Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
6929119 | Journal of Computational Physics | 2018 | 43 Pages |
Abstract
In diffusion controlled reversible bimolecular reactions in three dimensions, a dissociation step is typically followed by multiple, rapid re-association steps slowing down the simulations of such systems. In order to improve the efficiency, we first derive an exact Green's function describing the rate at which an isolated pair of particles undergoing reversible bimolecular reactions and unimolecular decay separates beyond an arbitrarily chosen distance. Then the Green's function is used in an algorithm for particle-based stochastic reaction-diffusion simulations for prediction of the dynamics of biochemical networks. The accuracy and efficiency of the algorithm are evaluated using a reversible reaction and a push-pull chemical network. The computational work is independent of the rates of the re-associations.
Related Topics
Physical Sciences and Engineering
Computer Science
Computer Science Applications
Authors
Zahedeh Bashardanesh, Per Lötstedt,