用单分子力谱法破译天然膜蛋白的分子相互作用。

Alexej Kedrov, Harald Janovjak, K Tanuj Sapra, Daniel J Müller
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引用次数: 123

摘要

分子相互作用是生物过程的基本语言。它们建立了蛋白质和其他大分子之间相互作用的力,从而确定了它们的功能角色。因为分子间的相互作用几乎触发了每一个生物过程,所以破译它们语言的方法是必要的。单分子力谱(SMFS)已被用于检测和表征天然膜蛋白之间和内部发生的不同类型的分子相互作用。第一个实验检测并定位了稳定膜蛋白的分子相互作用,包括这些相互作用是如何在α -螺旋二级结构元素折叠成天然蛋白时建立的,以及它们是如何随着寡聚化、温度和突变而变化的。SMFS还使研究人员能够检测和定位在配体和抑制剂结合过程中建立的分子相互作用。这些令人兴奋的应用为研究生命的分子力量提供了机会。进一步的发展将阐明分子相互作用的起源编码在他们的生命周期,相互作用的范围,相互作用和生物系统的动力学特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Deciphering molecular interactions of native membrane proteins by single-molecule force spectroscopy.

Molecular interactions are the basic language of biological processes. They establish the forces interacting between the building blocks of proteins and other macromolecules, thus determining their functional roles. Because molecular interactions trigger virtually every biological process, approaches to decipher their language are needed. Single-molecule force spectroscopy (SMFS) has been used to detect and characterize different types of molecular interactions that occur between and within native membrane proteins. The first experiments detected and localized molecular interactions that stabilized membrane proteins, including how these interactions were established during folding of alpha-helical secondary structure elements into the native protein and how they changed with oligomerization, temperature, and mutations. SMFS also enables investigators to detect and locate molecular interactions established during ligand and inhibitor binding. These exciting applications provide opportunities for studying the molecular forces of life. Further developments will elucidate the origins of molecular interactions encoded in their lifetimes, interaction ranges, interplay, and dynamics characteristic of biological systems.

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