Modeling Ligands into Maps Derived from Electron Cryomicroscopy.
Title | Modeling Ligands into Maps Derived from Electron Cryomicroscopy. |
Publication Type | Journal Article |
Year of Publication | 2024 |
Authors | Jha S, Bose S, Vinothkumar KR |
Journal | J Vis Exp |
Issue | 209 |
Date Published | 2024 Jul 19 |
ISSN | 1940-087X |
Keywords | Cryoelectron Microscopy, Ligands, Models, Molecular |
Abstract | Deciphering the protein-ligand interactions in a macromolecular complex is crucial for understanding the molecular mechanism, underlying biological processes, and drug development. In recent years, cryogenic sample electron microscopy (cryoEM) has emerged as a powerful technique to determine the structures of macromolecules and to investigate the mode of ligand binding at near-atomic resolution. Identifying and modeling non-protein molecules in cryoEM maps is often challenging due to anisotropic resolution across the molecule of interest and inherent noise in the data. In this article, the readers are introduced to various software and methods currently used for ligand identification, model building, and refinement of atomic coordinates using selected macromolecules. One of the simplest ways to identify the presence of a ligand, as illustrated with the enolase enzyme, is to subtract the two maps obtained with and without the ligand. The extra density of the ligand is likely to stand out in the difference map even at a higher threshold. There are instances, as shown in the case of metabotropic Glutamate receptor mGlu5, when such simple difference maps cannot be generated. The recently introduced method of deriving the Fo-Fc omit map can serve as a tool for validating and demonstrating the presence of the ligand. Finally, using the well-studied β-galactosidase as an example, the effect of resolution on modeling the ligands and solvent molecules in cryoEM maps is analyzed, and an outlook on how cryoEM can be used in drug discovery is presented. |
DOI | 10.3791/66310 |
Alternate Journal | J Vis Exp |
PubMed ID | 39141559 |