Authors: 
Boon Chong Goh*
Juan R. Perilla*
Matthew R. England
Katrina J. Heyrana
Rebecca C. Craven
Klaus Schulten
Journal: 
Structure
Abstract: 
Defining the molecular interaction between Gag proteins in an assembled hexagonal lattice of immature retrovirus particles is crucial for elucidating the mechanisms of virus assembly and maturation. Recent advances in cryo-electron microscopy have yielded subnanometer structural information on the morphology of immature Gag lattices, making computational modeling and simulations feasible for investigating the Gag-Gag interactions at the atomic level. We have examined the structure of Rous sarcoma virus (RSV) using all-atom molecular dynamics simulations and in vitro assembly, to create the first all-atom model of an immature retroviral lattice. Microseconds-long replica exchange molecular dynamics simulation of the spacer peptide (SP)-nucleocapsid (NC) subdomains results in a six-helix bundle with amphipathic properties. The resulting model of the RSV Gag lattice shows features and dynamics of the capsid protein with implications for the maturation process, and confirms the stabilizing role of the upstream and downstream regions of Gag, namely p10 and SP-NC.
Date: 
2015
Number: 
23
Pages: 
1414-1425
keywords: 
Virology
Biophysics
Physics
Computational Modeling
Structural Biology