小蛋白质解折叠态集合中的类天然平均结构。

Native-like mean structure in the unfolded ensemble of small proteins.

作者信息

Zagrovic Bojan, Snow Christopher D, Khaliq Siraj, Shirts Michael R, Pande Vijay S

机构信息

Biophysics Program, Stanford University, Stanford, CA 94305-5080, USA.

出版信息

J Mol Biol. 2002 Oct 11;323(1):153-64. doi: 10.1016/s0022-2836(02)00888-4.

DOI:10.1016/s0022-2836(02)00888-4

PMID:12368107

Abstract

The nature of the unfolded state plays a great role in our understanding of proteins. However, accurately studying the unfolded state with computer simulation is difficult, due to its complexity and the great deal of sampling required. Using a supercluster of over 10,000 processors we have performed close to 800 micros of molecular dynamics simulation in atomistic detail of the folded and unfolded states of three polypeptides from a range of structural classes: the all-alpha villin headpiece molecule, the beta hairpin tryptophan zipper, and a designed alpha-beta zinc finger mimic. A comparison between the folded and the unfolded ensembles reveals that, even though virtually none of the individual members of the unfolded ensemble exhibits native-like features, the mean unfolded structure (averaged over the entire unfolded ensemble) has a native-like geometry. This suggests several novel implications for protein folding and structure prediction as well as new interpretations for experiments which find structure in ensemble-averaged measurements.

摘要

未折叠状态的本质在我们对蛋白质的理解中起着重要作用。然而，由于其复杂性和所需的大量采样，用计算机模拟准确研究未折叠状态很困难。我们使用一个由一万多个处理器组成的超级集群，对来自一系列结构类别的三种多肽的折叠态和未折叠态进行了近800微秒的原子细节分子动力学模拟：全α肌动蛋白头部分子、β发夹色氨酸拉链以及一个设计的α-β锌指模拟物。折叠态和未折叠态系综之间的比较表明，尽管未折叠态系综中几乎没有单个成员表现出类似天然的特征，但平均未折叠结构（在整个未折叠态系综上平均）具有类似天然的几何形状。这对蛋白质折叠和结构预测提出了几个新的启示，也为在系综平均测量中发现结构的实验提供了新的解释。

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小蛋白质解折叠态集合中的类天然平均结构。

Native-like mean structure in the unfolded ensemble of small proteins.

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