.566   4.083  18.291  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      48.151   2.892  17.163  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      47.403   6.853  15.780  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      47.151   6.479  17.469  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      55.812   9.170  18.161  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.251   9.694  18.989  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      48.280   4.577  15.362  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      55.968  10.388  20.971  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      54.480   9.812  20.231  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      55.142  11.413  18.238  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      54.993  12.084  22.027  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      53.307  12.210  21.487  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      54.247  13.673  21.819  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      46.008   5.105  15.390  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      56.961   6.907  21.641  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      55.725   8.159  21.785  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      57.411   8.597  21.531  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.082   6.408  21.451  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      52.461   6.803  20.907  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      53.657   8.070  21.063  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      49.755   5.758  20.197  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      48.187   5.927  19.415  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      49.265   7.304  19.491  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      53.004  13.659  19.156  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      54.429  13.714  18.106  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      54.342  14.761  19.533  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.238', True, 'REMARK  Energy: 244.302\nREMARK  SimpleFitness: 244.302\nREMARK  FullFitness: -834.74036\nREMARK  InterFull: -18.4984\nREMARK  IntraFull: 272.499\nREMARK  solvFull: -1265.37\nREMARK  surfFull: 176.629\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1265.37\nREMARK  deltaGcompsolvnonpol: 176.629\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82288\nREMARK  deltaGligsolvnonpol: 12.8337\nREMARK  deltaGvdw: -18.4984\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.154496\nREMARK  Cluster: 27\nREMARK  ClusterRank: 6\n', 238), ({'deltaGligsolvpol': -4.82288, 'surfFull': 176.629, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 176.629, 'SimpleFitness': 244.302, 'InterFull': -18.4984, 'extraFull': 0.0, 'Energy': 244.302, 'solvFull': -1265.37, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 27, 'deltaGligsolvnonpol': 12.8337, 'deltaGcompsolvpol': -1265.37, 'FullFitness': -834.74036, 'deltaG': -6.154496, 'ClusterRank': 7, 'IntraFull': 272.499, 'deltaGvdw': -18.4984}, 'V', ['REMARK  Energy: 244.302\n', 'REMARK  SimpleFitness: 244.302\n', 'REMARK  FullFitness: -834.74036\n', 'REMARK  InterFull: -18.4984\n', 'REMARK  IntraFull: 272.499\n', 'REMARK  solvFull: -1265.37\n', 'REMARK  surfFull: 176.629\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1265.37\n', 'REMARK  deltaGcompsolvnonpol: 176.629\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.82288\n', 'REMARK  deltaGligsolvnonpol: 12.8337\n', 'REMARK  deltaGvdw: -18.4984\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.154496\n', 'REMARK  Cluster: 27\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      52.171   5.100  18.826  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      53.644   5.462  18.786  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      51.390   6.118  18.000  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      51.988   3.715  18.231  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      53.970   6.842  19.306  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      54.595   4.552  19.514  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      49.874   5.820  18.019  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      51.748   7.557  18.382  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      50.577   3.423  17.864  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      55.500   6.791  19.157  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      53.247   7.802  18.377  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      53.517   7.033  20.756  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      55.870   5.369  19.582  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      49.617   4.352  17.785  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      49.229   6.638  16.898  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      49.239   6.220  19.352  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      56.459   7.855  19.744  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      48.220   3.954  17.425  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      47.791   6.255  16.611  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      56.264   9.253  19.153  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      56.637   7.876  21.259  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      47.704   4.785  16.269  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      55.466  10.223  20.015  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      46.345   4.447  16.020  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      55.294  11.523  19.304  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      54.722  12.714  19.979  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      56.146  12.589  19.782  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      54.299  12.661  21.408  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      54.091  13.771  19.144  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      51.810   5.089  19.857  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      53.944   5.435  17.735  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      51.725   5.993  16.967  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      52.329   2.964  18.948  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      52.605   3.609  17.334  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      54.748   3.605  18.995  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      54.228   4.330  20.520  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      51.351   7.810  19.367  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      51.290   8.256  17.678  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      50.328   2.390  17.655  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      55.675   6.830  18.077  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      53.625   7.676  17.358  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      53.437   8.836  18.664  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      56.624   4.964  18.902  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      56.276   5.307  20.592  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      49.806   6.509  15.978  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      49.256   7.702  17.146  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      57.436   7.540  19.368  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      47.566   4.083  18.291  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      48.151   2.892  17.163  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      47.403   6.853  15.780  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      47.151   6.479  17.469  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      55.812   9.170  18.161  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      57.251   9.694  18.989  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      48.280   4.577  15.362  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      55.968  10.388  20.971  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      54.480   9.812  20.231  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      55.142  11.413  18.238  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      54.993  12.084  22.027  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      53.307  12.210  21.487  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      54.247  13.673  21.819  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      46.008   5.105  15.390  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      56.961   6.907  21.641  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      55.725   8.159  21.785  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      57.411   8.597  21.531  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      54.082   6.408  21.451  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      52.461   6.803  20.907  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      53.657   8.070  21.063  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      49.755   5.758  20.197  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      48.187   5.927  19.415  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      49.265   7.304  19.491  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      53.004  13.659  19.156  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      54.429  13.714  18.106  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      54.342  14.761  19.533  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.239', True, 'REMARK  Energy: 244.302\nREMARK  SimpleFitness: 244.302\nREMARK  FullFitness: -834.74036\nREMARK  InterFull: -18.4984\nREMARK  IntraFull: 272.499\nREMARK  solvFull: -1265.37\nREMARK  surfFull: 176.629\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1265.37\nREMARK  deltaGcompsolvnonpol: 176.629\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.82288\nREMARK  deltaGligsolvnonpol: 12.8337\nREMARK  deltaGvdw: -18.4984\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.154496\nREMARK  Cluster: 27\nREMARK  ClusterRank: 7\n', 239), ({'deltaGligsolvpol': -4.71675, 'surfFull': 172.579, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.579, 'SimpleFitness': 228.224, 'InterFull': -31.8449, 'extraFull': 0.0, 'Energy': 228.224, 'solvFull': -1244.06, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 28, 'deltaGligsolvnonpol': 12.6201, 'deltaGcompsolvpol': -1244.06, 'FullFitness': -834.21497, 'deltaG': -6.4823256, 'ClusterRank': 0, 'IntraFull': 269.111, 'deltaGvdw': -31.8449}, 'V', ['REMARK  Energy: 228.224\n', 'REMARK  SimpleFitness: 228.224\n', 'REMARK  FullFitness: -834.21497\n', 'REMARK  InterFull: -31.8449\n', 'REMARK  IntraFull: 269.111\n', 'REMARK  solvFull: -1244.06\n', 'REMARK  surfFull: 172.579\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1244.06\n', 'REMARK  deltaGcompsolvnonpol: 172.579\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.71675\n', 'REMARK  deltaGligsolvnonpol: 12.6201\n', 'REMARK  deltaGvdw: -31.8449\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.4823256\n', 'REMARK  Cluster: 28\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      82.061   2.291  10.855  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      80.659   1.840  11.199  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      82.118   2.725   9.394  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      82.386   3.488  11.719  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.125   0.745  10.322  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.383   1.357  12.603  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      83.542   3.176   8.997  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.530   1.663   8.469  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      83.592   4.227  11.264  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.754   0.590  10.966  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.139   1.243   8.901  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.921  -0.558  10.398  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      79.090   0.565  12.455  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      84.132   4.082  10.049  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      83.436   3.936   7.673  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.475   1.978   8.807  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      77.857  -0.522  10.396  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      85.349   4.865   9.670  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      84.707   4.663   7.283  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      76.978  -1.237  11.411  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      76.898   0.140   9.425  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      85.117   5.621   8.379  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.589  -2.535  11.905  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      86.321   6.273   7.997  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      76.610  -3.238  12.787  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      77.008  -4.309  13.732  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.759  -2.962  14.199  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      78.425  -4.743  13.842  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.984  -5.298  14.161  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      82.776   1.488  11.048  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      80.018   2.711  11.051  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      81.461   3.597   9.309  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      82.531   3.140  12.738  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      81.541   4.182  11.735  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      80.268   2.187  13.305  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      81.189   0.712  12.965  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      82.169   0.779   8.432  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.468   2.043   7.447  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      84.039   4.920  11.967  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.224   1.532  10.801  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      79.452   2.077   8.779  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.787   0.444   8.259  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.281   1.014  13.034  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.254  -0.445  12.833  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      82.628   4.671   7.743  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      83.172   3.250   6.865  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.437  -1.264   9.843  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      86.201   4.189   9.553  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      85.642   5.571  10.455  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      84.552   5.212   6.349  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.515   3.953   7.085  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.041  -1.500  10.917  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      76.703  -0.586  12.245  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      84.344   6.384   8.518  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      78.529  -2.338  12.424  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.820  -3.175  11.049  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.611  -3.268  12.370  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.114  -3.896  13.831  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      78.681  -5.408  13.014  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      78.579  -5.286  14.778  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      86.177   6.613   7.097  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.431   0.692   8.649  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.245   0.842   9.951  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      76.265  -0.606   8.939  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      80.793  -1.083  11.346  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.993  -0.397  10.261  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.597  -1.244   9.611  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      84.474   1.327   9.685  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      85.511   2.281   8.630  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      84.177   1.381   7.942  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      76.062  -6.203  13.553  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      74.970  -4.901  14.056  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      76.139  -5.573  15.208  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.240', True, 'REMARK  Energy: 228.224\nREMARK  SimpleFitness: 228.224\nREMARK  FullFitness: -834.21497\nREMARK  InterFull: -31.8449\nREMARK  IntraFull: 269.111\nREMARK  solvFull: -1244.06\nREMARK  surfFull: 172.579\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1244.06\nREMARK  deltaGcompsolvnonpol: 172.579\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.71675\nREMARK  deltaGligsolvnonpol: 12.6201\nREMARK  deltaGvdw: -31.8449\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.4823256\nREMARK  Cluster: 28\nREMARK  ClusterRank: 0\n', 240), ({'deltaGligsolvpol': -4.71675, 'surfFull': 172.579, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.579, 'SimpleFitness': 228.224, 'InterFull': -31.8449, 'extraFull': 0.0, 'Energy': 228.224, 'solvFull': -1244.06, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 28, 'deltaGligsolvnonpol': 12.6201, 'deltaGcompsolvpol': -1244.06, 'FullFitness': -834.21497, 'deltaG': -6.4823256, 'ClusterRank': 1, 'IntraFull': 269.111, 'deltaGvdw': -31.8449}, 'V', ['REMARK  Energy: 228.224\n', 'REMARK  SimpleFitness: 228.224\n', 'REMARK  FullFitness: -834.21497\n', 'REMARK  InterFull: -31.8449\n', 'REMARK  IntraFull: 269.111\n', 'REMARK  solvFull: -1244.06\n', 'REMARK  surfFull: 172.579\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1244.06\n', 'REMARK  deltaGcompsolvnonpol: 172.579\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.71675\n', 'REMARK  deltaGligsolvnonpol: 12.6201\n', 'REMARK  deltaGvdw: -31.8449\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.4823256\n', 'REMARK  Cluster: 28\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      82.061   2.291  10.855  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      80.659   1.840  11.199  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      82.118   2.725   9.394  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      82.386   3.488  11.719  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.125   0.745  10.322  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.383   1.357  12.603  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      83.542   3.176   8.997  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.530   1.663   8.469  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      83.592   4.227  11.264  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.754   0.590  10.966  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.139   1.243   8.901  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.921  -0.558  10.398  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      79.090   0.565  12.455  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      84.132   4.082  10.049  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      83.436   3.936   7.673  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.475   1.978   8.807  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      77.857  -0.522  10.396  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      85.349   4.865   9.670  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      84.707   4.663   7.283  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      76.978  -1.237  11.411  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      76.898   0.140   9.425  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      85.117   5.621   8.379  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.589  -2.535  11.905  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      86.321   6.273   7.997  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      76.610  -3.238  12.787  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      77.008  -4.309  13.732  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.759  -2.962  14.199  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      78.425  -4.743  13.842  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.984  -5.298  14.161  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      82.776   1.488  11.048  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      80.018   2.711  11.051  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      81.461   3.597   9.309  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      82.531   3.140  12.738  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      81.541   4.182  11.735  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      80.268   2.187  13.305  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      81.189   0.712  12.965  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      82.169   0.779   8.432  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.468   2.043   7.447  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      84.039   4.920  11.967  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.224   1.532  10.801  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      79.452   2.077   8.779  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.787   0.444   8.259  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.281   1.014  13.034  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.254  -0.445  12.833  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      82.628   4.671   7.743  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      83.172   3.250   6.865  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.437  -1.264   9.843  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      86.201   4.189   9.553  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      85.642   5.571  10.455  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      84.552   5.212   6.349  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.515   3.953   7.085  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.041  -1.500  10.917  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      76.703  -0.586  12.245  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      84.344   6.384   8.518  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      78.529  -2.338  12.424  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.820  -3.175  11.049  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.611  -3.268  12.370  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.114  -3.896  13.831  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      78.681  -5.408  13.014  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      78.579  -5.286  14.778  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      86.177   6.613   7.097  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.431   0.692   8.649  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.245   0.842   9.951  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      76.265  -0.606   8.939  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      80.793  -1.083  11.346  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.993  -0.397  10.261  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.597  -1.244   9.611  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      84.474   1.327   9.685  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      85.511   2.281   8.630  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      84.177   1.381   7.942  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      76.062  -6.203  13.553  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      74.970  -4.901  14.056  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      76.139  -5.573  15.208  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.241', True, 'REMARK  Energy: 228.224\nREMARK  SimpleFitness: 228.224\nREMARK  FullFitness: -834.21497\nREMARK  InterFull: -31.8449\nREMARK  IntraFull: 269.111\nREMARK  solvFull: -1244.06\nREMARK  surfFull: 172.579\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1244.06\nREMARK  deltaGcompsolvnonpol: 172.579\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.71675\nREMARK  deltaGligsolvnonpol: 12.6201\nREMARK  deltaGvdw: -31.8449\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.4823256\nREMARK  Cluster: 28\nREMARK  ClusterRank: 1\n', 241), ({'deltaGligsolvpol': -4.71675, 'surfFull': 172.579, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.579, 'SimpleFitness': 228.224, 'InterFull': -31.8449, 'extraFull': 0.0, 'Energy': 228.224, 'solvFull': -1244.06, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 28, 'deltaGligsolvnonpol': 12.6201, 'deltaGcompsolvpol': -1244.06, 'FullFitness': -834.21497, 'deltaG': -6.4823256, 'ClusterRank': 2, 'IntraFull': 269.111, 'deltaGvdw': -31.8449}, 'V', ['REMARK  Energy: 228.224\n', 'REMARK  SimpleFitness: 228.224\n', 'REMARK  FullFitness: -834.21497\n', 'REMARK  InterFull: -31.8449\n', 'REMARK  IntraFull: 269.111\n', 'REMARK  solvFull: -1244.06\n', 'REMARK  surfFull: 172.579\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1244.06\n', 'REMARK  deltaGcompsolvnonpol: 172.579\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.71675\n', 'REMARK  deltaGligsolvnonpol: 12.6201\n', 'REMARK  deltaGvdw: -31.8449\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.4823256\n', 'REMARK  Cluster: 28\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      82.061   2.291  10.855  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      80.659   1.840  11.199  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      82.118   2.725   9.394  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      82.386   3.488  11.719  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.125   0.745  10.322  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.383   1.357  12.603  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      83.542   3.176   8.997  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.530   1.663   8.469  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      83.592   4.227  11.264  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.754   0.590  10.966  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.139   1.243   8.901  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.921  -0.558  10.398  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      79.090   0.565  12.455  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      84.132   4.082  10.049  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      83.436   3.936   7.673  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.475   1.978   8.807  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      77.857  -0.522  10.396  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      85.349   4.865   9.670  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      84.707   4.663   7.283  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      76.978  -1.237  11.411  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      76.898   0.140   9.425  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      85.117   5.621   8.379  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.589  -2.535  11.905  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      86.321   6.273   7.997  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      76.610  -3.238  12.787  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      77.008  -4.309  13.732  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.759  -2.962  14.199  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      78.425  -4.743  13.842  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.984  -5.298  14.161  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      82.776   1.488  11.048  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      80.018   2.711  11.051  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      81.461   3.597   9.309  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      82.531   3.140  12.738  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      81.541   4.182  11.735  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      80.268   2.187  13.305  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      81.189   0.712  12.965  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      82.169   0.779   8.432  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.468   2.043   7.447  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      84.039   4.920  11.967  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.224   1.532  10.801  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      79.452   2.077   8.779  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.787   0.444   8.259  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.281   1.014  13.034  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.254  -0.445  12.833  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      82.628   4.671   7.743  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      83.172   3.250   6.865  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.437  -1.264   9.843  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      86.201   4.189   9.553  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      85.642   5.571  10.455  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      84.552   5.212   6.349  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.515   3.953   7.085  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.041  -1.500  10.917  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      76.703  -0.586  12.245  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      84.344   6.384   8.518  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      78.529  -2.338  12.424  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.820  -3.175  11.049  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.611  -3.268  12.370  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.114  -3.896  13.831  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      78.681  -5.408  13.014  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      78.579  -5.286  14.778  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      86.177   6.613   7.097  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.431   0.692   8.649  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.245   0.842   9.951  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      76.265  -0.606   8.939  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      80.793  -1.083  11.346  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.993  -0.397  10.261  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.597  -1.244   9.611  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      84.474   1.327   9.685  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      85.511   2.281   8.630  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      84.177   1.381   7.942  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      76.062  -6.203  13.553  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      74.970  -4.901  14.056  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      76.139  -5.573  15.208  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.242', True, 'REMARK  Energy: 228.224\nREMARK  SimpleFitness: 228.224\nREMARK  FullFitness: -834.21497\nREMARK  InterFull: -31.8449\nREMARK  IntraFull: 269.111\nREMARK  solvFull: -1244.06\nREMARK  surfFull: 172.579\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1244.06\nREMARK  deltaGcompsolvnonpol: 172.579\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.71675\nREMARK  deltaGligsolvnonpol: 12.6201\nREMARK  deltaGvdw: -31.8449\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.4823256\nREMARK  Cluster: 28\nREMARK  ClusterRank: 2\n', 242), ({'deltaGligsolvpol': -4.71266, 'surfFull': 172.55, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.55, 'SimpleFitness': 228.315, 'InterFull': -31.8858, 'extraFull': 0.0, 'Energy': 228.315, 'solvFull': -1244.17, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 28, 'deltaGligsolvnonpol': 12.6158, 'deltaGcompsolvpol': -1244.17, 'FullFitness': -834.13586, 'deltaG': -6.495512, 'ClusterRank': 3, 'IntraFull': 269.37, 'deltaGvdw': -31.8858}, 'V', ['REMARK  Energy: 228.315\n', 'REMARK  SimpleFitness: 228.315\n', 'REMARK  FullFitness: -834.13586\n', 'REMARK  InterFull: -31.8858\n', 'REMARK  IntraFull: 269.37\n', 'REMARK  solvFull: -1244.17\n', 'REMARK  surfFull: 172.55\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1244.17\n', 'REMARK  deltaGcompsolvnonpol: 172.55\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.71266\n', 'REMARK  deltaGligsolvnonpol: 12.6158\n', 'REMARK  deltaGvdw: -31.8858\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.495512\n', 'REMARK  Cluster: 28\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      81.971   2.281  10.906  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      80.581   1.793  11.242  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      82.016   2.740   9.453  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      82.264   3.471  11.791  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.075   0.698  10.350  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.314   1.287  12.639  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      83.425   3.239   9.064  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.462   1.673   8.513  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      83.446   4.252  11.349  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.706   0.509  10.989  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.082   1.207   8.934  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.897  -0.590  10.415  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      79.039   0.471  12.479  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      83.988   4.144  10.131  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      83.294   4.018   7.754  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.392   2.072   8.850  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      77.828  -0.607  10.401  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      85.181   4.969   9.767  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      84.543   4.790   7.376  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      76.953  -1.347  11.401  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      76.863   0.063   9.440  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      84.924   5.741   8.489  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.581  -2.634  11.905  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      86.108   6.436   8.118  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      76.589  -3.365  12.749  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      76.980  -4.379  13.757  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.633  -3.032  14.156  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      78.409  -4.731  13.973  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.983  -5.407  14.156  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      82.706   1.493  11.086  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      79.919   2.650  11.103  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      81.333   3.593   9.380  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      82.420   3.107  12.803  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      81.399   4.139  11.822  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      80.182   2.106  13.352  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      81.133   0.654  12.993  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      82.126   0.808   8.468  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.392   2.063   7.495  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      83.872   4.947  12.063  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.161   1.446  10.837  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      79.367   2.018   8.813  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.763   0.400   8.284  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.219   0.895  13.062  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.223  -0.540  12.844  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      82.465   4.728   7.836  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      83.051   3.338   6.934  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.419  -1.332   9.839  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      86.053   4.321   9.638  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      85.453   5.670  10.563  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      84.372   5.349   6.452  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.372   4.107   7.167  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.030  -1.630  10.891  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      76.650  -0.703  12.231  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      84.129   6.476   8.642  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      78.498  -2.418  12.455  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.855  -3.262  11.052  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.621  -3.459  12.274  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.046  -3.845  14.010  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      78.763  -5.380  13.169  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      78.523  -5.265  14.920  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      85.953   6.787   7.225  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.392   0.623   8.667  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.211   0.758   9.975  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      76.230  -0.679   8.950  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      80.786  -1.121  11.361  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.964  -0.405  10.273  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.584  -1.278   9.626  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      84.410   1.404   9.716  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      85.418   2.408   8.679  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      84.111   1.484   7.973  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      76.140  -6.322  13.581  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      74.958  -5.064  13.983  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      76.091  -5.645  15.218  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.243', True, 'REMARK  Energy: 228.315\nREMARK  SimpleFitness: 228.315\nREMARK  FullFitness: -834.13586\nREMARK  InterFull: -31.8858\nREMARK  IntraFull: 269.37\nREMARK  solvFull: -1244.17\nREMARK  surfFull: 172.55\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1244.17\nREMARK  deltaGcompsolvnonpol: 172.55\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.71266\nREMARK  deltaGligsolvnonpol: 12.6158\nREMARK  deltaGvdw: -31.8858\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.495512\nREMARK  Cluster: 28\nREMARK  ClusterRank: 3\n', 243), ({'deltaGligsolvpol': -4.71266, 'surfFull': 172.55, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.55, 'SimpleFitness': 228.315, 'InterFull': -31.8858, 'extraFull': 0.0, 'Energy': 228.315, 'solvFull': -1244.17, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 28, 'deltaGligsolvnonpol': 12.6158, 'deltaGcompsolvpol': -1244.17, 'FullFitness': -834.13586, 'deltaG': -6.495512, 'ClusterRank': 4, 'IntraFull': 269.37, 'deltaGvdw': -31.8858}, 'V', ['REMARK  Energy: 228.315\n', 'REMARK  SimpleFitness: 228.315\n', 'REMARK  FullFitness: -834.13586\n', 'REMARK  InterFull: -31.8858\n', 'REMARK  IntraFull: 269.37\n', 'REMARK  solvFull: -1244.17\n', 'REMARK  surfFull: 172.55\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1244.17\n', 'REMARK  deltaGcompsolvnonpol: 172.55\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.71266\n', 'REMARK  deltaGligsolvnonpol: 12.6158\n', 'REMARK  deltaGvdw: -31.8858\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.495512\n', 'REMARK  Cluster: 28\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      81.971   2.281  10.906  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      80.581   1.793  11.242  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      82.016   2.740   9.453  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      82.264   3.471  11.791  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.075   0.698  10.350  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.314   1.287  12.639  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      83.425   3.239   9.064  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.462   1.673   8.513  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      83.446   4.252  11.349  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.706   0.509  10.989  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.082   1.207   8.934  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.897  -0.590  10.415  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      79.039   0.471  12.479  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      83.988   4.144  10.131  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      83.294   4.018   7.754  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.392   2.072   8.850  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      77.828  -0.607  10.401  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      85.181   4.969   9.767  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      84.543   4.790   7.376  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      76.953  -1.347  11.401  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      76.863   0.063   9.440  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      84.924   5.741   8.489  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.581  -2.634  11.905  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      86.108   6.436   8.118  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      76.589  -3.365  12.749  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      76.980  -4.379  13.757  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.633  -3.032  14.156  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      78.409  -4.731  13.973  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.983  -5.407  14.156  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      82.706   1.493  11.086  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      79.919   2.650  11.103  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      81.333   3.593   9.380  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      82.420   3.107  12.803  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      81.399   4.139  11.822  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      80.182   2.106  13.352  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      81.133   0.654  12.993  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      82.126   0.808   8.468  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.392   2.063   7.495  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      83.872   4.947  12.063  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.161   1.446  10.837  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      79.367   2.018   8.813  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.763   0.400   8.284  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.219   0.895  13.062  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.223  -0.540  12.844  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      82.465   4.728   7.836  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      83.051   3.338   6.934  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.419  -1.332   9.839  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      86.053   4.321   9.638  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      85.453   5.670  10.563  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      84.372   5.349   6.452  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.372   4.107   7.167  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.030  -1.630  10.891  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      76.650  -0.703  12.231  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      84.129   6.476   8.642  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      78.498  -2.418  12.455  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.855  -3.262  11.052  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.621  -3.459  12.274  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.046  -3.845  14.010  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      78.763  -5.380  13.169  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      78.523  -5.265  14.920  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      85.953   6.787   7.225  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.392   0.623   8.667  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.211   0.758   9.975  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      76.230  -0.679   8.950  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      80.786  -1.121  11.361  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.964  -0.405  10.273  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.584  -1.278   9.626  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      84.410   1.404   9.716  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      85.418   2.408   8.679  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      84.111   1.484   7.973  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      76.140  -6.322  13.581  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      74.958  -5.064  13.983  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      76.091  -5.645  15.218  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.244', True, 'REMARK  Energy: 228.315\nREMARK  SimpleFitness: 228.315\nREMARK  FullFitness: -834.13586\nREMARK  InterFull: -31.8858\nREMARK  IntraFull: 269.37\nREMARK  solvFull: -1244.17\nREMARK  surfFull: 172.55\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1244.17\nREMARK  deltaGcompsolvnonpol: 172.55\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.71266\nREMARK  deltaGligsolvnonpol: 12.6158\nREMARK  deltaGvdw: -31.8858\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.495512\nREMARK  Cluster: 28\nREMARK  ClusterRank: 4\n', 244), ({'deltaGligsolvpol': -4.71162, 'surfFull': 172.55, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.55, 'SimpleFitness': 228.327, 'InterFull': -31.8893, 'extraFull': 0.0, 'Energy': 228.327, 'solvFull': -1244.19, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 28, 'deltaGligsolvnonpol': 12.6133, 'deltaGcompsolvpol': -1244.19, 'FullFitness': -834.12427, 'deltaG': -6.496888, 'ClusterRank': 5, 'IntraFull': 269.405, 'deltaGvdw': -31.8893}, 'V', ['REMARK  Energy: 228.327\n', 'REMARK  SimpleFitness: 228.327\n', 'REMARK  FullFitness: -834.12427\n', 'REMARK  InterFull: -31.8893\n', 'REMARK  IntraFull: 269.405\n', 'REMARK  solvFull: -1244.19\n', 'REMARK  surfFull: 172.55\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1244.19\n', 'REMARK  deltaGcompsolvnonpol: 172.55\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.71162\n', 'REMARK  deltaGligsolvnonpol: 12.6133\n', 'REMARK  deltaGvdw: -31.8893\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.496888\n', 'REMARK  Cluster: 28\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      81.970   2.281  10.908  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      80.582   1.784  11.244  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      82.012   2.741   9.455  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      82.256   3.473  11.792  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.077   0.691  10.349  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.319   1.271  12.640  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      83.420   3.246   9.067  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.460   1.675   8.513  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      83.432   4.264  11.349  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.710   0.498  10.990  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.082   1.207   8.935  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.903  -0.595  10.406  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      79.047   0.451  12.478  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      83.976   4.158  10.131  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      83.287   4.019   7.753  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.395   2.084   8.862  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      77.831  -0.617  10.399  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      85.162   4.992   9.765  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      84.528   4.800   7.374  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      76.957  -1.359  11.399  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      76.865   0.054   9.439  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      84.901   5.757   8.485  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.583  -2.651  11.890  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      86.080   6.460   8.112  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      76.590  -3.389  12.727  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      76.978  -4.392  13.747  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.614  -3.046  14.132  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      78.407  -4.730  13.985  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.984  -5.425  14.142  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      82.709   1.496  11.088  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      79.916   2.640  11.110  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      81.327   3.592   9.383  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      82.416   3.111  12.804  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      81.386   4.135  11.824  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      80.185   2.087  13.356  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      81.141   0.640  12.990  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      82.127   0.812   8.467  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.389   2.066   7.496  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      83.851   4.964  12.062  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.163   1.434  10.844  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      79.367   2.019   8.820  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.761   0.404   8.282  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.227   0.867  13.067  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.236  -0.562  12.835  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      82.450   4.720   7.830  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      83.052   3.332   6.935  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.422  -1.341   9.835  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      86.039   4.350   9.638  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      85.429   5.697  10.560  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      84.352   5.356   6.449  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.363   4.125   7.166  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.030  -1.635  10.892  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      76.661  -0.719  12.234  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      84.100   6.488   8.634  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      78.501  -2.442  12.442  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.856  -3.272  11.033  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.628  -3.495  12.241  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.035  -3.838  14.031  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      78.781  -5.377  13.187  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      78.512  -5.262  14.934  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      85.923   6.806   7.217  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.393   0.611   8.663  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.217   0.753   9.975  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      76.228  -0.686   8.953  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      80.797  -1.128  11.352  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.968  -0.408  10.259  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.586  -1.282   9.618  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      84.418   1.424   9.733  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      85.419   2.427   8.689  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      84.119   1.487   7.991  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      76.154  -6.344  13.575  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      74.959  -5.091  13.954  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      76.081  -5.655  15.206  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.245', True, 'REMARK  Energy: 228.327\nREMARK  SimpleFitness: 228.327\nREMARK  FullFitness: -834.12427\nREMARK  InterFull: -31.8893\nREMARK  IntraFull: 269.405\nREMARK  solvFull: -1244.19\nREMARK  surfFull: 172.55\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1244.19\nREMARK  deltaGcompsolvnonpol: 172.55\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.71162\nREMARK  deltaGligsolvnonpol: 12.6133\nREMARK  deltaGvdw: -31.8893\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.496888\nREMARK  Cluster: 28\nREMARK  ClusterRank: 5\n', 245), ({'deltaGligsolvpol': -4.71162, 'surfFull': 172.55, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.55, 'SimpleFitness': 228.327, 'InterFull': -31.8893, 'extraFull': 0.0, 'Energy': 228.327, 'solvFull': -1244.19, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 28, 'deltaGligsolvnonpol': 12.6133, 'deltaGcompsolvpol': -1244.19, 'FullFitness': -834.12427, 'deltaG': -6.496888, 'ClusterRank': 6, 'IntraFull': 269.405, 'deltaGvdw': -31.8893}, 'V', ['REMARK  Energy: 228.327\n', 'REMARK  SimpleFitness: 228.327\n', 'REMARK  FullFitness: -834.12427\n', 'REMARK  InterFull: -31.8893\n', 'REMARK  IntraFull: 269.405\n', 'REMARK  solvFull: -1244.19\n', 'REMARK  surfFull: 172.55\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1244.19\n', 'REMARK  deltaGcompsolvnonpol: 172.55\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.71162\n', 'REMARK  deltaGligsolvnonpol: 12.6133\n', 'REMARK  deltaGvdw: -31.8893\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.496888\n', 'REMARK  Cluster: 28\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      81.970   2.281  10.908  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      80.582   1.784  11.244  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      82.012   2.741   9.455  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      82.256   3.473  11.792  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.077   0.691  10.349  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.319   1.271  12.640  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      83.420   3.246   9.067  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.460   1.675   8.513  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      83.432   4.264  11.349  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.710   0.498  10.990  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.082   1.207   8.935  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.903  -0.595  10.406  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      79.047   0.451  12.478  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      83.976   4.158  10.131  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      83.287   4.019   7.753  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.395   2.084   8.862  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      77.831  -0.617  10.399  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      85.162   4.992   9.765  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      84.528   4.800   7.374  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      76.957  -1.359  11.399  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      76.865   0.054   9.439  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      84.901   5.757   8.485  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.583  -2.651  11.890  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      86.080   6.460   8.112  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      76.590  -3.389  12.727  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      76.978  -4.392  13.747  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.614  -3.046  14.132  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      78.407  -4.730  13.985  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.984  -5.425  14.142  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      82.709   1.496  11.088  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      79.916   2.640  11.110  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      81.327   3.592   9.383  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      82.416   3.111  12.804  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      81.386   4.135  11.824  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      80.185   2.087  13.356  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      81.141   0.640  12.990  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      82.127   0.812   8.467  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.389   2.066   7.496  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      83.851   4.964  12.062  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.163   1.434  10.844  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      79.367   2.019   8.820  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.761   0.404   8.282  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.227   0.867  13.067  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.236  -0.562  12.835  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      82.450   4.720   7.830  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      83.052   3.332   6.935  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.422  -1.341   9.835  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      86.039   4.350   9.638  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      85.429   5.697  10.560  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      84.352   5.356   6.449  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.363   4.125   7.166  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.030  -1.635  10.892  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      76.661  -0.719  12.234  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      84.100   6.488   8.634  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      78.501  -2.442  12.442  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.856  -3.272  11.033  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.628  -3.495  12.241  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.035  -3.838  14.031  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      78.781  -5.377  13.187  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      78.512  -5.262  14.934  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      85.923   6.806   7.217  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.393   0.611   8.663  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.217   0.753   9.975  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      76.228  -0.686   8.953  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      80.797  -1.128  11.352  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.968  -0.408  10.259  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.586  -1.282   9.618  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      84.418   1.424   9.733  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      85.419   2.427   8.689  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      84.119   1.487   7.991  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      76.154  -6.344  13.575  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      74.959  -5.091  13.954  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      76.081  -5.655  15.206  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.246', True, 'REMARK  Energy: 228.327\nREMARK  SimpleFitness: 228.327\nREMARK  FullFitness: -834.12427\nREMARK  InterFull: -31.8893\nREMARK  IntraFull: 269.405\nREMARK  solvFull: -1244.19\nREMARK  surfFull: 172.55\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1244.19\nREMARK  deltaGcompsolvnonpol: 172.55\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.71162\nREMARK  deltaGligsolvnonpol: 12.6133\nREMARK  deltaGvdw: -31.8893\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.496888\nREMARK  Cluster: 28\nREMARK  ClusterRank: 6\n', 246), ({'deltaGligsolvpol': -4.71162, 'surfFull': 172.55, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 172.55, 'SimpleFitness': 228.327, 'InterFull': -31.8893, 'extraFull': 0.0, 'Energy': 228.327, 'solvFull': -1244.19, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 28, 'deltaGligsolvnonpol': 12.6133, 'deltaGcompsolvpol': -1244.19, 'FullFitness': -834.12427, 'deltaG': -6.496888, 'ClusterRank': 7, 'IntraFull': 269.405, 'deltaGvdw': -31.8893}, 'V', ['REMARK  Energy: 228.327\n', 'REMARK  SimpleFitness: 228.327\n', 'REMARK  FullFitness: -834.12427\n', 'REMARK  InterFull: -31.8893\n', 'REMARK  IntraFull: 269.405\n', 'REMARK  solvFull: -1244.19\n', 'REMARK  surfFull: 172.55\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1244.19\n', 'REMARK  deltaGcompsolvnonpol: 172.55\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.71162\n', 'REMARK  deltaGligsolvnonpol: 12.6133\n', 'REMARK  deltaGvdw: -31.8893\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.496888\n', 'REMARK  Cluster: 28\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      81.970   2.281  10.908  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      80.582   1.784  11.244  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      82.012   2.741   9.455  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      82.256   3.473  11.792  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      80.077   0.691  10.349  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      80.319   1.271  12.640  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      83.420   3.246   9.067  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      81.460   1.675   8.513  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      83.432   4.264  11.349  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      78.710   0.498  10.990  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      80.082   1.207   8.935  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      80.903  -0.595  10.406  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      79.047   0.451  12.478  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      83.976   4.158  10.131  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      83.287   4.019   7.753  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      84.395   2.084   8.862  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      77.831  -0.617  10.399  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      85.162   4.992   9.765  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      84.528   4.800   7.374  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      76.957  -1.359  11.399  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      76.865   0.054   9.439  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      84.901   5.757   8.485  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      77.583  -2.651  11.890  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      86.080   6.460   8.112  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      76.590  -3.389  12.727  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      76.978  -4.392  13.747  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      76.614  -3.046  14.132  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      78.407  -4.730  13.985  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      75.984  -5.425  14.142  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      82.709   1.496  11.088  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      79.916   2.640  11.110  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      81.327   3.592   9.383  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      82.416   3.111  12.804  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      81.386   4.135  11.824  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      80.185   2.087  13.356  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      81.141   0.640  12.990  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      82.127   0.812   8.467  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      81.389   2.066   7.496  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      83.851   4.964  12.062  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      78.163   1.434  10.844  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      79.367   2.019   8.820  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      79.761   0.404   8.282  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.227   0.867  13.067  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.236  -0.562  12.835  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      82.450   4.720   7.830  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      83.052   3.332   6.935  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      78.422  -1.341   9.835  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      86.039   4.350   9.638  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      85.429   5.697  10.560  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      84.352   5.356   6.449  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      85.363   4.125   7.166  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.030  -1.635  10.892  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      76.661  -0.719  12.234  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      84.100   6.488   8.634  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      78.501  -2.442  12.442  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      77.856  -3.272  11.033  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      75.628  -3.495  12.241  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      79.035  -3.838  14.031  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      78.781  -5.377  13.187  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      78.512  -5.262  14.934  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      85.923   6.806   7.217  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.393   0.611   8.663  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      76.217   0.753   9.975  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      76.228  -0.686   8.953  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      80.797  -1.128  11.352  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      81.968  -0.408  10.259  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      80.586  -1.282   9.618  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      84.418   1.424   9.733  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      85.419   2.427   8.689  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      84.119   1.487   7.991  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      76.154  -6.344  13.575  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      74.959  -5.091  13.954  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      76.081  -5.655  15.206  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.247', True, 'REMARK  Energy: 228.327\nREMARK  SimpleFitness: 228.327\nREMARK  FullFitness: -834.12427\nREMARK  InterFull: -31.8893\nREMARK  IntraFull: 269.405\nREMARK  solvFull: -1244.19\nREMARK  surfFull: 172.55\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1244.19\nREMARK  deltaGcompsolvnonpol: 172.55\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.71162\nREMARK  deltaGligsolvnonpol: 12.6133\nREMARK  deltaGvdw: -31.8893\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.496888\nREMARK  Cluster: 28\nREMARK  ClusterRank: 7\n', 247), ({'deltaGligsolvpol': -4.79893, 'surfFull': 169.664, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 169.664, 'SimpleFitness': 244.185, 'InterFull': -40.2447, 'extraFull': 0.0, 'Energy': 244.185, 'solvFull': -1252.5, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 29, 'deltaGligsolvnonpol': 12.8762, 'deltaGcompsolvpol': -1252.5, 'FullFitness': -831.7807, 'deltaG': -8.088428, 'ClusterRank': 0, 'IntraFull': 291.3, 'deltaGvdw': -40.2447}, 'V', ['REMARK  Energy: 244.185\n', 'REMARK  SimpleFitness: 244.185\n', 'REMARK  FullFitness: -831.7807\n', 'REMARK  InterFull: -40.2447\n', 'REMARK  IntraFull: 291.3\n', 'REMARK  solvFull: -1252.5\n', 'REMARK  surfFull: 169.664\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.5\n', 'REMARK  deltaGcompsolvnonpol: 169.664\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79893\n', 'REMARK  deltaGligsolvnonpol: 12.8762\n', 'REMARK  deltaGvdw: -40.2447\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.088428\n', 'REMARK  Cluster: 29\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      76.798  -4.510  15.433  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.116  -4.190  14.003  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      75.571  -5.369  15.443  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.962  -5.280  15.930  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.161  -3.237  13.355  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      78.482  -3.660  13.717  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      75.298  -5.906  16.881  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      74.449  -4.589  14.730  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.749  -6.032  17.174  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      76.912  -3.035  12.003  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      74.855  -4.038  13.341  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      75.955  -1.961  14.163  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      78.374  -3.372  12.261  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      76.538  -6.289  17.640  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      74.499  -7.180  16.712  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      74.511  -4.886  17.695  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      76.785  -1.786  11.096  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      76.419  -7.139  18.858  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      74.488  -8.198  17.847  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.018  -0.356  11.605  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.670  -1.972   9.876  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.852  -8.465  18.421  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      78.373  -0.073  12.232  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.725  -9.327  19.545  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      78.611   1.391  12.308  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      79.935   1.942  12.671  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      79.510   1.891  11.292  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      81.077   1.044  12.994  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      80.005   3.316  13.219  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      76.666  -3.623  16.056  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      77.058  -5.133  13.448  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      75.800  -6.230  14.809  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      78.718  -4.525  16.117  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.328  -5.962  15.161  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.282  -4.383  13.891  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.681  -2.749  14.288  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      74.128  -3.746  15.346  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      73.576  -5.237  14.615  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      78.615  -6.397  17.712  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      76.552  -3.851  11.369  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      74.973  -4.886  12.666  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      74.044  -3.427  12.940  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.642  -4.268  11.694  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.091  -2.597  11.998  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      74.847  -7.709  15.820  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      73.478  -6.862  16.523  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      75.773  -1.802  10.713  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      75.772  -6.666  19.603  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      77.381  -7.298  19.360  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      74.030  -9.133  17.511  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      73.865  -7.842  18.657  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.231  -0.058  12.299  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      76.894   0.311  10.746  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.495  -8.952  17.681  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      79.169  -0.542  11.651  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.417  -0.497  13.237  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      77.725   1.964  12.553  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.135   0.187  12.317  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      80.978   0.672  14.015  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.019   1.593  12.920  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.119  -8.883  20.163  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.550  -2.979   9.470  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.731  -1.822  10.083  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      77.392  -1.250   9.104  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      76.891  -1.426  14.324  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      75.528  -2.151  15.147  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      75.254  -1.298  13.654  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      75.009  -3.913  17.680  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      74.409  -5.180  18.740  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      73.501  -4.759  17.297  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      80.048   3.285  14.309  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      79.139   3.916  12.924  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      80.908   3.808  12.852  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.248', True, 'REMARK  Energy: 244.185\nREMARK  SimpleFitness: 244.185\nREMARK  FullFitness: -831.7807\nREMARK  InterFull: -40.2447\nREMARK  IntraFull: 291.3\nREMARK  solvFull: -1252.5\nREMARK  surfFull: 169.664\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.5\nREMARK  deltaGcompsolvnonpol: 169.664\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79893\nREMARK  deltaGligsolvnonpol: 12.8762\nREMARK  deltaGvdw: -40.2447\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.088428\nREMARK  Cluster: 29\nREMARK  ClusterRank: 0\n', 248), ({'deltaGligsolvpol': -4.79893, 'surfFull': 169.664, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 169.664, 'SimpleFitness': 244.185, 'InterFull': -40.2447, 'extraFull': 0.0, 'Energy': 244.185, 'solvFull': -1252.5, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 29, 'deltaGligsolvnonpol': 12.8762, 'deltaGcompsolvpol': -1252.5, 'FullFitness': -831.7807, 'deltaG': -8.088428, 'ClusterRank': 1, 'IntraFull': 291.3, 'deltaGvdw': -40.2447}, 'V', ['REMARK  Energy: 244.185\n', 'REMARK  SimpleFitness: 244.185\n', 'REMARK  FullFitness: -831.7807\n', 'REMARK  InterFull: -40.2447\n', 'REMARK  IntraFull: 291.3\n', 'REMARK  solvFull: -1252.5\n', 'REMARK  surfFull: 169.664\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.5\n', 'REMARK  deltaGcompsolvnonpol: 169.664\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79893\n', 'REMARK  deltaGligsolvnonpol: 12.8762\n', 'REMARK  deltaGvdw: -40.2447\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.088428\n', 'REMARK  Cluster: 29\n', 'REMARK  ClusterRank: 1\n'], ['ATOM   3191 C1   LIG     1      76.798  -4.510  15.433  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.116  -4.190  14.003  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      75.571  -5.369  15.443  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.962  -5.280  15.930  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.161  -3.237  13.355  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      78.482  -3.660  13.717  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      75.298  -5.906  16.881  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      74.449  -4.589  14.730  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.749  -6.032  17.174  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      76.912  -3.035  12.003  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      74.855  -4.038  13.341  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      75.955  -1.961  14.163  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      78.374  -3.372  12.261  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      76.538  -6.289  17.640  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      74.499  -7.180  16.712  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      74.511  -4.886  17.695  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      76.785  -1.786  11.096  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      76.419  -7.139  18.858  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      74.488  -8.198  17.847  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.018  -0.356  11.605  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.670  -1.972   9.876  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.852  -8.465  18.421  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      78.373  -0.073  12.232  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.725  -9.327  19.545  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      78.611   1.391  12.308  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      79.935   1.942  12.671  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      79.510   1.891  11.292  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      81.077   1.044  12.994  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      80.005   3.316  13.219  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      76.666  -3.623  16.056  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      77.058  -5.133  13.448  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      75.800  -6.230  14.809  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      78.718  -4.525  16.117  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.328  -5.962  15.161  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.282  -4.383  13.891  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.681  -2.749  14.288  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      74.128  -3.746  15.346  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      73.576  -5.237  14.615  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      78.615  -6.397  17.712  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      76.552  -3.851  11.369  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      74.973  -4.886  12.666  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      74.044  -3.427  12.940  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.642  -4.268  11.694  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.091  -2.597  11.998  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      74.847  -7.709  15.820  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      73.478  -6.862  16.523  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      75.773  -1.802  10.713  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      75.772  -6.666  19.603  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      77.381  -7.298  19.360  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      74.030  -9.133  17.511  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      73.865  -7.842  18.657  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.231  -0.058  12.299  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      76.894   0.311  10.746  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.495  -8.952  17.681  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      79.169  -0.542  11.651  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.417  -0.497  13.237  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      77.725   1.964  12.553  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.135   0.187  12.317  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      80.978   0.672  14.015  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.019   1.593  12.920  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.119  -8.883  20.163  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.550  -2.979   9.470  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.731  -1.822  10.083  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      77.392  -1.250   9.104  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      76.891  -1.426  14.324  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      75.528  -2.151  15.147  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      75.254  -1.298  13.654  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      75.009  -3.913  17.680  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      74.409  -5.180  18.740  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      73.501  -4.759  17.297  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      80.048   3.285  14.309  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      79.139   3.916  12.924  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      80.908   3.808  12.852  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.249', True, 'REMARK  Energy: 244.185\nREMARK  SimpleFitness: 244.185\nREMARK  FullFitness: -831.7807\nREMARK  InterFull: -40.2447\nREMARK  IntraFull: 291.3\nREMARK  solvFull: -1252.5\nREMARK  surfFull: 169.664\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.5\nREMARK  deltaGcompsolvnonpol: 169.664\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79893\nREMARK  deltaGligsolvnonpol: 12.8762\nREMARK  deltaGvdw: -40.2447\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.088428\nREMARK  Cluster: 29\nREMARK  ClusterRank: 1\n', 249), ({'deltaGligsolvpol': -4.79893, 'surfFull': 169.664, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 169.664, 'SimpleFitness': 244.185, 'InterFull': -40.2447, 'extraFull': 0.0, 'Energy': 244.185, 'solvFull': -1252.5, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 29, 'deltaGligsolvnonpol': 12.8762, 'deltaGcompsolvpol': -1252.5, 'FullFitness': -831.7807, 'deltaG': -8.088428, 'ClusterRank': 2, 'IntraFull': 291.3, 'deltaGvdw': -40.2447}, 'V', ['REMARK  Energy: 244.185\n', 'REMARK  SimpleFitness: 244.185\n', 'REMARK  FullFitness: -831.7807\n', 'REMARK  InterFull: -40.2447\n', 'REMARK  IntraFull: 291.3\n', 'REMARK  solvFull: -1252.5\n', 'REMARK  surfFull: 169.664\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.5\n', 'REMARK  deltaGcompsolvnonpol: 169.664\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79893\n', 'REMARK  deltaGligsolvnonpol: 12.8762\n', 'REMARK  deltaGvdw: -40.2447\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.088428\n', 'REMARK  Cluster: 29\n', 'REMARK  ClusterRank: 2\n'], ['ATOM   3191 C1   LIG     1      76.798  -4.510  15.433  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.116  -4.190  14.003  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      75.571  -5.369  15.443  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.962  -5.280  15.930  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.161  -3.237  13.355  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      78.482  -3.660  13.717  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      75.298  -5.906  16.881  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      74.449  -4.589  14.730  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.749  -6.032  17.174  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      76.912  -3.035  12.003  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      74.855  -4.038  13.341  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      75.955  -1.961  14.163  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      78.374  -3.372  12.261  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      76.538  -6.289  17.640  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      74.499  -7.180  16.712  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      74.511  -4.886  17.695  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      76.785  -1.786  11.096  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      76.419  -7.139  18.858  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      74.488  -8.198  17.847  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.018  -0.356  11.605  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.670  -1.972   9.876  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.852  -8.465  18.421  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      78.373  -0.073  12.232  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.725  -9.327  19.545  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      78.611   1.391  12.308  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      79.935   1.942  12.671  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      79.510   1.891  11.292  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      81.077   1.044  12.994  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      80.005   3.316  13.219  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      76.666  -3.623  16.056  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      77.058  -5.133  13.448  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      75.800  -6.230  14.809  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      78.718  -4.525  16.117  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.328  -5.962  15.161  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.282  -4.383  13.891  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.681  -2.749  14.288  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      74.128  -3.746  15.346  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      73.576  -5.237  14.615  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      78.615  -6.397  17.712  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      76.552  -3.851  11.369  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      74.973  -4.886  12.666  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      74.044  -3.427  12.940  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.642  -4.268  11.694  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.091  -2.597  11.998  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      74.847  -7.709  15.820  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      73.478  -6.862  16.523  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      75.773  -1.802  10.713  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      75.772  -6.666  19.603  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      77.381  -7.298  19.360  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      74.030  -9.133  17.511  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      73.865  -7.842  18.657  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.231  -0.058  12.299  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      76.894   0.311  10.746  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.495  -8.952  17.681  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      79.169  -0.542  11.651  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.417  -0.497  13.237  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      77.725   1.964  12.553  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.135   0.187  12.317  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      80.978   0.672  14.015  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.019   1.593  12.920  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.119  -8.883  20.163  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.550  -2.979   9.470  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.731  -1.822  10.083  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      77.392  -1.250   9.104  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      76.891  -1.426  14.324  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      75.528  -2.151  15.147  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      75.254  -1.298  13.654  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      75.009  -3.913  17.680  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      74.409  -5.180  18.740  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      73.501  -4.759  17.297  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      80.048   3.285  14.309  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      79.139   3.916  12.924  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      80.908   3.808  12.852  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.250', True, 'REMARK  Energy: 244.185\nREMARK  SimpleFitness: 244.185\nREMARK  FullFitness: -831.7807\nREMARK  InterFull: -40.2447\nREMARK  IntraFull: 291.3\nREMARK  solvFull: -1252.5\nREMARK  surfFull: 169.664\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.5\nREMARK  deltaGcompsolvnonpol: 169.664\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79893\nREMARK  deltaGligsolvnonpol: 12.8762\nREMARK  deltaGvdw: -40.2447\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.088428\nREMARK  Cluster: 29\nREMARK  ClusterRank: 2\n', 250), ({'deltaGligsolvpol': -4.79893, 'surfFull': 169.664, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 169.664, 'SimpleFitness': 244.185, 'InterFull': -40.2447, 'extraFull': 0.0, 'Energy': 244.185, 'solvFull': -1252.5, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 29, 'deltaGligsolvnonpol': 12.8762, 'deltaGcompsolvpol': -1252.5, 'FullFitness': -831.7807, 'deltaG': -8.088428, 'ClusterRank': 3, 'IntraFull': 291.3, 'deltaGvdw': -40.2447}, 'V', ['REMARK  Energy: 244.185\n', 'REMARK  SimpleFitness: 244.185\n', 'REMARK  FullFitness: -831.7807\n', 'REMARK  InterFull: -40.2447\n', 'REMARK  IntraFull: 291.3\n', 'REMARK  solvFull: -1252.5\n', 'REMARK  surfFull: 169.664\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.5\n', 'REMARK  deltaGcompsolvnonpol: 169.664\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79893\n', 'REMARK  deltaGligsolvnonpol: 12.8762\n', 'REMARK  deltaGvdw: -40.2447\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.088428\n', 'REMARK  Cluster: 29\n', 'REMARK  ClusterRank: 3\n'], ['ATOM   3191 C1   LIG     1      76.798  -4.510  15.433  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.116  -4.190  14.003  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      75.571  -5.369  15.443  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.962  -5.280  15.930  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.161  -3.237  13.355  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      78.482  -3.660  13.717  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      75.298  -5.906  16.881  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      74.449  -4.589  14.730  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.749  -6.032  17.174  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      76.912  -3.035  12.003  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      74.855  -4.038  13.341  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      75.955  -1.961  14.163  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      78.374  -3.372  12.261  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      76.538  -6.289  17.640  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      74.499  -7.180  16.712  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      74.511  -4.886  17.695  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      76.785  -1.786  11.096  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      76.419  -7.139  18.858  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      74.488  -8.198  17.847  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.018  -0.356  11.605  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.670  -1.972   9.876  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.852  -8.465  18.421  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      78.373  -0.073  12.232  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.725  -9.327  19.545  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      78.611   1.391  12.308  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      79.935   1.942  12.671  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      79.510   1.891  11.292  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      81.077   1.044  12.994  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      80.005   3.316  13.219  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      76.666  -3.623  16.056  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      77.058  -5.133  13.448  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      75.800  -6.230  14.809  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      78.718  -4.525  16.117  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.328  -5.962  15.161  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.282  -4.383  13.891  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.681  -2.749  14.288  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      74.128  -3.746  15.346  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      73.576  -5.237  14.615  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      78.615  -6.397  17.712  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      76.552  -3.851  11.369  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      74.973  -4.886  12.666  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      74.044  -3.427  12.940  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.642  -4.268  11.694  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.091  -2.597  11.998  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      74.847  -7.709  15.820  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      73.478  -6.862  16.523  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      75.773  -1.802  10.713  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      75.772  -6.666  19.603  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      77.381  -7.298  19.360  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      74.030  -9.133  17.511  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      73.865  -7.842  18.657  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.231  -0.058  12.299  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      76.894   0.311  10.746  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.495  -8.952  17.681  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      79.169  -0.542  11.651  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.417  -0.497  13.237  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      77.725   1.964  12.553  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.135   0.187  12.317  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      80.978   0.672  14.015  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.019   1.593  12.920  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.119  -8.883  20.163  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.550  -2.979   9.470  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.731  -1.822  10.083  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      77.392  -1.250   9.104  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      76.891  -1.426  14.324  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      75.528  -2.151  15.147  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      75.254  -1.298  13.654  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      75.009  -3.913  17.680  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      74.409  -5.180  18.740  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      73.501  -4.759  17.297  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      80.048   3.285  14.309  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      79.139   3.916  12.924  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      80.908   3.808  12.852  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.251', True, 'REMARK  Energy: 244.185\nREMARK  SimpleFitness: 244.185\nREMARK  FullFitness: -831.7807\nREMARK  InterFull: -40.2447\nREMARK  IntraFull: 291.3\nREMARK  solvFull: -1252.5\nREMARK  surfFull: 169.664\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.5\nREMARK  deltaGcompsolvnonpol: 169.664\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79893\nREMARK  deltaGligsolvnonpol: 12.8762\nREMARK  deltaGvdw: -40.2447\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.088428\nREMARK  Cluster: 29\nREMARK  ClusterRank: 3\n', 251), ({'deltaGligsolvpol': -4.79629, 'surfFull': 169.664, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 169.664, 'SimpleFitness': 244.143, 'InterFull': -39.9731, 'extraFull': 0.0, 'Energy': 244.143, 'solvFull': -1252.42, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 29, 'deltaGligsolvnonpol': 12.8813, 'deltaGcompsolvpol': -1252.42, 'FullFitness': -831.77814, 'deltaG': -8.058485, 'ClusterRank': 4, 'IntraFull': 290.951, 'deltaGvdw': -39.9731}, 'V', ['REMARK  Energy: 244.143\n', 'REMARK  SimpleFitness: 244.143\n', 'REMARK  FullFitness: -831.77814\n', 'REMARK  InterFull: -39.9731\n', 'REMARK  IntraFull: 290.951\n', 'REMARK  solvFull: -1252.42\n', 'REMARK  surfFull: 169.664\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.42\n', 'REMARK  deltaGcompsolvnonpol: 169.664\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79629\n', 'REMARK  deltaGligsolvnonpol: 12.8813\n', 'REMARK  deltaGvdw: -39.9731\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.058485\n', 'REMARK  Cluster: 29\n', 'REMARK  ClusterRank: 4\n'], ['ATOM   3191 C1   LIG     1      76.809  -4.488  15.405  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.121  -4.165  13.973  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      75.578  -5.342  15.418  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.972  -5.264  15.897  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.164  -3.208  13.333  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      78.485  -3.635  13.683  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      75.306  -5.883  16.854  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      74.455  -4.562  14.708  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.757  -6.017  17.140  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      76.909  -3.000  11.979  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      74.857  -4.010  13.319  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      75.962  -1.936  14.148  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      78.372  -3.343  12.228  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      76.546  -6.271  17.608  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      74.504  -7.154  16.680  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      74.522  -4.867  17.676  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      76.782  -1.745  11.079  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      76.429  -7.123  18.826  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      74.486  -8.168  17.819  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.022  -0.319  11.597  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.661  -1.925   9.855  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.849  -8.445  18.391  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      78.383  -0.048  12.213  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.716  -9.303  19.518  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      78.632   1.414  12.297  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      79.961   1.947  12.670  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      79.542   1.913  11.290  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      81.093   1.036  12.989  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      80.040   3.314  13.232  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      76.681  -3.602  16.030  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      77.060  -5.107  13.416  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      75.804  -6.203  14.781  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      78.732  -4.512  16.084  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.332  -5.948  15.127  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.285  -4.359  13.854  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.686  -2.726  14.256  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      74.135  -3.720  15.326  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      73.582  -5.209  14.593  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      78.620  -6.386  17.678  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      76.544  -3.811  11.341  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      74.974  -4.856  12.643  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      74.045  -3.398  12.922  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.632  -4.239  11.657  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.090  -2.571  11.962  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      74.857  -7.686  15.792  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      73.485  -6.832  16.484  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      75.769  -1.755  10.698  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      75.790  -6.647  19.575  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      77.392  -7.290  19.321  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      74.019  -9.100  17.488  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      73.869  -7.801  18.628  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.242  -0.025  12.300  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      76.891   0.355  10.745  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.487  -8.939  17.651  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      79.172  -0.516  11.622  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.434  -0.479  13.215  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      77.751   1.993  12.542  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.147   0.186  12.303  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      80.988   0.653  14.006  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.040   1.578  12.925  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.099  -8.861  20.127  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.541  -2.932   9.447  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.723  -1.774  10.055  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      77.377  -1.202   9.086  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      76.899  -1.400  14.303  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      75.544  -2.130  15.135  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      75.257  -1.272  13.648  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      75.030  -3.900  17.682  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      74.406  -5.177  18.715  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      73.516  -4.722  17.272  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      80.069   3.272  14.323  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      79.184   3.927  12.933  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      80.954   3.798  12.881  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.252', True, 'REMARK  Energy: 244.143\nREMARK  SimpleFitness: 244.143\nREMARK  FullFitness: -831.77814\nREMARK  InterFull: -39.9731\nREMARK  IntraFull: 290.951\nREMARK  solvFull: -1252.42\nREMARK  surfFull: 169.664\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.42\nREMARK  deltaGcompsolvnonpol: 169.664\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79629\nREMARK  deltaGligsolvnonpol: 12.8813\nREMARK  deltaGvdw: -39.9731\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.058485\nREMARK  Cluster: 29\nREMARK  ClusterRank: 4\n', 252), ({'deltaGligsolvpol': -4.79643, 'surfFull': 169.663, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 169.663, 'SimpleFitness': 244.133, 'InterFull': -39.8808, 'extraFull': 0.0, 'Energy': 244.133, 'solvFull': -1252.36, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 29, 'deltaGligsolvnonpol': 12.8832, 'deltaGcompsolvpol': -1252.36, 'FullFitness': -831.75183, 'deltaG': -8.046344, 'ClusterRank': 5, 'IntraFull': 290.826, 'deltaGvdw': -39.8808}, 'V', ['REMARK  Energy: 244.133\n', 'REMARK  SimpleFitness: 244.133\n', 'REMARK  FullFitness: -831.75183\n', 'REMARK  InterFull: -39.8808\n', 'REMARK  IntraFull: 290.826\n', 'REMARK  solvFull: -1252.36\n', 'REMARK  surfFull: 169.663\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.36\n', 'REMARK  deltaGcompsolvnonpol: 169.663\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79643\n', 'REMARK  deltaGligsolvnonpol: 12.8832\n', 'REMARK  deltaGvdw: -39.8808\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.046344\n', 'REMARK  Cluster: 29\n', 'REMARK  ClusterRank: 5\n'], ['ATOM   3191 C1   LIG     1      76.815  -4.470  15.383  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.124  -4.143  13.952  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      75.582  -5.321  15.396  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.978  -5.250  15.872  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.167  -3.183  13.316  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      78.489  -3.616  13.660  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      75.309  -5.865  16.831  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      74.459  -4.538  14.690  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.760  -6.003  17.115  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      76.910  -2.971  11.960  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      74.861  -3.984  13.302  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      75.968  -1.913  14.135  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      78.373  -3.319  12.206  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      76.549  -6.255  17.585  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      74.509  -7.135  16.654  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      74.522  -4.853  17.656  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      76.785  -1.712  11.066  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      76.432  -7.107  18.802  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      74.486  -8.145  17.795  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.028  -0.289  11.588  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.663  -1.889   9.840  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.849  -8.427  18.366  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      78.390  -0.025  12.207  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.714  -9.286  19.492  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      78.647   1.434  12.293  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      79.977   1.957  12.674  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      79.565   1.930  11.291  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      81.102   1.038  12.995  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      80.061   3.321  13.241  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      76.690  -3.585  16.011  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      77.060  -5.083  13.392  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      75.805  -6.181  14.757  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      78.742  -4.502  16.057  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.333  -5.936  15.101  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.287  -4.342  13.826  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.693  -2.709  14.234  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      74.141  -3.697  15.310  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      73.585  -5.184  14.575  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      78.622  -6.376  17.653  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      76.542  -3.778  11.321  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      74.976  -4.830  12.623  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      74.048  -3.373  12.907  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.629  -4.215  11.632  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.093  -2.549  11.940  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      74.865  -7.669  15.768  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      73.490  -6.814  16.453  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      75.771  -1.718  10.685  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      75.795  -6.631  19.552  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      77.396  -7.276  19.295  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      74.013  -9.076  17.470  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      73.875  -7.770  18.604  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.249   0.005  12.293  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      76.901   0.388  10.738  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.485  -8.922  17.625  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      79.178  -0.496  11.616  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.439  -0.458  13.207  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      77.769   2.019  12.535  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.155   0.191  12.306  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      80.988   0.651  14.010  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.053   1.575  12.939  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.100  -8.842  20.102  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.548  -2.897   9.435  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.724  -1.733  10.039  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      77.373  -1.168   9.071  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      76.906  -1.379  14.292  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      75.550  -2.109  15.121  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      75.264  -1.246  13.637  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      75.033  -3.888  17.673  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      74.398  -5.173  18.691  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      73.519  -4.704  17.248  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      80.079   3.275  14.332  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      79.214   3.943  12.935  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      80.983   3.798  12.901  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.253', True, 'REMARK  Energy: 244.133\nREMARK  SimpleFitness: 244.133\nREMARK  FullFitness: -831.75183\nREMARK  InterFull: -39.8808\nREMARK  IntraFull: 290.826\nREMARK  solvFull: -1252.36\nREMARK  surfFull: 169.663\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.36\nREMARK  deltaGcompsolvnonpol: 169.663\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79643\nREMARK  deltaGligsolvnonpol: 12.8832\nREMARK  deltaGvdw: -39.8808\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.046344\nREMARK  Cluster: 29\nREMARK  ClusterRank: 5\n', 253), ({'deltaGligsolvpol': -4.79643, 'surfFull': 169.663, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 169.663, 'SimpleFitness': 244.133, 'InterFull': -39.8808, 'extraFull': 0.0, 'Energy': 244.133, 'solvFull': -1252.36, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 29, 'deltaGligsolvnonpol': 12.8832, 'deltaGcompsolvpol': -1252.36, 'FullFitness': -831.75183, 'deltaG': -8.046344, 'ClusterRank': 6, 'IntraFull': 290.826, 'deltaGvdw': -39.8808}, 'V', ['REMARK  Energy: 244.133\n', 'REMARK  SimpleFitness: 244.133\n', 'REMARK  FullFitness: -831.75183\n', 'REMARK  InterFull: -39.8808\n', 'REMARK  IntraFull: 290.826\n', 'REMARK  solvFull: -1252.36\n', 'REMARK  surfFull: 169.663\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.36\n', 'REMARK  deltaGcompsolvnonpol: 169.663\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79643\n', 'REMARK  deltaGligsolvnonpol: 12.8832\n', 'REMARK  deltaGvdw: -39.8808\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.046344\n', 'REMARK  Cluster: 29\n', 'REMARK  ClusterRank: 6\n'], ['ATOM   3191 C1   LIG     1      76.815  -4.470  15.383  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.124  -4.143  13.952  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      75.582  -5.321  15.396  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.978  -5.250  15.872  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.167  -3.183  13.316  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      78.489  -3.616  13.660  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      75.309  -5.865  16.831  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      74.459  -4.538  14.690  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.760  -6.003  17.115  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      76.910  -2.971  11.960  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      74.861  -3.984  13.302  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      75.968  -1.913  14.135  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      78.373  -3.319  12.206  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      76.549  -6.255  17.585  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      74.509  -7.135  16.654  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      74.522  -4.853  17.656  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      76.785  -1.712  11.066  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      76.432  -7.107  18.802  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      74.486  -8.145  17.795  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.028  -0.289  11.588  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.663  -1.889   9.840  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.849  -8.427  18.366  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      78.390  -0.025  12.207  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.714  -9.286  19.492  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      78.647   1.434  12.293  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      79.977   1.957  12.674  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      79.565   1.930  11.291  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      81.102   1.038  12.995  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      80.061   3.321  13.241  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      76.690  -3.585  16.011  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      77.060  -5.083  13.392  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      75.805  -6.181  14.757  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      78.742  -4.502  16.057  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.333  -5.936  15.101  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.287  -4.342  13.826  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.693  -2.709  14.234  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      74.141  -3.697  15.310  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      73.585  -5.184  14.575  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      78.622  -6.376  17.653  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      76.542  -3.778  11.321  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      74.976  -4.830  12.623  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      74.048  -3.373  12.907  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.629  -4.215  11.632  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.093  -2.549  11.940  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      74.865  -7.669  15.768  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      73.490  -6.814  16.453  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      75.771  -1.718  10.685  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      75.795  -6.631  19.552  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      77.396  -7.276  19.295  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      74.013  -9.076  17.470  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      73.875  -7.770  18.604  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.249   0.005  12.293  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      76.901   0.388  10.738  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.485  -8.922  17.625  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      79.178  -0.496  11.616  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.439  -0.458  13.207  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      77.769   2.019  12.535  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.155   0.191  12.306  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      80.988   0.651  14.010  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.053   1.575  12.939  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.100  -8.842  20.102  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.548  -2.897   9.435  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.724  -1.733  10.039  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      77.373  -1.168   9.071  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      76.906  -1.379  14.292  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      75.550  -2.109  15.121  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      75.264  -1.246  13.637  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      75.033  -3.888  17.673  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      74.398  -5.173  18.691  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      73.519  -4.704  17.248  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      80.079   3.275  14.332  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      79.214   3.943  12.935  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      80.983   3.798  12.901  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.254', True, 'REMARK  Energy: 244.133\nREMARK  SimpleFitness: 244.133\nREMARK  FullFitness: -831.75183\nREMARK  InterFull: -39.8808\nREMARK  IntraFull: 290.826\nREMARK  solvFull: -1252.36\nREMARK  surfFull: 169.663\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.36\nREMARK  deltaGcompsolvnonpol: 169.663\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79643\nREMARK  deltaGligsolvnonpol: 12.8832\nREMARK  deltaGvdw: -39.8808\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.046344\nREMARK  Cluster: 29\nREMARK  ClusterRank: 6\n', 254), ({'deltaGligsolvpol': -4.79643, 'surfFull': 169.663, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 169.663, 'SimpleFitness': 244.133, 'InterFull': -39.8808, 'extraFull': 0.0, 'Energy': 244.133, 'solvFull': -1252.36, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 29, 'deltaGligsolvnonpol': 12.8832, 'deltaGcompsolvpol': -1252.36, 'FullFitness': -831.75183, 'deltaG': -8.046344, 'ClusterRank': 7, 'IntraFull': 290.826, 'deltaGvdw': -39.8808}, 'V', ['REMARK  Energy: 244.133\n', 'REMARK  SimpleFitness: 244.133\n', 'REMARK  FullFitness: -831.75183\n', 'REMARK  InterFull: -39.8808\n', 'REMARK  IntraFull: 290.826\n', 'REMARK  solvFull: -1252.36\n', 'REMARK  surfFull: 169.663\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1252.36\n', 'REMARK  deltaGcompsolvnonpol: 169.663\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.79643\n', 'REMARK  deltaGligsolvnonpol: 12.8832\n', 'REMARK  deltaGvdw: -39.8808\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -8.046344\n', 'REMARK  Cluster: 29\n', 'REMARK  ClusterRank: 7\n'], ['ATOM   3191 C1   LIG     1      76.815  -4.470  15.383  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      77.124  -4.143  13.952  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      75.582  -5.321  15.396  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      77.978  -5.250  15.872  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      76.167  -3.183  13.316  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      78.489  -3.616  13.660  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      75.309  -5.865  16.831  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      74.459  -4.538  14.690  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      77.760  -6.003  17.115  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      76.910  -2.971  11.960  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      74.861  -3.984  13.302  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      75.968  -1.913  14.135  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      78.373  -3.319  12.206  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      76.549  -6.255  17.585  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      74.509  -7.135  16.654  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      74.522  -4.853  17.656  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      76.785  -1.712  11.066  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      76.432  -7.107  18.802  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      74.486  -8.145  17.795  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      77.028  -0.289  11.588  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      77.663  -1.889   9.840  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      75.849  -8.427  18.366  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      78.390  -0.025  12.207  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      75.714  -9.286  19.492  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      78.647   1.434  12.293  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      79.977   1.957  12.674  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      79.565   1.930  11.291  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      81.102   1.038  12.995  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      80.061   3.321  13.241  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      76.690  -3.585  16.011  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      77.060  -5.083  13.392  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      75.805  -6.181  14.757  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      78.742  -4.502  16.057  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      78.333  -5.936  15.101  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      79.287  -4.342  13.826  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      78.693  -2.709  14.234  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      74.141  -3.697  15.310  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      73.585  -5.184  14.575  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      78.622  -6.376  17.653  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      76.542  -3.778  11.321  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      74.976  -4.830  12.623  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      74.048  -3.373  12.907  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      78.629  -4.215  11.632  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      79.093  -2.549  11.940  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      74.865  -7.669  15.768  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      73.490  -6.814  16.453  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      75.771  -1.718  10.685  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      75.795  -6.631  19.552  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      77.396  -7.276  19.295  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      74.013  -9.076  17.470  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      73.875  -7.770  18.604  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      76.249   0.005  12.293  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      76.901   0.388  10.738  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      76.485  -8.922  17.625  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      79.178  -0.496  11.616  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      78.439  -0.458  13.207  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      77.769   2.019  12.535  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      81.155   0.191  12.306  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      80.988   0.651  14.010  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      82.053   1.575  12.939  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      75.100  -8.842  20.102  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      77.548  -2.897   9.435  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      78.724  -1.733  10.039  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      77.373  -1.168   9.071  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      76.906  -1.379  14.292  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      75.550  -2.109  15.121  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      75.264  -1.246  13.637  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      75.033  -3.888  17.673  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      74.398  -5.173  18.691  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      73.519  -4.704  17.248  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      80.079   3.275  14.332  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      79.214   3.943  12.935  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      80.983   3.798  12.901  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.255', True, 'REMARK  Energy: 244.133\nREMARK  SimpleFitness: 244.133\nREMARK  FullFitness: -831.75183\nREMARK  InterFull: -39.8808\nREMARK  IntraFull: 290.826\nREMARK  solvFull: -1252.36\nREMARK  surfFull: 169.663\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1252.36\nREMARK  deltaGcompsolvnonpol: 169.663\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.79643\nREMARK  deltaGligsolvnonpol: 12.8832\nREMARK  deltaGvdw: -39.8808\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -8.046344\nREMARK  Cluster: 29\nREMARK  ClusterRank: 7\n', 255), ({'deltaGligsolvpol': -4.70383, 'surfFull': 171.241, 'deltaGelec': 0.0, 'deltaGprotsolvpol': -1267.17, 'deltaGcompsolvnonpol': 171.241, 'SimpleFitness': 237.86, 'InterFull': -23.8217, 'extraFull': 0.0, 'Energy': 237.86, 'solvFull': -1249.4, 'deltaGprotsolvnonpol': 172.462, 'Cluster': 30, 'deltaGligsolvnonpol': 12.778, 'deltaGcompsolvpol': -1249.4, 'FullFitness': -829.9697, 'deltaG': -6.1924396, 'ClusterRank': 0, 'IntraFull': 272.011, 'deltaGvdw': -23.8217}, 'V', ['REMARK  Energy: 237.86\n', 'REMARK  SimpleFitness: 237.86\n', 'REMARK  FullFitness: -829.9697\n', 'REMARK  InterFull: -23.8217\n', 'REMARK  IntraFull: 272.011\n', 'REMARK  solvFull: -1249.4\n', 'REMARK  surfFull: 171.241\n', 'REMARK  extraFull: 0.0\n', 'REMARK  deltaGcompsolvpol: -1249.4\n', 'REMARK  deltaGcompsolvnonpol: 171.241\n', 'REMARK  deltaGprotsolvpol: -1267.17\n', 'REMARK  deltaGprotsolvnonpol: 172.462\n', 'REMARK  deltaGligsolvpol: -4.70383\n', 'REMARK  deltaGligsolvnonpol: 12.778\n', 'REMARK  deltaGvdw: -23.8217\n', 'REMARK  deltaGelec: 0.0\n', 'REMARK  deltaG: -6.1924396\n', 'REMARK  Cluster: 30\n', 'REMARK  ClusterRank: 0\n'], ['ATOM   3191 C1   LIG     1      64.225  -4.260  26.908  1.00  0.00      LIG  \n', 'ATOM   3192 C2   LIG     1      65.666  -3.814  27.074  1.00  0.00      LIG  \n', 'ATOM   3193 C3   LIG     1      63.455  -3.118  26.240  1.00  0.00      LIG  \n', 'ATOM   3194 C4   LIG     1      64.188  -5.497  26.033  1.00  0.00      LIG  \n', 'ATOM   3195 C5   LIG     1      65.797  -2.597  27.941  1.00  0.00      LIG  \n', 'ATOM   3196 C6   LIG     1      66.682  -4.771  27.664  1.00  0.00      LIG  \n', 'ATOM   3197 C7   LIG     1      61.975  -3.478  25.986  1.00  0.00      LIG  \n', 'ATOM   3198 C8   LIG     1      63.624  -1.799  27.002  1.00  0.00      LIG  \n', 'ATOM   3199 C9   LIG     1      62.836  -5.771  25.485  1.00  0.00      LIG  \n', 'ATOM   3200 C10  LIG     1      67.306  -2.446  27.901  1.00  0.00      LIG  \n', 'ATOM   3201 C11  LIG     1      65.079  -1.461  27.248  1.00  0.00      LIG  \n', 'ATOM   3202 C12  LIG     1      65.259  -2.862  29.354  1.00  0.00      LIG  \n', 'ATOM   3203 C13  LIG     1      67.817  -3.865  28.131  1.00  0.00      LIG  \n', 'ATOM   3204 C14  LIG     1      61.836  -4.882  25.459  1.00  0.00      LIG  \n', 'ATOM   3205 C15  LIG     1      61.434  -2.489  24.949  1.00  0.00      LIG  \n', 'ATOM   3206 C16  LIG     1      61.145  -3.362  27.266  1.00  0.00      LIG  \n', 'ATOM   3207 C17  LIG     1      67.926  -1.295  28.707  1.00  0.00      LIG  \n', 'ATOM   3208 C18  LIG     1      60.513  -5.250  24.866  1.00  0.00      LIG  \n', 'ATOM   3209 C19  LIG     1      60.066  -2.852  24.409  1.00  0.00      LIG  \n', 'ATOM   3210 C20  LIG     1      68.186  -1.559  30.178  1.00  0.00      LIG  \n', 'ATOM   3211 C21  LIG     1      69.264  -0.994  28.076  1.00  0.00      LIG  \n', 'ATOM   3212 C22  LIG     1      60.099  -4.241  23.813  1.00  0.00      LIG  \n', 'ATOM   3213 C23  LIG     1      67.677  -0.447  31.066  1.00  0.00      LIG  \n', 'ATOM   3214 O24  LIG     1      58.803  -4.570  23.330  1.00  0.00      LIG  \n', 'ATOM   3215 C25  LIG     1      67.627  -0.931  32.484  1.00  0.00      LIG  \n', 'ATOM   3216 C26  LIG     1      68.037  -0.123  33.666  1.00  0.00      LIG  \n', 'ATOM   3217 O27  LIG     1      66.650  -0.247  33.293  1.00  0.00      LIG  \n', 'ATOM   3218 C28  LIG     1      68.584   1.256  33.530  1.00  0.00      LIG  \n', 'ATOM   3219 C29  LIG     1      68.353  -0.810  34.947  1.00  0.00      LIG  \n', 'ATOM   3220 H1   LIG     1      63.775  -4.502  27.873  1.00  0.00      LIG  \n', 'ATOM   3221 H2   LIG     1      66.031  -3.553  26.075  1.00  0.00      LIG  \n', 'ATOM   3222 H3   LIG     1      63.925  -2.970  25.263  1.00  0.00      LIG  \n', 'ATOM   3223 H42  LIG     1      64.520  -6.360  26.617  1.00  0.00      LIG  \n', 'ATOM   3224 H43  LIG     1      64.884  -5.386  25.197  1.00  0.00      LIG  \n', 'ATOM   3225 H62  LIG     1      67.034  -5.497  26.937  1.00  0.00      LIG  \n', 'ATOM   3226 H63  LIG     1      66.261  -5.328  28.504  1.00  0.00      LIG  \n', 'ATOM   3227 H82  LIG     1      63.116  -1.832  27.967  1.00  0.00      LIG  \n', 'ATOM   3228 H83  LIG     1      63.175  -0.976  26.442  1.00  0.00      LIG  \n', 'ATOM   3229 H9   LIG     1      62.670  -6.760  25.080  1.00  0.00      LIG  \n', 'ATOM   3230 H10  LIG     1      67.539  -2.218  26.857  1.00  0.00      LIG  \n', 'ATOM   3231 H112 LIG     1      65.558  -1.265  26.286  1.00  0.00      LIG  \n', 'ATOM   3232 H113 LIG     1      65.155  -0.546  27.839  1.00  0.00      LIG  \n', 'ATOM   3233 H132 LIG     1      68.729  -4.044  27.554  1.00  0.00      LIG  \n', 'ATOM   3234 H133 LIG     1      68.042  -4.077  29.178  1.00  0.00      LIG  \n', 'ATOM   3235 H152 LIG     1      62.129  -2.434  24.105  1.00  0.00      LIG  \n', 'ATOM   3236 H153 LIG     1      61.376  -1.486  25.378  1.00  0.00      LIG  \n', 'ATOM   3237 H17  LIG     1      67.293  -0.411  28.611  1.00  0.00      LIG  \n', 'ATOM   3238 H182 LIG     1      59.753  -5.295  25.651  1.00  0.00      LIG  \n', 'ATOM   3239 H183 LIG     1      60.527  -6.251  24.421  1.00  0.00      LIG  \n', 'ATOM   3240 H192 LIG     1      59.759  -2.129  23.649  1.00  0.00      LIG  \n', 'ATOM   3241 H193 LIG     1      59.311  -2.802  25.199  1.00  0.00      LIG  \n', 'ATOM   3242 H202 LIG     1      69.261  -1.630  30.343  1.00  0.00      LIG  \n', 'ATOM   3243 H203 LIG     1      67.738  -2.504  30.489  1.00  0.00      LIG  \n', 'ATOM   3244 H22  LIG     1      60.794  -4.264  22.968  1.00  0.00      LIG  \n', 'ATOM   3245 H232 LIG     1      66.677  -0.165  30.736  1.00  0.00      LIG  \n', 'ATOM   3246 H233 LIG     1      68.319   0.429  30.952  1.00  0.00      LIG  \n', 'ATOM   3247 H25  LIG     1      67.632  -2.010  32.558  1.00  0.00      LIG  \n', 'ATOM   3248 H281 LIG     1      68.188   1.782  32.657  1.00  0.00      LIG  \n', 'ATOM   3249 H282 LIG     1      69.670   1.212  33.458  1.00  0.00      LIG  \n', 'ATOM   3250 H283 LIG     1      68.347   1.846  34.417  1.00  0.00      LIG  \n', 'ATOM   3251 H24  LIG     1      58.517  -3.825  22.775  1.00  0.00      LIG  \n', 'ATOM   3252 H211 LIG     1      69.158  -0.754  27.016  1.00  0.00      LIG  \n', 'ATOM   3253 H212 LIG     1      69.923  -1.862  28.159  1.00  0.00      LIG  \n', 'ATOM   3254 H213 LIG     1      69.740  -0.147  28.576  1.00  0.00      LIG  \n', 'ATOM   3255 H121 LIG     1      65.679  -3.753  29.824  1.00  0.00      LIG  \n', 'ATOM   3256 H122 LIG     1      64.174  -2.979  29.376  1.00  0.00      LIG  \n', 'ATOM   3257 H123 LIG     1      65.504  -2.039  30.019  1.00  0.00      LIG  \n', 'ATOM   3258 H161 LIG     1      61.598  -3.930  28.084  1.00  0.00      LIG  \n', 'ATOM   3259 H162 LIG     1      60.123  -3.732  27.141  1.00  0.00      LIG  \n', 'ATOM   3260 H163 LIG     1      61.054  -2.321  27.585  1.00  0.00      LIG  \n', 'ATOM   3261 H291 LIG     1      69.436  -0.890  35.071  1.00  0.00      LIG  \n', 'ATOM   3262 H292 LIG     1      67.928  -1.817  34.978  1.00  0.00      LIG  \n', 'ATOM   3263 H293 LIG     1      67.952  -0.240  35.790  1.00  0.00      LIG  \n', 'TER\n'], u'Chimera Model #1.256', True, 'REMARK  Energy: 237.86\nREMARK  SimpleFitness: 237.86\nREMARK  FullFitness: -829.9697\nREMARK  InterFull: -23.8217\nREMARK  IntraFull: 272.011\nREMARK  solvFull: -1249.4\nREMARK  surfFull: 171.241\nREMARK  extraFull: 0.0\nREMARK  deltaGcompsolvpol: -1249.4\nREMARK  deltaGcompsolvnonpol: 171.241\nREMARK  deltaGprotsolvpol: -1267.17\nREMARK  deltaGprotsolvnonpol: 172.462\nREMARK  deltaGligsolvpol: -4.70383\nREMARK  deltaGligsolvnonpol: 12.778\nREMARK  deltaGvdw: -23.8217\nREMARK  deltaGelec: 0.0\nREMARK  deltaG: -6.1924396\nREMARK  Cluster: 30\nREMARK  ClusterRank: 0\n', 256)], [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102, 103, 104, 105, 106, 107, 108, 109, 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126, 127, 128, 129, 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140, 141, 142, 143, 144, 145, 146, 147, 148, 149, 150, 151, 152, 153, 154, 155, 156, 157, 158, 159, 160, 161, 162, 163, 164, 165, 166, 167, 168, 169, 170, 171, 172, 173, 174, 175, 176, 177, 178, 179, 180, 181, 182, 183, 184, 185, 186, 187, 188, 189, 190, 191, 192, 193, 194, 195, 196, 197, 198, 199, 200, 201, 202, 203, 204, 205, 206, 207, 208, 209, 210, 211, 212, 213, 214, 215, 216, 217, 218, 219, 220, 221, 222, 223, 224, 225, 226, 227, 228, 229, 230, 231, 232, 233, 234, 235, 236, 237, 238, 239, 240, 241, 242, 243, 244, 245, 246, 247, 248, 249, 250, 251, 252, 253, 254, 255], [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, 102, 103, 104, 105, 106, 107, 108, 109, 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126, 127, 128, 129, 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140, 141, 142, 143, 144, 145, 146, 147, 148, 149, 150, 151, 152, 153, 154, 155, 156, 157, 158, 159, 160, 161, 162, 163, 164, 165, 166, 167, 168, 169, 170, 171, 172, 173, 174, 175, 176, 177, 178, 179, 180, 181, 182, 183, 184, 185, 186, 187, 188, 189, 190, 191, 192, 193, 194, 195, 196, 197, 198, 199, 200, 201, 202, 203, 204, 205, 206, 207, 208, 209, 210, 211, 212, 213, 214, 215, 216, 217, 218, 219, 220, 221, 222, 223, 224, 225, 226, 227, 228, 229, 230, 231, 232, 233, 234, 235, 236, 237, 238, 239, 240, 241, 242, 243, 244, 245, 246, 247, 248, 249, 250, 251, 252, 253, 254, 255], [79], ['S', 'Cluster'], None, {})
viewDockData.uiData = (1, 0, 0, -1)

import SimpleSession
try:
	import ViewDock
except ImportError:
	# No ViewDock module, don't bother restoring
	pass
else:
	SimpleSession.registerAfterModelsCB(lambda cb=ViewDock.restoreSession,
						k=ViewDock.ViewDock, d=viewDockData: cb(k, d))

def restore_surface_color_mapping():
 try:
  surface_color_state = \
   {
    'class': 'Surface_Colorings_State',
    'coloring_table': {},
    'geometry': u'322x226+1499+88',
    'is_visible': False,
    'version': 2,
   }
  import SurfaceColor.session
  SurfaceColor.session.restore_surface_color_state(surface_color_state)
 except:
  reportRestoreError('Error restoring surface color mapping')

registerAfterModelsCB(restore_surface_color_mapping)


def restoreRemainder():
	from SimpleSession.versions.v65 import restoreWindowSize, \
	     restoreOpenStates, restoreSelections, restoreFontInfo, \
	     restoreOpenModelsAttrs, restoreModelClip, restoreSilhouettes

	curSelIds =  [24443, 3781, 25500, 30194, 3782, 4371, 27950, 26358, 3783, 25502, 30619, 24766, 3784, 27952, 3785, 25887, 3886, 3786, 27954, 25662, 29351, 32415, 25889, 24767, 3788, 27955, 3789, 25508, 30620, 3790, 25509, 3791, 27958, 3792, 25893, 3793, 25512, 30621, 24768, 3794, 25895, 27022, 1592, 25896, 25897, 24455, 24456, 24457, 24458, 24459, 24460, 24461, 24462, 24463, 24464, 24465, 26629, 26630, 30622, 26631, 24468, 26174, 26633, 26634, 26635, 24472, 24473, 24474, 24475, 24476, 32418, 24477, 24478, 24479, 26644, 24481, 26646, 24483, 24484, 32138, 26649, 26650, 26651, 26652, 26653, 25845, 26654, 26655, 26175, 26656, 26657, 26658, 32148, 32149, 32150, 32151, 31124, 32152, 32153, 32154, 32155, 24502, 24503, 24504, 24505, 24506, 24507, 24508, 25666, 24509, 24510, 24511, 24512, 26676, 24514, 26678, 24516, 23340, 26680, 26681, 26682, 26683, 26684, 26685, 26686, 26687, 30624, 26688, 26689, 26176, 26690, 26691, 26692, 26693, 26694, 26695, 23565, 32185, 26696, 24533, 24534, 24535, 24536, 26701, 24538, 23341, 24539, 24540, 26705, 26706, 24543, 24544, 24545, 24546, 30625, 24547, 23957, 24548, 26177, 24549, 27025, 30301, 30302, 30303, 30304, 30305, 30306, 30307, 30308, 30309, 30310, 30311, 30312, 30313, 30314, 30315, 30316, 30317, 30318, 4438, 4439, 4440, 4441, 4442, 4443, 4444, 4445, 4446, 4447, 4448, 4449, 1720, 4450, 4451, 30626, 4452, 4453, 26178, 30333, 30334, 3920, 30335, 30336, 30337, 30338, 30339, 4461, 30340, 30341, 30342, 30343, 30344,
30345, 30346, 30347, 30348, 30349, 30350, 30351, 30352, 30353, 30354, 30355, 26179, 30356, 30357, 27027, 30358, 30359, 4482, 30360, 30361, 29095, 30362, 30363, 30364, 30365, 30366, 32731, 30367, 30368, 30369, 30370, 30371, 30372, 25670, 30373, 30374, 30375, 30376, 30377, 30378, 23322, 3929, 30628, 31601, 31299, 26180, 1468, 27028, 27365, 31442, 31443, 31444, 31445, 31446, 31447, 28783, 31448, 31449, 31450, 31451, 31452, 29982, 31453, 27998, 31454, 31455, 27999, 28000, 30204, 29270, 28001, 3246, 31473, 25672, 31474, 31475, 28002, 31476, 31477, 24777, 31478, 31479, 31480, 23346, 31481, 31482, 31483, 31484, 31485, 31486, 31487, 28004, 31488, 1944, 1945, 1946, 1947, 1948, 1949, 1950, 1951, 1952, 23891, 1953, 1954, 28006, 1955, 1956, 1957, 1958, 1959, 23347, 1960, 1961, 1962, 1963, 1964, 1965, 1966, 28008, 1967, 1968, 28970, 1970, 1971, 1972, 28101, 1973, 1974, 1975, 31518, 31519, 31520, 31521, 31522, 31523, 31524, 1983, 1984, 27239, 3248, 1985, 1986, 1987, 1988, 1989, 1990, 1991, 1992, 24779, 1993, 1994, 1995, 23348, 2198, 26904, 32427, 2200, 25712, 25713, 2201, 25714, 25715, 25716, 25717, 25718, 25719, 25720, 32875, 25721, 25722, 25723, 25724, 25725, 24935, 25726, 25727, 25728, 26014, 25729, 25730, 3955, 25731, 24936, 25732, 25733, 25734, 25735, 3956, 25736, 24937, 25737, 25738, 25739, 25740, 25741, 32428, 25742, 3957, 25743, 26911, 25744, 24781, 25745, 25746, 25747, 23350, 26033, 25748, 25749, 25750, 25751, 25752, 25753, 3959, 25754, 24939,
25755, 25756, 25757, 25758, 3960, 25759, 26914, 25760, 25761, 25762, 25763, 25764, 32429, 26050, 3961, 25765, 25766, 25767, 25768, 25769, 23351, 25770, 26915, 25771, 25772, 25773, 25774, 25775, 25776, 3963, 25777, 24943, 25778, 25779, 25780, 25781, 3964, 25782, 26917, 25783, 3310, 25784, 25785, 25786, 31294, 3965, 24945, 32776, 32777, 32778, 32779, 26919, 32781, 32782, 23515, 32783, 32784, 32785, 32430, 32786, 3967, 26920, 23352, 26921, 1722, 26922, 3970, 26923, 32431, 3971, 26924, 3972, 26848, 32816, 32817, 32818, 32819, 3973, 32820, 32821, 32822, 26856, 32824, 26858, 26859, 26860, 32828, 26862, 32830, 26864, 26865, 26866, 32834, 26867, 32836, 32837, 26870, 32838, 23517, 32839, 32840, 24239, 32841, 32842, 32843, 32844, 32845, 32846, 32847, 32848, 32849, 30538, 32850, 32851, 32852, 32853, 32854, 3882, 32855, 32856, 32857, 32858, 1470, 32859, 24959, 32860, 32861, 32862, 32863, 26896, 32433, 32865, 26898, 32867, 26900, 26901, 32870, 28792, 26934, 24962, 1693, 24963, 1694, 23694, 24846, 30539, 24847, 24848, 24849, 24850, 24851, 26937, 24852, 1695, 24853, 24854, 24855, 26938, 26171, 23519, 26939, 26172, 32907, 32112, 23695, 30540, 24871, 24872, 24873, 32908, 24874, 32113, 24875, 24876, 24877, 24878, 24968, 24879, 32114, 24880, 24881, 24882, 24883, 24884, 24885, 24969, 24886, 32115, 24887, 24888, 24889, 24890, 24970, 32116, 24891, 24892, 24893, 24894, 24895, 24896, 24971, 24897, 32117, 24898, 24899, 24900, 24972, 24901, 32118,
23696, 24902, 24903, 23941, 24904, 24905, 31295, 24906, 24907, 32914, 24908, 32119, 24909, 24910, 24911, 24912, 32915, 24913, 24466, 24914, 24915, 32490, 24916, 24917, 24918, 24919, 32916, 24467, 24920, 24921, 24922, 24923, 32917, 24924, 26632, 24925, 24926, 24610, 24927, 24928, 24929, 32918, 24469, 27284, 27285, 27286, 27287, 3259, 24470, 27480, 27290, 27291, 27292, 27293, 30952, 27294, 32920, 24471, 27296, 27297, 27298, 4002, 27299, 26636, 27492, 27493, 27494, 27495, 23948, 4003, 32922, 26637, 4004, 32923, 26638, 4005, 27316, 32924, 24070, 26639, 27318, 27319, 27320, 4006, 27321, 2785, 26640, 27323, 27324, 27325, 27326, 28182, 4007, 28183, 26641, 28185, 28186, 28187, 4008, 32926, 26642, 27525, 27335, 27527, 25231, 27337, 27529, 4009, 27530, 26643, 27341, 27342, 27343, 4010, 27344, 24480, 27346, 27347, 27348, 27349, 4011, 27350, 26645, 27352, 27353, 27354, 4012, 28210, 28211, 27357, 27358, 28214, 28215, 28216, 4013, 27362, 32931, 28218, 27364, 28220, 27366, 4014, 28222, 26648, 27368, 27369, 27370, 27371, 28227, 4015, 28228, 32933, 27374, 4314, 28230, 28231, 28232, 28233, 32139, 32935, 32140, 32936, 32141, 32937, 32142, 2519, 2520, 2521, 2522, 26970, 2523, 26204, 2524, 2525, 2526, 2527, 2528, 2529, 32939, 32143, 2531, 2532, 2533, 2534, 32940, 2535, 32144, 2536, 2537, 31856, 31857, 31858, 31859, 2542, 32145, 31861, 31862, 31863, 31864, 25000, 31865, 32146, 31866, 30546, 31867, 31868, 29174, 31869, 31870, 31871, 31872, 32147, 31873,
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208: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 209: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 210: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 211: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 212: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 213: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 214: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 215: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True),
216: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 217: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 218: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 219: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 220: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 221: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 222: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 223: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True),
224: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 225: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 226: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 227: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 228: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 229: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 230: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 231: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True),
232: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 233: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 234: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 235: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 236: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 237: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 238: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 239: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True),
240: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 241: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 242: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 243: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 244: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 245: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 246: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 247: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True),
248: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 249: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 250: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 251: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 252: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 253: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 254: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 255: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True),
256: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 257: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 258: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True), 259: (((-0.70594253204021, 0.6364048364798, 0.31086013826442), 105.27637324401), (38.491867591177, 3.0360051881179, 81.19702392819), True)}
	fontInfo = {'face': ('Sans Serif', 'Normal', 16)}
	clipPlaneInfo = {}
	silhouettes = {0: True, 1: True, 2: True, 3: True, 4: True, 5: True, 6: True, 7: True, 8: True, 9: True, 10: True, 11: True, 12: True, 13: True, 14: True, 15: True, 16: True, 17: True, 18: True, 19: True, 20: True, 21: True, 22: True, 23: True, 24: True, 25: True, 26: True, 27: True, 28: True, 29: True, 30: True, 31: True, 32: True, 33: True, 34: True, 35: True, 36: True, 37: True, 38: True, 39: True, 40: True, 41: True, 42: True, 43: True, 44: True, 45: True, 46: True, 47: True, 48: True, 49: True, 50: True, 51: True, 52: True, 53: True, 54: True, 55: True, 56: True, 57: True, 58: True, 59: True, 60: True, 61: True, 62: True, 63: True, 64: True, 65: True, 66: True, 67: True, 68: True, 69: True, 70: True, 71: True, 72: True, 73: True, 74: True, 75: True, 76: True, 77: True, 78: True, 79: True, 80: True, 81: True, 82: True, 83: True, 84: True, 85: True, 86: True, 87: True, 88: True, 89: True, 90: True, 91: True, 92: True, 93: True, 94: True, 95: True, 96: True, 97: True, 98: True, 99: True, 100: True, 101: True, 102: True, 103: True, 104: True, 105: True, 106: True, 107: True, 108: True, 109: True, 110: True, 111: True, 112: True, 113: True, 114: True, 115: True, 116: True, 117: True, 118: True, 119: True, 120: True, 121: True, 122: True, 123: True, 124: True, 125: True, 126: True,
127: True, 128: True, 129: True, 130: True, 131: True, 132: True, 133: True, 134: True, 135: True, 136: True, 137: True, 138: True, 139: True, 140: True, 141: True, 142: True, 143: True, 144: True, 145: True, 146: True, 147: True, 148: True, 149: True, 150: True, 151: True, 152: True, 153: True, 154: True, 155: True, 156: True, 157: True, 158: True, 159: True, 160: True, 161: True, 162: True, 163: True, 164: True, 165: True, 166: True, 167: True, 168: True, 169: True, 170: True, 171: True, 172: True, 173: True, 174: True, 175: True, 176: True, 177: True, 178: True, 179: True, 180: True, 181: True, 182: True, 183: True, 184: True, 185: True, 186: True, 187: True, 188: True, 189: True, 190: True, 191: True, 192: True, 193: True, 194: True, 195: True, 196: True, 197: True, 198: True, 199: True, 200: True, 201: True, 202: True, 203: True, 204: True, 205: True, 206: True, 207: True, 208: True, 209: True, 210: True, 211: True, 212: True, 213: True, 214: True, 215: True, 216: True, 217: True, 218: True, 219: True, 220: True, 221: True, 222: True, 223: True, 224: True, 225: True, 226: True, 227: True, 228: True, 229: True, 230: True, 231: True, 232: True, 233: True, 234: True, 235: True, 236: True, 237: True, 238: True, 239: True, 240: True,
241: True, 242: True, 243: True, 244: True, 245: True, 246: True, 247: True, 248: True, 249: True, 250: True, 251: True, 252: True, 253: True, 254: True, 255: True, 256: True, 257: True, 258: True, 259: True, 67010: True, 67011: True, 67012: True, 67013: True, 67014: True, 67015: True}

	replyobj.status("Restoring window...", blankAfter=0,
		secondary=True)
	restoreWindowSize(windowSize)
	replyobj.status("Restoring open states...", blankAfter=0,
		secondary=True)
	restoreOpenStates(xformMap)
	replyobj.status("Restoring font info...", blankAfter=0,
		secondary=True)
	restoreFontInfo(fontInfo)
	replyobj.status("Restoring selections...", blankAfter=0,
		secondary=True)
	restoreSelections(curSelIds, savedSels)
	replyobj.status("Restoring openModel attributes...", blankAfter=0,
		secondary=True)
	restoreOpenModelsAttrs(openModelsAttrs)
	replyobj.status("Restoring model clipping...", blankAfter=0,
		secondary=True)
	restoreModelClip(clipPlaneInfo)
	replyobj.status("Restoring per-model silhouettes...", blankAfter=0,
		secondary=True)
	restoreSilhouettes(silhouettes)

	replyobj.status("Restoring remaining extension info...", blankAfter=0,
		secondary=True)
try:
	restoreRemainder()
except:
	reportRestoreError("Error restoring post-model state")
from SimpleSession.versions.v65 import makeAfterModelsCBs
makeAfterModelsCBs()

from SimpleSession.versions.v65 import endRestore
replyobj.status('Finishing restore...', blankAfter=0, secondary=True)
endRestore({})
replyobj.status('', secondary=True)
replyobj.status('Restore finished.')