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根据静电相互作用的贡献,用盐酸胍或尿素使蛋白质变性可提供不同的稳定性估计。

Protein denaturation with guanidine hydrochloride or urea provides a different estimate of stability depending on the contributions of electrostatic interactions.

作者信息

Monera O D, Kay C M, Hodges R S

机构信息

Department of Biochemistry, University of Alberta, Edmonton, Canada.

出版信息

Protein Sci. 1994 Nov;3(11):1984-91. doi: 10.1002/pro.5560031110.

DOI:10.1002/pro.5560031110
PMID:7703845
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2142645/
Abstract

The objective of this study was to address the question of whether or not urea and guanidine hydrochloride (GdnHCl) give the same estimates of the stability of a particular protein. We previously suspected that the estimates of protein stability from GdnHCl and urea denaturation data might differ depending on the electrostatic interactions stabilizing the proteins. Therefore, 4 coiled-coil analogs were designed, where the number of intrachain and interchain electrostatic attractions (A) were systematically changed to repulsions (R): 20A, 15A5R, 10A10R, and 20R. The GdnHCl denaturation data showed that the 4 coiled-coil analogs, which had electrostatic interactions ranging from 20 attractions to 20 repulsions, had very similar [GdnHCl]1/2 values (average of congruent to 3.5 M) and, as well, their delta delta Gu values were very close to 0 (0.2 kcal/mol). In contrast, urea denaturation showed that the [urea]1/2 values proportionately decreased with the stepwise change from 20 electrostatic attractions to 20 repulsions (20A, 7.4 M; 15A5R, 5.4 M; 10A10R, 3.2 M; and 20R, 1.4 M), and the delta delta Gu values correspondingly increased with the increasing differences in electrostatic interactions (20A-15A5R, 1.5 kcal/mol; 20A-10A10R, 3.7 kcal/mol; and 20A-20R, 5.8 kcal/mol). These results indicate that the ionic nature of GdnHCl masks electrostatic interactions in these model proteins, a phenomenon that was absent when the unchanged urea was used. Thus, GdnHCl and urea denaturations may give vastly different estimates of protein stability, depending on how important electrostatic interactions are to the protein.

摘要

本研究的目的是解决尿素和盐酸胍(GdnHCl)对特定蛋白质稳定性的评估是否相同这一问题。我们之前怀疑,基于GdnHCl和尿素变性数据得出的蛋白质稳定性评估可能因稳定蛋白质的静电相互作用而有所不同。因此,设计了4种卷曲螺旋类似物,其中链内和链间静电吸引力(A)的数量被系统地改变为排斥力(R):20A、15A5R、10A10R和20R。GdnHCl变性数据表明,这4种具有从20个吸引力到20个排斥力不等的静电相互作用的卷曲螺旋类似物,具有非常相似的[GdnHCl]1/2值(平均约为3.5 M),而且它们的ΔΔGu值非常接近0(0.2 kcal/mol)。相比之下,尿素变性表明,[尿素]1/2值随着从20个静电吸引力到20个排斥力的逐步变化而相应降低(20A,7.4 M;15A5R,5.4 M;10A10R,3.2 M;20R,1.4 M),并且ΔΔGu值随着静电相互作用差异的增加而相应增加(20A - 15A5R,1.5 kcal/mol;20A - 10A10R,3.7 kcal/mol;20A - 20R,5.8 kcal/mol)。这些结果表明,GdnHCl的离子性质掩盖了这些模型蛋白质中的静电相互作用,而使用未改变的尿素时不存在这种现象。因此,根据静电相互作用对蛋白质的重要程度,GdnHCl和尿素变性可能会给出截然不同的蛋白质稳定性评估。

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