Coupling Particle-Based Reaction-Diffusion Simulations with Reservoirs Mediated by Reaction-Diffusion PDEs

Margarita Kostré, C. Schütte, Frank No'e, M. D. Razo
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引用次数: 8

Abstract

Open biochemical systems of interacting molecules are ubiquitous in life-related processes. However, established computational methodologies, like molecular dynamics, are still mostly constrained to closed systems and timescales too small to be relevant for life processes. Alternatively, particle-based reaction-diffusion models are currently the most accurate and computationally feasible approach at these scales. Their efficiency lies in modeling entire molecules as particles that can diffuse and interact with each other. In this work, we develop modeling and numerical schemes for particle-based reaction-diffusion in an open setting, where the reservoirs are mediated by reaction-diffusion PDEs. We derive two important theoretical results. The first one is the mean-field for open systems of diffusing particles; the second one is the mean-field for a particle-based reaction-diffusion system with second-order reactions. We employ these two results to develop a numerical scheme that consistently couples particle-based reaction-diffusion processes with reaction-diffusion PDEs. This allows modeling open biochemical systems in contact with reservoirs that are time-dependent and spatially inhomogeneous, as in many relevant real-world applications.
基于颗粒的反应扩散模拟与反应扩散偏微分方程介导的储层耦合
分子相互作用的开放生化系统在生命相关过程中无处不在。然而,现有的计算方法,如分子动力学,仍然主要局限于封闭系统和时间尺度太小,无法与生命过程相关。另外,基于粒子的反应扩散模型是目前在这些尺度上最准确和计算上可行的方法。它们的效率在于将整个分子建模为可以扩散和相互作用的粒子。在这项工作中,我们开发了开放环境中基于颗粒的反应扩散的建模和数值方案,其中储层由反应扩散偏微分方程介导。我们得到了两个重要的理论结果。第一个是扩散粒子开放系统的平均场;第二种是具有二阶反应的粒子基反应扩散系统的平均场。我们利用这两个结果开发了一个数值方案,该方案一致地将基于粒子的反应扩散过程与反应扩散偏微分方程耦合在一起。这使得与油藏接触的开放生化系统具有时间依赖性和空间非均匀性,就像在许多相关的实际应用中一样。
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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