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Featured Citations

Multiscale structure of chromatin condensates explains phase separation and material properties. Zhou H, Huertas J et al. Science. 2025 Dec 4;390(6777):eadv6588.

Mechanism of conductance control and neurosteroid binding in NMDA receptors. Kang H, Steigerwald R et al. Nature. 2025 Dec 4;648(8092):220–228.

Membrane-forming phospholipids allosterically modulate native-state prolyl isomerization in a CNG channel. Newton AJ, Latvala RD et al. Protein Sci. 2025 Dec;34(12):e70383.

Delta-type glutamate receptors are ligand-gated ion channels. Wang H, Ahmed F et al. Nature. 2025 Nov 27;647(8091):1063–1071.

Structural basis of T-loop-independent recognition and activation of CDKs by the CDK-activating kinase. Cushing VI, McGeoch AJS et al. Science. 2025 Nov 27;390(6776):911-917.

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News

November 21, 2025

The ChimeraX 1.11 release candidate is available – please try it and report any issues. See the change log for what's new. This will be the last release to support Red Hat Enterprise Linux 8 and its derivatives.

July 24, 2025

ChimeraX 1.10.1 is now available, fixing the problem in 1.10 of repeat registration requests to some users.

June 26, 2025

The ChimeraX 1.10 production release is available! See the change log for what's new.

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UCSF ChimeraX

UCSF ChimeraX (or simply ChimeraX) is the next-generation molecular visualization program from the Resource for Biocomputing, Visualization, and Informatics (RBVI), following UCSF Chimera. ChimeraX can be downloaded free of charge for academic, government, nonprofit, and personal use. Commercial users, please see ChimeraX commercial licensing.

ChimeraX is developed with support from National Institutes of Health R01-GM129325.

Bluesky logo ChimeraX on Bluesky: @chimerax.ucsf.edu

Feature Highlight

Morphing Movie

Morphing between atomic structures can be calculated wih the morph command and played back in an animation. This movie shows morphing between two conformations of the FGFR1 kinase domain:

  • inactive structure (PDB 3c4f, chain A)
  • activated structure (PDB 3gqi, chain A) with phosphorylated tyrosines and bound ATP analog
The tyrosine side chains and ATP analog are color-coded by element: light blue carbon, red oxygen, blue nitrogen, and orange phosphorus.

Morphing and other setup was done with the command file kmorph-prep.cxc, followed by interactively positioning the structure and saving the view with the command view name p1 (generally a session would also be saved at this point), then running kmorph-play.cxc to add 2D labels and record the movie.

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Example Image

HIV-1 protease B-factor coloring

B-factor Coloring

Atomic B-factor values are read from PDB and mmCIF input files and assigned as attributes that can be shown with coloring and used in atom specification. This example shows B-factor variation within a structure of the HIV-1 protease bound to an inhibitor (PDB 4hvp). For complete image setup, including positioning, color key, and label, see the command file bfactor.cxc.

Additional color key examples can be found in tutorials: Coloring by Electrostatic Potential, Coloring by Sequence Conservation

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