自适应加速分子动力学（Ad-AMD）揭示P450cam的分子可塑性

Adaptive Accelerated Molecular Dynamics (Ad-AMD) Revealing the Molecular Plasticity of P450cam.

作者信息

Markwick Phineus R L, Pierce Levi C T, Goodin David B, McCammon J Andrew

出版信息

J Phys Chem Lett. 2011 Feb 3;2(3):158-164. doi: 10.1021/jz101462n. Epub 2011 Jan 7.

DOI:10.1021/jz101462n

PMID:21307966

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3034398/

Abstract

An extended accelerated molecular dynamics (AMD) methodology called adaptive AMD is presented. Adaptive AMD (Ad-AMD) is an efficient and robust conformational space sampling algorithm that is particularly-well suited to proteins with highly structured potential energy surfaces exhibiting complex, large-scale collective conformational transitions. Ad-AMD simulations of substrate-free P450cam reveal that this system exists in equilibrium between a fully and partially open conformational state. The mechanism for substrate binding depends on the size of the ligand. Larger ligands enter the P450cam binding pocket, and the resulting substrate-bound system is trapped in an open conformation via a population shift mechanism. Small ligands, which fully enter the binding pocket, cause an induced-fit mechanism, resulting in the formation of an energetically stable closed conformational state. These results are corroborated by recent experimental studies and potentially provide detailed insight into the functional dynamics and conformational behavior of the entire cytochrome-P450 superfamily.

摘要

本文提出了一种名为自适应加速分子动力学（AMD）的扩展方法。自适应AMD（Ad-AMD）是一种高效且强大的构象空间采样算法，特别适用于具有高度结构化势能面、表现出复杂大规模集体构象转变的蛋白质。对无底物P450cam的Ad-AMD模拟表明，该系统在完全开放和部分开放构象状态之间处于平衡。底物结合机制取决于配体的大小。较大的配体进入P450cam结合口袋，所得的底物结合系统通过种群转移机制被困在开放构象中。完全进入结合口袋的小配体引发诱导契合机制，导致形成能量稳定的封闭构象状态。这些结果得到了最近实验研究的证实，并可能为整个细胞色素P450超家族的功能动力学和构象行为提供详细的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8908/3034398/530154783ed5/jz-2010-01462n_0004.jpg

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自适应加速分子动力学（Ad-AMD）揭示P450cam的分子可塑性

Adaptive Accelerated Molecular Dynamics (Ad-AMD) Revealing the Molecular Plasticity of P450cam.

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