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Affinity Capture of p97 with Small-Molecule Ligand Bait Reveals a 3.6 Å Double-Hexamer Cryoelectron Microscopy Structure

Md Rejaul Hoq, Frank S. Vago, Kunpeng Li, Marina Kovaliov, Robert J. Nicholas, Donna M. Huryn, Peter Wipf, Wen Jiang, David H. Thompson

2021ACS Nano22 citationsDOIOpen Access PDF

Abstract

Recent progress in the development of affinity grids for cryoelectron microscopy (cryo-EM) typically employs genetic engineering of the protein sample such as histidine or Spy tagging, immobilized antibody capture, or nonselective immobilization via electrostatic interactions or Schiff base formation. We report a powerful and flexible method for the affinity capture of target proteins for cryo-EM analysis that utilizes small-molecule ligands as bait for concentrating human target proteins directly onto the grid surface for single-particle reconstruction. This approach is demonstrated for human p97, captured using two different small-molecule high-affinity ligands of this AAA+ ATPase. Four electron density maps are revealed, each representing a p97 conformational state captured from solution, including a double-hexamer structure resolved to 3.6 Å. These results demonstrate that the noncovalent capture of protein targets on EM grids modified with high-affinity ligands can enable the structure elucidation of multiple configurational states of the target and potentially inform structure-based drug design campaigns.

Topics & Concepts

Random hexamerCryo-electron microscopyLigand (biochemistry)ChemistryMoleculeHistidineBiophysicsCrystallographyBiologyBiochemistryReceptorEnzymeOrganic chemistryAdvanced Electron Microscopy Techniques and ApplicationsRNA and protein synthesis mechanismsForce Microscopy Techniques and Applications
Affinity Capture of p97 with Small-Molecule Ligand Bait Reveals a 3.6 Å Double-Hexamer Cryoelectron Microscopy Structure | Litcius