快速蛋白质折叠动力学

Fast protein folding kinetics.

作者信息

Schonbrun Jack, Dill Ken A

机构信息

Graduate Group in Biophysics, University of California, San Francisco, CA 94118, USA.

出版信息

Proc Natl Acad Sci U S A. 2003 Oct 28;100(22):12678-82. doi: 10.1073/pnas.1735417100. Epub 2003 Oct 20.

DOI:10.1073/pnas.1735417100

PMID:14569019

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC240677/

Abstract

Proteins are complex molecules, yet their folding kinetics is often fast (microseconds) and simple, involving only a single exponential function of time (called two-state kinetics). The main model for two-state kinetics has been transition-state theory, where an energy barrier defines a slow step to reach an improbable structure. But how can barriers explain fast processes, such as folding? We study a simple model with rigorous kinetics that explains the high speed instead as a result of the microscopic parallelization of folding trajectories. The single exponential results from a separation of timescales; the parallelization of routes is high at the start of folding and low thereafter. The ensemble of rate-limiting chain conformations is different from in transition-state theory; it is broad, overlaps with the denatured state, is not aligned along a single reaction coordinate, and involves well populated, rather than improbable, structures.

摘要

蛋白质是复杂的分子，但其折叠动力学通常很快（微秒级）且简单，仅涉及时间的单一指数函数（称为两态动力学）。两态动力学的主要模型一直是过渡态理论，其中一个能量屏障定义了达到一个不太可能的结构的缓慢步骤。但屏障如何解释诸如折叠这样的快速过程呢？我们研究了一个具有严格动力学的简单模型，该模型将高速解释为折叠轨迹微观并行化的结果。单一指数来自时间尺度的分离；折叠开始时路径的并行化程度高，之后则低。限速链构象的集合与过渡态理论中的不同；它很宽泛，与变性状态重叠，不沿单个反应坐标排列，并且涉及大量存在而非不太可能的结构。

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本文引用的文献

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