Forces and factors that contribute to the structural stability of membrane proteins

Tuomas Haltia, Ernesto Freire
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引用次数: 34

Abstract

While a considerable amount of literature deals with the structural energetics of water-soluble proteins, relatively little is known about the forces that determine the stability of membrane proteins. Similarly, only a few membrane protein structures are known at atomic resolution, although new structures have recently been described. In this article, we review the current knowledge about the structural features of membrane proteins. We then proceed to summarize the existing literature regarding the thermal stability of bacteriorhodopsin, cytochrome-c oxidase, the band 3 protein, Photosystem II and porins. We conclude that a fundamental difference between soluble and membrane proteins is the high thermal stability of intrabilayer secondary structure elements in membrane proteins. This property manifests itself as incomplete unfolding, and is reflected in the observed low enthalpies of denaturation of most membrane proteins. By contrast, the extramembranous parts of membrane proteins may behave much like soluble proteins. A brief general account of thermodynamics factors that contribute to the stability of water soluble and membrane proteins is presented.

促进膜蛋白结构稳定性的力量和因素
虽然相当多的文献涉及水溶性蛋白的结构能量学,但对决定膜蛋白稳定性的力的了解相对较少。同样,只有少数膜蛋白结构在原子分辨率上是已知的,尽管最近有新的结构被描述。本文就膜蛋白结构特征的研究进展作一综述。然后,我们对现有的关于细菌紫质、细胞色素c氧化酶、带3蛋白、光系统II和孔蛋白的热稳定性的文献进行了总结。我们得出结论,可溶性蛋白和膜蛋白之间的根本区别是膜蛋白层内二级结构元件的高热稳定性。这一特性表现为不完全展开,并反映在大多数膜蛋白的低变性焓中。相比之下,膜蛋白的膜外部分可能表现得很像可溶性蛋白。简要介绍了影响水溶性和膜蛋白稳定性的热力学因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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