蛋白质折叠过程中蛋白质硬度的变化可检测蛋白质折叠中间体。

Changes of protein stiffness during folding detect protein folding intermediates.

作者信息

Małek Katarzyna E, Szoszkiewicz Robert

机构信息

Department of Physics, Kansas State University, Manhattan, KS, 66506-2601, USA.

出版信息

J Biol Phys. 2014 Jan;40(1):15-23. doi: 10.1007/s10867-013-9331-y. Epub 2013 Aug 24.

DOI:10.1007/s10867-013-9331-y

PMID:23975672

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3923959/

Abstract

Single-molecule force-quench atomic force microscopy (FQ-AFM) is used to detect folding intermediates of a simple protein by detecting changes of molecular stiffness of the protein during its folding process. Those stiffness changes are obtained from shape and peaks of an autocorrelation of fluctuations in end-to-end length of the folding molecule. The results are supported by predictions of the equipartition theorem and agree with existing Langevin dynamics simulations of a simplified model of a protein folding. In the light of the Langevin simulations the experimental data probe an ensemble of random-coiled collapsed states of the protein, which are present both in the force-quench and thermal-quench folding pathways.

摘要

单分子力猝灭原子力显微镜（FQ-AFM）通过检测简单蛋白质在折叠过程中分子刚度的变化来检测其折叠中间体。这些刚度变化是从折叠分子端到端长度波动的自相关形状和峰值中获得的。结果得到了均分定理预测的支持，并与现有蛋白质折叠简化模型的朗之万动力学模拟结果一致。根据朗之万模拟，实验数据探测了蛋白质的随机卷曲塌缩态集合，这些态存在于力猝灭和热猝灭折叠途径中。

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