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Cryo-EM structure of the vaccinia virus entry fusion complex reveals a multicomponent fusion machinery. Lin CS, Li CA et al. Sci Adv. 2026 Jan 16;12(3):eaec0254.
Toward community-driven visual proteomics with large-scale cryo-electron tomography of Chlamydomonas reinhardtii. Kelley R, Khavnekar S et al. Mol Cell. 2026 Jan 8;86(1):213-230.e7.
Structural insights into the activation mechanism of the human metabolite receptor HCAR1. Gao M, Zang S et al. Sci Signal. 2026 Jan 6;19(919):eadw1483.
Crystal structure of Methanococcus jannaschii dihydroorotase with substrate bound. Vitali J, Nix JC et al. Acta Crystallogr F Struct Biol Commun. 2026 Jan 1;82(Pt 1):23-31.
Correlation between solvation free energy and solute-solvent interaction energy in energy representation theory. Maruyama Y, Matubayasi N. J Phys Chem B. 2025 Dec 25;129(51):13230-13241.
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September 22, 2025
Mac users may wish to defer upgrading to MacOS Tahoe. Currently on that OS the Chimera graphics window is shifted so that it covers the command and status lines.
March 6, 2025
Chimera production release 1.19 is now available, fixing the ability to fetch structures from the PDB (details...).
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UCSF Chimera is a program for the interactive visualization and analysis of molecular structures and related data, including density maps, trajectories, and sequence alignments. It is available free of charge for noncommercial use. Commercial users, please see Chimera commercial licensing.
We encourage Chimera users to try ChimeraX for much better performance with large structures, as well as other major advantages and completely new features in addition to nearly all the capabilities of Chimera (details...).
Chimera is no longer under active development. Chimera development was supported by a grant from the National Institutes of Health (P41-GM103311) that ended in 2018.
Feature Highlight
The Multiscale Models extension allows Chimera to display large complexes such as virus capsids, ribosomes, and chromatin. It displays the quaternary structure of PDB models and allows subunits to be selected and shown in atomic detail. Matrices are read from PDB files that specify the biological unit. Crystallographic packing can also be shown.
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Gallery Sample
Thermosomes are hollow balls inside which proteins are folded. They are found in the cytosol of eukaryotes and in archaea. Eukaryotic thermosomes have 8 different protein subunits, while archaeal ones are composed of one, two or three different proteins. The one shown from Thermoplasma acidophilum has two distinct proteins colored blue and yellow, each present in 8 copies. The two proteins have 60% sequence identity and are very similar in structure. One monomer is shown as a ribbon. Actin and tubulin are folded by eukaryotic thermosomes.
Protein Data Bank model 1a6d.
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