滞后现象作为蛋白质中复杂、重叠景观的标志物。

Hysteresis as a Marker for Complex, Overlapping Landscapes in Proteins.

作者信息

Andrews Benjamin T, Capraro Dominique T, Sulkowska Joanna I, Onuchic José N, Jennings Patricia A

机构信息

Department of Medicinal Chemistry, University of Washington, Seattle, WA.

出版信息

J Phys Chem Lett. 2013 Jan 3;4(1):180-188. doi: 10.1021/jz301893w. Epub 2012 Dec 18.

DOI:10.1021/jz301893w

PMID:23525263

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3601837/

Abstract

Topologically complex proteins fold by multiple routes as a result of hard-to-fold regions of the proteins. Oftentimes these regions are introduced into the protein scaffold for function and increase frustration in the otherwise smooth-funneled landscape. Interestingly, while functional regions add complexity to folding landscapes, they may also contribute to a unique behavior referred to as hysteresis. While hysteresis is predicted to be rare, it is observed in various proteins, including proteins containing a unique peptide cyclization to form a fluorescent chromophore as well as proteins containing a knotted topology in their native fold. Here, hysteresis is demonstrated to be a consequence of the decoupling of unfolding events from the isomerization or hula-twist of a chromophore in one protein and the untying of the knot in a second protein system. The question now is- can hysteresis be a marker for the interplay of landscapes where complex folding and functional regions overlap?

摘要

由于蛋白质存在难以折叠的区域，拓扑结构复杂的蛋白质会通过多种途径进行折叠。通常，这些区域被引入蛋白质支架以实现功能，并在原本平滑的漏斗状折叠态势中增加了折叠的难度。有趣的是，虽然功能区域会增加折叠态势的复杂性，但它们也可能导致一种被称为滞后现象的独特行为。虽然预计滞后现象很少见，但在各种蛋白质中都观察到了，包括含有独特肽环化以形成荧光发色团的蛋白质以及天然折叠中含有打结拓扑结构的蛋白质。在这里，滞后现象被证明是一种蛋白质中发色团的异构化或呼啦圈扭转以及第二个蛋白质系统中结的解开与展开事件解耦的结果。现在的问题是——滞后现象能否作为复杂折叠和功能区域重叠的态势相互作用的一个标志？

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