Coclique level structure for stochastic chemical reaction networks

Author(s)

Bruno, Simone; Fu, Yi; Campos, Felipe A.; Del Vecchio, Domitilla; Williams, Ruth J.

Abstract

Continuous time Markov chains are commonly used as models for the stochastic behavior of chemical reaction networks. More precisely, these Stochastic Chemical Reaction Networks (SCRNs) are frequently used to gain a mechanistic understanding of how chemical reaction rate parameters impact the stochastic behavior of these systems. One property of interest is mean first passage times (MFPTs) between states. However, deriving explicit formulas for MFPTs can be highly complex. In order to address this problem, we first introduce the concept of $$coclique\, level\, structure$$ and develop theorems to determine whether certain SCRNs have this feature by studying associated graphs. Additionally, we develop an algorithm to identify, under specific assumptions, all possible coclique level structures associated with a given SCRN. Finally, we demonstrate how the presence of such a structure in a SCRN allows us to derive closed form formulas for both upper and lower bounds for the MFPTs. Our methods can be applied to SCRNs taking values in a generic finite state space and can also be applied to models with non-mass-action kinetics. We illustrate our results with examples from the biological areas of epigenetics, neurobiology and ecology.

Date issued

2025-11-10

URI

https://hdl.handle.net/1721.1/163672

Department

Massachusetts Institute of Technology. Department of Mechanical Engineering

Journal

Journal of Mathematical Biology

Publisher

Springer Berlin Heidelberg

Citation

Bruno, S., Fu, Y., Campos, F.A. et al. Coclique level structure for stochastic chemical reaction networks. J. Math. Biol. 91, 78 (2025).

Version: Final published version