一套关于WESTPA罕见事件采样软件的教程[文章v1.0]。

Anthony T Bogetti, Barmak Mostofian, Alex Dickson, A J Pratt, Ali S Saglam, Page O Harrison, Joshua L Adelman, Max Dudek, Paul A Torrillo, Alex J DeGrave, Upendra Adhikari, Matthew C Zwier, Daniel M Zuckerman, Lillian T Chong
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引用次数: 16

摘要

通过原子分子动力学模拟,加权系综(WE)策略已被证明在生成罕见事件(如蛋白质折叠和蛋白质结合)的途径和速率常数方面非常有效。在这里,我们将提供五个教程,指导用户使用WESTPA软件为各种应用程序准备、执行和分析we模拟的最佳实践。期望用户已经具有使用感兴趣的底层动力学引擎(例如Amber、Gromacs、OpenMM)运行标准分子动力学模拟的丰富经验。教程的范围从明确溶剂中的分子结合过程到更复杂的过程,如主客结合、肽构象采样和蛋白质折叠。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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A Suite of Tutorials for the WESTPA Rare-Events Sampling Software [Article v1.0].

The weighted ensemble (WE) strategy has been demonstrated to be highly efficient in generating pathways and rate constants for rare events such as protein folding and protein binding using atomistic molecular dynamics simulations. Here we present five tutorials instructing users in the best practices for preparing, carrying out, and analyzing WE simulations for various applications using the WESTPA software. Users are expected to already have significant experience with running standard molecular dynamics simulations using the underlying dynamics engine of interest (e.g. Amber, Gromacs, OpenMM). The tutorials range from a molecular association process in explicit solvent to more complex processes such as host-guest association, peptide conformational sampling, and protein folding.

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A Suite of Tutorials for the WESTPA 2.0 Rare-Events Sampling Software [Article v2.0]. Computing absolute binding affinities by Streamlined Alchemical Free Energy Perturbation [Article v1.0] Deep Learning for Molecules and Materials. Enhanced Sampling Methods for Molecular Dynamics Simulations [Article v1.0] A Guide to the Continuous Constant pH Molecular Dynamics Methods in Amber and CHARMM [Article v1.0].
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