通过从头算模拟实现HP-35的两阶段折叠。

Two-stage folding of HP-35 from ab initio simulations.

作者信息

Lei Hongxing, Duan Yong

机构信息

Genome Center and Department of Applied Science, University of California Davis, One Shields Avenue, Davis, CA 95616, USA.

出版信息

J Mol Biol. 2007 Jun 29;370(1):196-206. doi: 10.1016/j.jmb.2007.04.040. Epub 2007 Apr 20.

DOI:10.1016/j.jmb.2007.04.040

PMID:17512537

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2701201/

Abstract

Accurate ab initio simulation of protein folding is a critical step toward elucidation of protein-folding mechanisms. Here, we demonstrate highly accurate folding of the 35 residue villin headpiece subdomain (HP35) by all-atom molecular dynamics simulations using AMBER FF03 and the generalized-Born solvation model. In a set of 20 micros long simulations, the protein folded to the native state in multiple trajectories, with the lowest C(alpha) RMSD being 0.39 A for residues 2-34 (excluding residues 1 and 35). The native state had the highest population among all sampled conformations, and the center of most populated cluster had a C(alpha) RMSD of 1.63 A. Folding of this protein can be described as a two-stage process that followed a well-defined pathway. In the first stage, formation of helices II and III as a folding intermediate constituted the rate-limiting step and was initiated at a folding nucleus around residues Phe17 and Pro21. The folding intermediate further acted as a template that facilitated the folding and docking of helix I in the second stage. Detailed descriptions of the folding kinetics and the roles of key residues are presented.

摘要

对蛋白质折叠进行精确的从头算模拟是阐明蛋白质折叠机制的关键一步。在此，我们通过使用AMBER FF03和广义玻恩溶剂化模型的全原子分子动力学模拟，展示了35个残基的绒毛蛋白头部结构域（HP35）的高度精确折叠。在一组长达20微秒的模拟中，该蛋白质在多条轨迹中折叠成天然状态，对于残基2 - 34（不包括残基1和35），最低的Cα均方根偏差（RMSD）为0.39 Å。天然状态在所有采样构象中具有最高的丰度，且最丰富簇的中心的Cα RMSD为1.63 Å。该蛋白质的折叠可描述为一个遵循明确途径的两阶段过程。在第一阶段，作为折叠中间体的螺旋II和III的形成构成了限速步骤，并在围绕残基Phe17和Pro21的折叠核心处起始。折叠中间体在第二阶段进一步充当促进螺旋I折叠和对接的模板。文中给出了折叠动力学的详细描述以及关键残基的作用。

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