具有原子细节的蛋白质拥挤效应的热力学和动力学性质的模拟与建模
Simulation and Modeling of Crowding Effects on the Thermodynamic and Kinetic Properties of Proteins with Atomic Details.
作者信息
Zhou Huan-Xiang, Qin Sanbo
机构信息
Department of Physics and Institute of Molecular Biophysics, Florida State University, Tallahassee, Florida 32306, USA.
出版信息
Biophys Rev. 2013 Jun 1;5(2):207-215. doi: 10.1007/s12551-013-0101-7.
Abstract
Recent experimental studies of protein folding and binding under crowded solutions suggest that crowding agents exert subtle influences on the thermodynamic and kinetic properties of the proteins. While some of the crowding effects can be understood qualitatively from simple models of the proteins, quantitative rationalization of these effects requires an atomistic representation of the protein molecules in modeling their interactions with crowders. A computational approach, known as postprocessing, has opened the door for atomistic modeling of crowding effects. This review summarizes the applications of the postprocessing approach for studying crowding effects on the thermodynamics and kinetics of protein folding, conformational transition, and binding. The integration of atomistic modeling with experiments in crowded solutions promises new insight into biochemical processes in cellular environments.
摘要
近期关于拥挤溶液中蛋白质折叠和结合的实验研究表明,拥挤剂对蛋白质的热力学和动力学性质产生微妙影响。虽然部分拥挤效应可从简单的蛋白质模型定性理解,但要对这些效应进行定量解释,则需要在模拟蛋白质与拥挤剂的相互作用时,采用蛋白质分子的原子模型。一种名为后处理的计算方法,为拥挤效应的原子模型研究打开了大门。本综述总结了后处理方法在研究拥挤效应影响蛋白质折叠、构象转变和结合的热力学与动力学方面的应用。在拥挤溶液中将原子模型与实验相结合,有望为细胞环境中的生化过程带来新的见解。
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