Literature DB >> 26397743

Conformational variation of an extreme drug resistant mutant of HIV protease.

Chen-Hsiang Shen1, Yu-Chung Chang1, Johnson Agniswamy1, Robert W Harrison2, Irene T Weber3.   

Abstract

Molecular mechanisms leading to high level drug resistance have been analyzed for the clinical variant of HIV-1 protease bearing 20 mutations (PR20); which has several orders of magnitude worse affinity for tested drugs. Two crystal structures of ligand-free PR20 with the D25N mutation of the catalytic aspartate (PR20D25N) revealed three dimers with different flap conformations. The diverse conformations of PR20D25N included a dimer with one flap in a unique "tucked" conformation; directed into the active site. Analysis of molecular dynamics (MD) simulations of the ligand-free PR20 and wild-type enzymes showed that the mutations in PR20 alter the correlated interactions between two monomers in the dimer. The two flaps tend to fluctuate more independently in PR20 than in the wild type enzyme. Combining the results of structural analysis by X-ray crystallography and MD simulations; unusual flap conformations and weakly correlated inter-subunit motions may contribute to the high level resistance of PR20.
Copyright © 2015 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Coordinated motions; Drug resistance mutations; Flap dynamics; HIV-1 protease; Molecular dynamics simulations; Resistance mechanisms; X-ray crystallography

Mesh:

Substances:

Year:  2015        PMID: 26397743      PMCID: PMC4695280          DOI: 10.1016/j.jmgm.2015.09.006

Source DB:  PubMed          Journal:  J Mol Graph Model        ISSN: 1093-3263            Impact factor:   2.518


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