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膜蛋白的稳定性:与高分辨率结构测定中合适方法的选择的相关性。

Stability of membrane proteins: relevance for the selection of appropriate methods for high-resolution structure determinations.

作者信息

Rosenbusch J P

机构信息

Biozentrum, University of Basel, Switzerland.

出版信息

J Struct Biol. 2001 Nov;136(2):144-57. doi: 10.1006/jsbi.2001.4431.

Abstract

High stability is a prominent characteristic of integral membrane proteins of known atomic structure. But rather than being an intrinsic property, it may be due to a selection exerted by biochemical procedures prior to structure determination, since solubilization results in the transient exposure of membrane proteins to solution conditions. This may cause structural perturbations that interfere with 3D crystallization and hence with X-ray analysis. This problem also affects the preparation of samples for electron crystallography and NMR studies and may account for the fact that high-resolution structures of representatives of whole groups, such as transport proteins and signal transducers, have not been elucidated so far by any method. A knowledge of the proportion of labile proteins among membrane proteins, and of the kinetics of their denaturation, is therefore necessary. Establishing stability profiles, developing methods to maintain lateral pressure, or preventing contact with water (or both) should prove significant in establishing the structures of conformationally flexible proteins.

摘要

高稳定性是已知原子结构的整合膜蛋白的一个突出特征。但这并非其固有属性,而可能是由于在结构测定之前的生化程序所施加的选择作用,因为增溶会导致膜蛋白短暂暴露于溶液条件下。这可能会引起结构扰动,干扰三维结晶,进而影响X射线分析。这个问题也会影响用于电子晶体学和核磁共振研究的样品制备,并且可能解释了这样一个事实,即到目前为止,尚未通过任何方法阐明整个蛋白家族(如转运蛋白和信号转导器)代表的高分辨率结构。因此,了解膜蛋白中不稳定蛋白的比例及其变性动力学是必要的。建立稳定性概况、开发维持侧向压力的方法或防止与水接触(或两者兼备),对于确定构象灵活的蛋白结构应具有重要意义。

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