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Local computational methods to improve the interpretability and analysis of cryo-EM maps

Satinder Kaur, Josué Gómez-Blanco, Ahmad Abdelzaher Zaki Khalifa, Swathi Adinarayanan, Rubén Sánchez-García, Daniel Wrapp, Jason S. McLellan, Khanh Huy Bui, Javier Vargas

2021Nature Communications78 citationsDOIOpen Access PDF

Abstract

Cryo-electron microscopy (cryo-EM) maps usually show heterogeneous distributions of B-factors and electron density occupancies and are typically B-factor sharpened to improve their contrast and interpretability at high-resolutions. However, 'over-sharpening' due to the application of a single global B-factor can distort processed maps causing connected densities to appear broken and disconnected. This issue limits the interpretability of cryo-EM maps, i.e. ab initio modelling. In this work, we propose 1) approaches to enhance high-resolution features of cryo-EM maps, while preventing map distortions and 2) methods to obtain local B-factors and electron density occupancy maps. These algorithms have as common link the use of the spiral phase transformation and are called LocSpiral, LocBSharpen, LocBFactor and LocOccupancy. Our results, which include improved maps of recent SARS-CoV-2 structures, show that our methods can improve the interpretability and analysis of obtained reconstructions.

Topics & Concepts

InterpretabilityCryo-electron microscopySharpeningComputer scienceResolution (logic)Transformation (genetics)Data miningArtificial intelligencePhysicsBiologyNuclear magnetic resonanceGeneBiochemistryAdvanced Electron Microscopy Techniques and ApplicationsRNA and protein synthesis mechanismsElectron and X-Ray Spectroscopy Techniques
Local computational methods to improve the interpretability and analysis of cryo-EM maps | Litcius