Flow Matching for Optimal Reaction Coordinates of Biomolecular System

Mingyuan Zhang, Zhicheng Zhang, Yong Wang, Hao Wu
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Abstract

We present Flow Matching for Reaction Coordinates (FMRC), a novel deep learning algorithm designed to identify optimal reaction coordinates (RC) in biomolecular reversible dynamics. FMRC is based on the mathematical principles of lumpability and decomposability, which we reformulate into a conditional probability framework for efficient data-driven optimization using deep generative models. While FMRC does not explicitly learn the well-established transfer operator or its eigenfunctions, it can effectively encode the dynamics of leading eigenfunctions of the system transfer operator into its low-dimensional RC space. We further quantitatively compare its performance with several state-of-the-art algorithms by evaluating the quality of Markov State Models (MSM) constructed in their respective RC spaces, demonstrating the superiority of FMRC in three increasingly complex biomolecular systems. Finally, we discuss its potential applications in downstream applications such as enhanced sampling methods and MSM construction.
生物分子系统最佳反应坐标的流动匹配
我们介绍了反应坐标流匹配(FMRC),这是一种新颖的深度学习算法,旨在识别生物分子可逆动力学中的最佳反应坐标(RC)。FMRC 基于可凑合性和可分解性的数学原理,我们将其重新表述为条件概率框架,以便使用深度生成模型进行高效的数据驱动优化。虽然 FMRC 并不明确学习成熟的转移算子或其特征函数,但它能有效地将系统转移算子的领先特征函数的动态编码到其低维 RC 空间中。通过评估在各自 RC 空间中构建的马尔可夫状态模型(MSM)的质量,我们进一步定量比较了 FMRC 与几种最先进算法的性能,证明了 FMRC 在三个日益复杂的生物分子系统中的优越性。最后,我们讨论了 FMRC 在增强采样方法和 MSM 构建等下游应用中的潜在应用。
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