On the Molecular Driving Force of Protein–Protein Association

Biophysica Pub Date : 2022-08-25 DOI:10.3390/biophysica2030023
R. Rapuano, G. Graziano
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引用次数: 1

Abstract

The amount of water-accessible-surface-area, WASA, buried upon protein–protein association is a good measure of the non-covalent complex stability in water; however, the dependence of the binding Gibbs free energy change upon buried WASA proves to be not trivial. We assign a precise physicochemical role to buried WASA in the thermodynamics of non-covalent association and perform close scrutiny of the contributions favoring and those contrasting protein–protein association. The analysis indicates that the decrease in solvent-excluded volume, an entropic effect, described by means of buried WASA, is the molecular driving force of non-covalent association in water.
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蛋白质-蛋白质结合的分子驱动力研究
蛋白质-蛋白质结合时的水可及表面积(WASA)是衡量非共价配合物在水中稳定性的一个很好的指标;然而,结合吉布斯自由能的变化对埋藏的WASA的依赖证明不是微不足道的。我们在非共价缔合热力学中赋予了埋藏的WASA精确的物理化学作用,并对蛋白质-蛋白质缔合的有利和相反的贡献进行了仔细的审查。分析表明,水非共价缔合的分子驱动力是非溶剂排除体积的减小,这是一种熵效应,用埋藏的WASA来描述。
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Biophysica
Biophysica
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1.60
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