Protein crystal lattices are dynamic assemblies: the role of conformational entropy in the protein condensed phase

Protein crystal lattices are dynamic assemblies: the role of conformational entropy in the protein condensed phase

Until recently, the occurrence of conformational entropy in protein crystal contacts was considered to be a very unlikely event. A study based on the most accurately refined protein structures demonstrated that side-chain conformational entropy and static disorder might be common in protein crystal...

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Bibliographic Details
Main Authors: Margarita Dimova, Yancho D. Devedjiev
Format: Article
Language:English
Published: International Union of Crystallography 2018-03-01
Series:IUCrJ
Subjects:
protein crystals
static disorder
dynamic disorder
conformational entropy
elastic molecular shape
oscillating crystal lattice
local entropic force
X-ray crystallography
crystallization
crystal growth
Online Access:http://scripts.iucr.org/cgi-bin/paper?S2052252517017833
Description
Summary:Until recently, the occurrence of conformational entropy in protein crystal contacts was considered to be a very unlikely event. A study based on the most accurately refined protein structures demonstrated that side-chain conformational entropy and static disorder might be common in protein crystal lattices. The present investigation uses structures refined using ensemble refinement to show that although paradoxical, conformational entropy is likely to be the major factor in the emergence and integrity of the protein condensed phase. This study reveals that the role of shape entropy and local entropic forces expands beyond the onset of crystallization. For the first time, the complete pattern of intermolecular interactions by protein atoms in crystal lattices is presented, which shows that van der Waals interactions dominate in crystal formation.
ISSN:2052-2525

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