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一次一个分子的蛋白质机械生物化学。

Mechanical biochemistry of proteins one molecule at a time.

作者信息

Oberhauser Andres F, Carrión-Vázquez Mariano

机构信息

Department of Neuroscience and Cell Biology, University of Texas Medical Branch, Galveston, Texas 77555, USA.

出版信息

J Biol Chem. 2008 Mar 14;283(11):6617-21. doi: 10.1074/jbc.R700050200. Epub 2008 Jan 14.

DOI:10.1074/jbc.R700050200
PMID:18195002
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2441867/
Abstract

The activity of proteins and their complexes often involves the conversion of chemical energy (stored or supplied) into mechanical work through conformational changes. Mechanical forces are also crucial for the regulation of the structure and function of cells and tissues. Thus, the shape of eukaryotic cells (and by extension, that of the multicellular organisms they form) is the result of cycles of mechanosensing, mechanotransduction, and mechanoresponse. Recently developed single-molecule atomic force microscopy techniques can be used to manipulate single molecules, both in real time and under physiological conditions, and are ideally suited to directly quantify the forces involved in both intra- and intermolecular protein interactions. In combination with molecular biology and computer simulations, these techniques have been applied to characterize the unfolding and refolding reactions in a variety of proteins. Single-molecule mechanical techniques are providing fundamental information on the structure and function of proteins and are becoming an indispensable tool to understand how these molecules fold and work.

摘要

蛋白质及其复合物的活性通常涉及通过构象变化将化学能(储存的或供应的)转化为机械功。机械力对于细胞和组织的结构与功能调节也至关重要。因此,真核细胞(进而它们所形成的多细胞生物体的细胞)的形状是机械传感、机械转导和机械反应循环的结果。最近开发的单分子原子力显微镜技术可用于在生理条件下实时操纵单个分子,非常适合直接量化分子内和分子间蛋白质相互作用中涉及的力。结合分子生物学和计算机模拟,这些技术已被用于表征多种蛋白质的展开和重折叠反应。单分子力学技术正在提供有关蛋白质结构和功能的基础信息,并正成为理解这些分子如何折叠和发挥作用的不可或缺的工具。

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