Hydrogen bonds vs RMSD: Geometric reaction coordinates for protein folding

反作用坐标 分子动力学 回转半径 广义坐标 自由度(物理和化学) 正交坐标 反应动力学 平均力势 相空间 化学 统计物理学 计算化学 物理 经典力学 几何学 数学 热力学 有机化学 分子 聚合物
作者
Y. Kasprzak,J. Rückert,N. Ludolph,Ch. Hübner,Hauke Paulsen
出处
期刊:Journal of Chemical Physics [American Institute of Physics]
卷期号:162 (7) 被引量:1
标识
DOI:10.1063/5.0241564
摘要

Reaction coordinates are a useful tool that allows the complex dynamics of a protein in high-dimensional phase space to be projected onto a much simpler model with only a few degrees of freedom, while preserving the essential aspects of that dynamics. In this way, reaction coordinates could provide an intuitive, albeit simplified, understanding of the complex dynamics of proteins. Together with molecular dynamics (MD) simulations, reaction coordinates can also be used to sample the phase space very efficiently and to calculate transition rates and paths between different metastable states. Unfortunately, ideal reaction coordinates for a system capable of these performances are not known a priori, and an efficient calculation in the course of an MD simulation is currently an active field of research. An alternative is to use geometric reaction coordinates, which, although generally unable to provide quantitative accuracy, are useful for simplified mechanistic models of protein dynamics and can thus help gain insights into the fundamental aspects of these dynamics. In this study, five such geometric reaction coordinates, such as the end-to-end distance, the radius of gyration, the solvent accessible surface area, the root-mean-square distance (RMSD), and the mean native hydrogen bond length, are compared. For this purpose, extensive molecular dynamics simulations were carried out for two peptides and a small protein in order to calculate and compare free energy profiles with the aid of the reaction coordinates mentioned. While none of the investigated geometrical reaction coordinates could be demonstrated to be an optimal reaction coordinate, the RMSD and the mean native hydrogen bond length appeared to perform more effectively than the other three reaction coordinates.
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