Efficient stochastic simulation of chemical kinetics networks using a weighted ensemble of trajectories.

Content Provider	Europe PMC
Author	Donovan, Rory M. Sedgewick, Andrew J. Faeder, James R. Zuckerman, Daniel M.
Copyright Year	2013
Abstract	We apply the “weighted ensemble” (WE) simulation strategy, previously employed in the context of molecular dynamics simulations, to a series of systems-biology models that range in complexity from a one-dimensional system to a system with 354 species and 3680 reactions. WE is relatively easy to implement, does not require extensive hand-tuning of parameters, does not depend on the details of the simulation algorithm, and can facilitate the simulation of extremely rare events. For the coupled stochastic reaction systems we study, WE is able to produce accurate and efficient approximations of the joint probability distribution for all chemical species for all time t. WE is also able to efficiently extract mean first passage times for the systems, via the construction of a steady-state condition with feedback. In all cases studied here, WE results agree with independent “brute-force” calculations, but significantly enhance the precision with which rare or slow processes can be characterized. Speedups over “brute-force” in sampling rare events via the Gillespie direct Stochastic Simulation Algorithm range from ∼1012 to ∼1018 for characterizing rare states in a distribution, and ∼102 to ∼104 for finding mean first passage times.
Related Links	https://europepmc.org/backend/ptpmcrender.fcgi?accid=PMC3790806&blobtype=pdf
ISSN	00219606
Volume Number	139
DOI	10.1063/1.4821167
PubMed Central reference number	PMC3790806
Issue Number	11
PubMed reference number	24070313
Journal	The Journal of Chemical Physics [J Chem Phys]
e-ISSN	10897690
Language	English
Publisher	AIP Publishing LLC
Publisher Date	2013-09-01
Access Restriction	Open
Rights License	Copyright © 2013 AIP Publishing LLC
Content Type	Text
Resource Type	Article
Subject	Physics and Astronomy Medicine Physical and Theoretical Chemistry