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蛋白质稳定化和霍夫迈斯特效应:疏水溶剂化的作用。

Protein stabilization and the Hofmeister effect: the role of hydrophobic solvation.

机构信息

Structural Biology Unit, Centro de Investigación Cooperativa bioGUNE, Derio, Spain.

出版信息

Biophys J. 2009 Nov 4;97(9):2595-603. doi: 10.1016/j.bpj.2009.08.029.

DOI:10.1016/j.bpj.2009.08.029
PMID:19883603
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2770621/
Abstract

Using the IGg binding domain of protein L from Streptoccocal magnus (ProtL) as a case study, we investigated how the anions of the Hofmeister series affect protein stability. To that end, a suite of lysine-to-glutamine modifications were obtained and structurally and thermodynamically characterized. The changes in stability introduced with the mutation are related to the solvent-accessible area of the side chain, specifically to the solvation of the nonpolar moiety of the residue. The thermostability for the set of ProtL mutants was determined in the presence of varying concentrations (0-1 M) of six sodium salts from the Hofmeister series: sulfate, phosphate, fluoride, nitrate, perchlorate, and thiocyanate. For kosmotropic anions (sulfate, phosphate, and fluoride), the stability changes induced by the cosolute (encoded in m(3)=deltaDeltaG(0)/deltaC(3)) are proportional to the surface changes introduced with the mutation. In contrast, the m(3) values measured for chaotropic anions are much more independent of such surface modifications. Our results are consistent with a model in which the increase in the solution surface tension induced by the anion stabilizes the folded conformation of the protein. This contribution complements the nonspecific and weak interactions between the ions and the protein backbone that shift the equilibrium toward the unfolded state.

摘要

以链球菌蛋白 L 的 IgG 结合结构域(ProtL)为研究对象,我们研究了霍夫迈斯特盐系列中的阴离子如何影响蛋白质稳定性。为此,获得了一系列赖氨酸到谷氨酰胺的突变体,并对其进行了结构和热力学表征。突变引入的稳定性变化与侧链的溶剂可及面积有关,特别是与残基中非极性部分的溶剂化作用有关。在含有从霍夫迈斯特盐系列中六种不同浓度(0-1 M)的六种钠盐的存在下,确定了一组 ProtL 突变体的热稳定性:硫酸盐、磷酸盐、氟化物、硝酸盐、高氯酸盐和硫氰酸盐。对于亲水性阴离子(硫酸盐、磷酸盐和氟化物),由共溶质(以 m(3)=deltaDeltaG(0)/deltaC(3)表示)引起的稳定性变化与突变引入的表面变化成正比。相比之下,对于离液性阴离子,测量的 m(3)值与这种表面修饰的相关性要小得多。我们的结果与一个模型一致,即阴离子诱导的溶液表面张力增加稳定了蛋白质的折叠构象。这一贡献补充了离子与蛋白质骨架之间的非特异性和弱相互作用,这些相互作用使平衡向未折叠状态移动。

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