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引用次数: 0
摘要
我们介绍了一种增强采样算法,即使用于偏置的集体变量(CV)不是最佳的,也能获得收敛的分子稀有事件自由能景观。我们的方法是即时概率增强采样(OPES)及其探索变体 OPES Explore(OPESe)的结合。我们展示了这一组合算法在二维 Wolfe-Quapp 势、胰蛋白酶-苯甲脒复合物中配体-受体结合以及木犀草素的折叠-解折上的成功应用。除了计算精确的自由能曲线外,我们还能发现次优 CV 空间无法区分的其他可转移构型。此外,我们还可以通过改变 OPES 和 OPESe 组件中势垒参数的比例来控制精度和收敛速度之间的权衡。自由能计算效率和精度的提高,以及使用通用直观集合变量的可能性,使我们提出的算法在复杂分子系统的模拟中大有可为。
Enhanced Sampling with Sub-optimal Collective Variables: Reconciling Accuracy and Convergence Speed
We introduce an enhanced sampling algorithm to obtain converged free energy landscapes of molecular rare events, even when the collective variable (CV) used for biasing is not optimal. Our approach is a combination of the On-the-fly probability enhanced sampling (OPES) and its exploratory variant, OPES Explore (OPESe). We demonstrate the successful application of this combined algorithm on the two-dimensional Wolfe-Quapp potential, ligand-receptor binding in trypsin-benzamidine complex, and folding-unfolding of chignolin. Apart from computing accurate free energy profiles, we can discover additional metastable configurations not distinguished by the sub-optimal CV space. Moreover, we can control the trade-off between accuracy and convergence speed by varying the ratio of the barrier parameters in OPES and OPESe components. The improved efficiency and accuracy of free energy calculation, and the possibility of using generic and intuitive collective variables, make our proposed algorithm particularly promising for the simulation of complex molecular systems.
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