小分子细菌伴侣蛋白 HdeA 的结合与折叠。

Binding and folding of the small bacterial chaperone HdeA.

机构信息

Department of Chemistry, The University of Michigan , Ann Arbor, Michigan, United States.

出版信息

J Phys Chem B. 2013 Oct 24;117(42):13219-25. doi: 10.1021/jp403264s. Epub 2013 Jul 1.

DOI:10.1021/jp403264s

PMID:23738772

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3808462/

Abstract

The small pH stress-sensing chaperone HdeA helps pathogenic enteric E. coli survive passage through the severely acidic environment of the mammalian stomach. Under stress conditions, HdeA transitions from an inactive folded dimer to a chaperone-active unfolded monomer to prevent the acid-induced aggregation of periplasmic proteins. Here we use a topology-based Gō-like model to delineate the relationship between dimer interface formation and monomer folding and to better understand the structural details of the chaperone activation mechanism. Free energy surfaces show that dimer interface formation and monomer folding proceed concurrently through an on-pathway dimeric intermediate in which one monomer is partially unfolded. The absence of a preexisting fully folded monomer in the proposed binding mechanism is in agreement with HdeA's rapid chaperone response. Binding between unfolded monomers exhibits an enhancement of molecular recognition reminiscent of the fly-casting mechanism. Overall, our simulations further highlight the efficient nature of HdeA's chaperone response and we anticipate that knowledge of a dimeric intermediate will facilitate the interpretation of experimental studies.

摘要

小分子 pH 应激感应伴侣蛋白 HdeA 帮助肠道致病性大肠杆菌在哺乳动物胃酸环境中存活。在应激条件下，HdeA 从无活性的折叠二聚体转变为具有伴侣活性的展开单体，以防止周质蛋白的酸诱导聚集。在这里，我们使用基于拓扑的 Gō 样模型来描绘二聚体界面形成和单体折叠之间的关系，并更好地理解伴侣蛋白激活机制的结构细节。自由能表面表明，二聚体界面形成和单体折叠通过一种途径中的二聚体中间产物同时进行，其中一个单体部分展开。在提出的结合机制中，不存在预先存在的完全折叠的单体，这与 HdeA 快速伴侣蛋白反应一致。展开单体之间的结合表现出分子识别的增强，类似于飞钓机制。总体而言，我们的模拟进一步强调了 HdeA 伴侣蛋白反应的高效性质，我们预计二聚体中间产物的知识将有助于解释实验研究。

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