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Coarse-grained molecular dynamics of ligands binding into protein: the case of HIV-1 protease inhibitors

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posted on 2024-07-12, 11:17 authored by Dechang Li, Ming S. Liu, Baohua Ji, Kehchih Hwang, Yong Gang Huang
Binding dynamics and pathways of ligands or inhibitors to target proteins are challenging both experimental and theoretical biologists. A dynamics understanding of inhibitors interacting with protein is essential for the design of novel potent drugs. In this work we applied a coarse-grained molecular dynamics method for simulating inhibitors entering the binding cavity of human immunodeficiency virus type 1 protease (PR). It shows that the coarse-grained dynamics, consistent with the experimental results, can capture the essential molecular dynamics of various inhibitors binding into PR. The primary driving force for the binding processes is the nonbond interaction between inhibitors and PR. The size and topology of inhibitors and the interacting strength between inhibitors and PR have great influence on the binding mode and processes. The interaction strength between the PR and various inhibitors is also analyzed by atomistic molecular mechanics and Poisson-Boltzmann solvation area method.

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ISSN

0021-9606

Journal title

Journal of Chemical Physics

Volume

130

Issue

21

Pagination

1 p

Publisher

American Institute of Physics

Copyright statement

Copyright © 2009 American Institute of Physics. The published version is reproduced in accordance with the copyright policy of the publisher.

Language

eng

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