使用分子动力学对β-发夹进行机械展开。

Mechanical unfolding of a beta-hairpin using molecular dynamics.

作者信息

Bryant Z, Pande V S, Rokhsar D S

机构信息

Department of Molecular and Cell Biology, University of California at Berkeley, 94720-7300, USA.

出版信息

Biophys J. 2000 Feb;78(2):584-9. doi: 10.1016/S0006-3495(00)76618-5.

DOI:10.1016/S0006-3495(00)76618-5

PMID:10653773

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1300663/

Abstract

Single-molecule mechanical unfolding experiments have the potential to provide insights into the details of protein folding pathways. To investigate the relationship between force-extension unfolding curves and microscopic events, we performed molecular dynamics simulations of the mechanical unfolding of the C-terminal hairpin of protein G. We have studied the dependence of the unfolding pathway on pulling speed, cantilever stiffness, and attachment points. Under conditions that generate low forces, the unfolding trajectory mimics the untethered, thermally accessible pathway previously proposed based on high-temperature studies. In this stepwise pathway, complete breakdown of backbone hydrogen bonds precedes dissociation of the hydrophobic cluster. Under more extreme conditions, the cluster and hydrogen bonds break simultaneously. Transitions between folding intermediates can be identified in our simulations as features of the calculated force-extension curves.

摘要

单分子力学解折叠实验有潜力深入了解蛋白质折叠途径的细节。为了研究力-伸长解折叠曲线与微观事件之间的关系，我们对蛋白质G的C末端发夹结构进行了力学解折叠的分子动力学模拟。我们研究了解折叠途径对拉伸速度、悬臂刚度和附着点的依赖性。在产生低力的条件下，解折叠轨迹模拟了先前基于高温研究提出的无束缚、热可及途径。在这个逐步途径中，主链氢键的完全断裂先于疏水簇的解离。在更极端的条件下，簇和氢键同时断裂。在我们的模拟中，可以将折叠中间体之间的转变识别为计算出的力-伸长曲线的特征。

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本文引用的文献

Understanding beta-hairpin formation.理解β-发夹结构的形成。

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Molecular dynamics simulations of unfolding and refolding of a beta-hairpin fragment of protein G.蛋白质G的β-发夹片段展开与重折叠的分子动力学模拟

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