Compressibility of protein transitions

Nicolas Taulier, Tigran V. Chalikian
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引用次数: 128

Abstract

We review the results of compressibility studies on proteins and low molecular weight compounds that model the hydration properties of these biopolymers. In particular, we present an analysis of compressibility changes accompanying conformational transitions of globular proteins. This analysis, in conjunction with experimental compressibility data on protein transitions, were used to define the changes in the hydration properties and intrinsic packing associated with native-to-molten globule, native-to-partially unfolded, and native-to-fully unfolded transitions of globular proteins. In addition, we discuss the molecular origins of predominantly positive changes in compressibility observed for pressure-induced denaturation transitions of globular proteins. Throughout this review, we emphasize the importance of compressibility data for characterizing protein transitions, while also describing how such data can be interpreted to gain insight into role that hydration and intrinsic packing play in modulating the stability of and recognition between proteins and other biologically important compounds.

蛋白质转变的可压缩性
我们回顾了蛋白质和低分子量化合物的可压缩性研究结果,这些研究模拟了这些生物聚合物的水合性质。特别地,我们提出了随球状蛋白构象转变的可压缩性变化的分析。这一分析,结合蛋白质转变的实验压缩性数据,被用来定义与球状蛋白质从原生到熔融、从原生到部分展开、从原生到完全展开转变相关的水合性质和内在堆积的变化。此外,我们还讨论了球形蛋白在压力诱导变性转变中观察到的压缩性的主要积极变化的分子起源。在这篇综述中,我们强调了可压缩性数据对表征蛋白质转变的重要性,同时也描述了如何解释这些数据,以深入了解水合作用和内在包装在调节蛋白质和其他重要生物化合物之间的稳定性和识别方面所起的作用。
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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