非天然相互作用对 PKD 结构域的机械强度至关重要。

Non-native interactions are critical for mechanical strength in PKD domains.

机构信息

Cambridge University Chemical Laboratory, MRC Centre for Protein Engineering, Lensfield Road, Cambridge, CB2 1EW, UK.

Institute of Molecular and Cellular Biology, University of Leeds, Leeds, LS2 9JT, UK.

出版信息

Structure. 2009 Dec 9;17(12):1582-1590. doi: 10.1016/j.str.2009.09.013.

DOI:10.1016/j.str.2009.09.013

PMID:20004162

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2862302/

Abstract

Experimental observation has led to the commonly held view that native state protein topology is the principle determinant of mechanical strength. However, the PKD domains of polycystin-1 challenge this assumption: they are stronger than predicted from their native structure. Molecular dynamics simulations suggest that force induces rearrangement to an intermediate structure, with nonnative hydrogen bonds, that resists unfolding. Here we test this hypothesis directly by introducing mutations designed to prevent formation of these nonnative interactions. We find that these mutations, which only moderately destabilize the native state, reduce the mechanical stability dramatically. The results demonstrate that nonnative interactions impart significant mechanical stability, necessary for the mechanosensor function of polycystin-1. Remarkably, such nonnative interactions result from force-induced conformational change: the PKD domain is strengthened by the application of force.

摘要

实验观察导致了一种普遍的观点，即天然状态下蛋白质的拓扑结构是机械强度的主要决定因素。然而，多囊蛋白-1 的 PKD 结构域挑战了这一假设：它们比从天然结构预测的强度更强。分子动力学模拟表明，力诱导重新排列到中间结构，形成非天然氢键，从而抵抗展开。在这里，我们通过引入旨在防止形成这些非天然相互作用的突变来直接检验这一假设。我们发现，这些突变仅适度降低天然状态的稳定性，但显著降低机械稳定性。结果表明，非天然相互作用赋予多囊蛋白-1 机械感受器功能所需的显著机械稳定性。值得注意的是，这种非天然相互作用是力诱导构象变化的结果：PKD 结构域在力的作用下得到加强。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/348f/2862302/4b960fcc00d7/gr1.jpg

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非天然相互作用对 PKD 结构域的机械强度至关重要。

Non-native interactions are critical for mechanical strength in PKD domains.

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