利用柔性配体对接和蛋白质侧链优化预测HIV-1蛋白酶突变体复合物中的结构效应

Predicting structural effects in HIV-1 protease mutant complexes with flexible ligand docking and protein side-chain optimization.

作者信息

Schaffer L, Verkhivker G M

机构信息

Agouron Pharmaceuticals, Inc., La Jolla, California 92037, USA.

出版信息

Proteins. 1998 Nov 1;33(2):295-310. doi: 10.1002/(sici)1097-0134(19981101)33:2<295::aid-prot12>3.0.co;2-f.

DOI:10.1002/(sici)1097-0134(19981101)33:2<295::aid-prot12>3.0.co;2-f

PMID:9779795

Abstract

We present a computational approach for predicting structures of ligand-protein complexes and analyzing binding energy landscapes that combines Monte Carlo simulated annealing technique to determine the ligand bound conformation with the dead-end elimination algorithm for side-chain optimization of the protein active site residues. Flexible ligand docking and optimization of mobile protein side-chains have been performed to predict structural effects in the V32I/I47V/V82I HIV-1 protease mutant bound with the SB203386 ligand and in the V82A HIV-1 protease mutant bound with the A77003 ligand. The computational structure predictions are consistent with the crystal structures of these ligand-protein complexes. The emerging relationships between ligand docking and side-chain optimization of the active site residues are rationalized based on the analysis of the ligand-protein binding energy landscape.

摘要

我们提出了一种计算方法，用于预测配体 - 蛋白质复合物的结构并分析结合能景观。该方法将蒙特卡罗模拟退火技术与死端消除算法相结合，蒙特卡罗模拟退火技术用于确定配体结合构象，死端消除算法用于对蛋白质活性位点残基的侧链进行优化。已对灵活的配体对接和可移动蛋白质侧链进行优化，以预测与SB203386配体结合的V32I/I47V/V82I HIV-1蛋白酶突变体以及与A77003配体结合的V82A HIV-1蛋白酶突变体中的结构效应。计算得到的结构预测结果与这些配体 - 蛋白质复合物的晶体结构一致。基于对配体 - 蛋白质结合能景观的分析，对活性位点残基的配体对接与侧链优化之间新出现的关系进行了合理说明。

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Predicting structural effects in HIV-1 protease mutant complexes with flexible ligand docking and protein side-chain optimization.利用柔性配体对接和蛋白质侧链优化预测HIV-1蛋白酶突变体复合物中的结构效应

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利用柔性配体对接和蛋白质侧链优化预测HIV-1蛋白酶突变体复合物中的结构效应

Predicting structural effects in HIV-1 protease mutant complexes with flexible ligand docking and protein side-chain optimization.

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