Chemical Reaction Network Decomposition Technique for Stability Analysis
Abstract
This paper develops the concept of decomposition for chemical reaction networks, based on which a network decomposition technique is proposed to capture the stability of large-scale networks characterized by a high number of species, high dimension, high deficiency, and/or non-weakly reversible structure. We present some sufficient conditions to capture the stability of a network (may possess any dimension, any deficiency, and/or any topological structure) when it can be decomposed into a complex balanced subnetwork and a few 1-dimensional subnetworks (and/or a few two-species subnetworks), especially in the case when there are shared species in different subnetworks. The results cover encouraging applications on autocatalytic networks with some frequently-encountered biochemical reactions examples of interest, such as the autophosphorylation of PAK1 and Aurora B kinase, autocatalytic cycles originating from metabolism, etc.
Cite
@article{arxiv.2102.10636,
title = {Chemical Reaction Network Decomposition Technique for Stability Analysis},
author = {Yafei Lu and Chuanhou Gao and Denis Dochain},
journal= {arXiv preprint arXiv:2102.10636},
year = {2021}
}
Comments
20 pages