球状蛋白
分子
化学
化学物理
溶菌酶
分子动力学
结晶学
内在无序蛋白质
溶剂化壳
表面蛋白
蛋白质结构
生物物理学
计算化学
溶剂化
生物化学
有机化学
病毒学
生物
作者
Derya Vural,Utsab R. Shrestha,Loukas Petridis,Jeremy C. Smith
标识
DOI:10.1016/j.bpj.2023.10.007
摘要
The dynamics and local structure of the hydration water on surfaces of folded proteins have been extensively investigated. However, our knowledge of the hydration of intrinsically disordered proteins (IDPs) is more limited. Here, we compare the local structure of water molecules hydrating a globular protein, lysozyme, and the intrinsically disordered N-terminal of c-Src kinase (SH4UD) using molecular dynamics simulation. The radial distributions from the protein surface of the first and the second hydration shells are similar for the folded protein and the IDP. However, water molecules in the first hydration shell of both the folded protein and the IDP are perturbed from the bulk. This perturbation involves a loss of tetrahedrality, which is, however, significantly more marked for the folded protein than the IDP. This difference arises from an increase in the first hydration shell of the IDP of the fraction of hydration water molecules interacting with oxygen. The water ordering is independent of the compactness of the IDP. In contrast, the lifetimes of water molecules in the first hydration shell increase with IDP compactness, indicating a significant impact of IDP configuration on water surface pocket kinetics, which here is linked to differential pocket volumes and polarities.
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