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Automatic and accurate ligand structure determination guided by cryo-electron microscopy maps

Andrew Muenks, Samantha K. Zepeda, Guangfeng Zhou, David Veesler, Frank DiMaio

2023Nature Communications25 citationsDOIOpen Access PDF

Abstract

Advances in cryo-electron microscopy (cryoEM) and deep-learning guided protein structure prediction have expedited structural studies of protein complexes. However, methods for accurately determining ligand conformations are lacking. In this manuscript, we develop EMERALD, a tool for automatically determining ligand structures guided by medium-resolution cryoEM density. We show this method is robust at predicting ligands along with surrounding side chains in maps as low as 4.5 Å local resolution. Combining this with a measure of placement confidence and running on all protein/ligand structures in the EMDB, we show that 57% of ligands replicate the deposited model, 16% confidently find alternate conformations, 22% have ambiguous density where multiple conformations might be present, and 5% are incorrectly placed. For five cases where our approach finds an alternate conformation with high confidence, high-resolution crystal structures validate our placement. EMERALD and the resulting analysis should prove critical in using cryoEM to solve protein-ligand complexes.

Topics & Concepts

Resolution (logic)Ligand (biochemistry)Cryo-electron microscopyComputer scienceHigh resolutionProtein structureCrystallographyLow resolutionChemistryArtificial intelligenceBiochemistryGeologyRemote sensingReceptorAdvanced Electron Microscopy Techniques and ApplicationsRNA and protein synthesis mechanismsElectron and X-Ray Spectroscopy Techniques
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