English

Multiscale molecular kinetics by coupling Markov state models and reaction-diffusion dynamics

Chemical Physics 2021-12-10 v4 Biological Physics Computational Physics Biomolecules

Abstract

A novel approach to simulate simple protein-ligand systems at large time- and length-scales is to couple Markov state models (MSMs) of molecular kinetics with particle-based reaction-diffusion (RD) simulations, MSM/RD. Currently, MSM/RD lacks a mathematical framework to derive coupling schemes; is limited to isotropic ligands in a single conformational state, and is lacking a multi-particle extensions. In this work, we address these needs by developing a general MSM/RD framework by coarse-graining molecular dynamics into hybrid switching diffusion processes. Given enough data to parametrize the model, it is capable of modeling protein-protein interactions over large time- and length-scales, and it can be extended to handle multiple molecules. We derive the MSM/RD framework, and we implement and verify it for two protein-protein benchmark systems and one multiparticle implementation to model the formation of pentameric ring molecules. To enable reproducibility, we have published our code in the MSM/RD software package.

Keywords

Cite

@article{arxiv.2103.06889,
  title  = {Multiscale molecular kinetics by coupling Markov state models and reaction-diffusion dynamics},
  author = {Mauricio J. del Razo and Manuel Dibak and Christof Schütte and Frank Noé},
  journal= {arXiv preprint arXiv:2103.06889},
  year   = {2021}
}
R2 v1 2026-06-24T00:01:28.058Z