广义系综分子动力学模拟中平行运行数和偏强替换频率的影响

Takuya Shimato, K. Kasahara, J. Higo, Takuya Takahashi
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引用次数: 3

摘要

广义系综方法和分子动力学(MD)方法已被广泛应用。这种方法通常有两个特点。(i) 施加偏置电势,其强度在模拟过程中被替换。(ii)采样可以通过许多并行的模拟运行来执行。尽管偏置强度替换的频率和平行运行的数量可以调整,但这些设置对合成系综的影响仍不清楚。在这项研究中,我们在各种设置下对一种可折叠的迷你蛋白(Trp笼)和两种非结构肽(8个和20个残基的聚谷氨酸)进行了多正则MD模拟。因此,运行许多短期模拟为Trp笼模型产生了稳健的结果。关于偏置电位置换的频率,尽管使用高频增强了势能空间中的横向,但它并没有促进所有系统中的构象变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of number of parallel runs and frequency of bias-strength replacement in generalized ensemble molecular dynamics simulations
The generalized ensemble approach with the molecular dynamics (MD) method has been widely utilized. This approach usually has two features. (i) A bias potential, whose strength is replaced during a simulation, is applied. (ii) Sampling can be performed by many parallel runs of simulations. Although the frequency of the bias-strength replacement and the number of parallel runs can be adjusted, the effects of these settings on the resultant ensemble remain unclear. In this study, we performed multicanonical MD simulations for a foldable mini-protein (Trp-cage) and two unstructured peptides (8- and 20-residue poly-glutamic acids) with various settings. As a result, running many short simulations yielded robust results for the Trp-cage model. Regarding the frequency of the bias-potential replacement, although using a high frequency enhanced the traversals in the potential energy space, it did not promote conformational changes in all the systems.
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