Reactant subspaces and kinetics of chemical reaction networks

This paper studies a chemical reaction network’s (CRN) reactant subspace, i.e. the linear subspace generated by its reactant complexes, to elucidate its role in the system’s kinetic behaviour. We introduce concepts such as reactant rank and reactant deficiency and compare them with their analogues c...

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Main Authors: Arceo, Carlene Perpetua P., Jose, Editha C., Lao, Angelyn R., Mendoza, Eduardo R.
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Online Access:https://animorepository.dlsu.edu.ph/faculty_research/2620
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Institution: De La Salle University
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spelling oai:animorepository.dlsu.edu.ph:faculty_research-36192021-10-20T01:59:10Z Reactant subspaces and kinetics of chemical reaction networks Arceo, Carlene Perpetua P. Jose, Editha C. Lao, Angelyn R. Mendoza, Eduardo R. This paper studies a chemical reaction network’s (CRN) reactant subspace, i.e. the linear subspace generated by its reactant complexes, to elucidate its role in the system’s kinetic behaviour. We introduce concepts such as reactant rank and reactant deficiency and compare them with their analogues currently used in chemical reaction network theory. We construct a classification of CRNs based on the type of intersection between the reactant subspace R and the stoichiometric subspace S and identify the subnetwork of S-complexes, i.e. complexes which, when viewed as vectors, are contained in S, as a tool to study the network classes, which play a key role in the kinetic behaviour. Our main results on new connections between reactant subspaces and kinetic properties are (1) determination of kinetic characteristics of CRNs with zero reactant deficiency by considering the difference between (network) deficiency and reactant deficiency, (2) resolution of the coincidence problem between the reactant and kinetic subspaces for complex factorizable kinetics via an analogue of the generalized Feinberg–Horn theorem, and (3) construction of an appropriate subspace for the parametrization and uniqueness of positive equilibria for complex factorizable power law kinetics, extending the work of Müller and Regensburger. © 2017, The Author(s). 2018-02-01T08:00:00Z text https://animorepository.dlsu.edu.ph/faculty_research/2620 Faculty Research Work Animo Repository Chemical kinetics Chemical reaction, Conditions and laws of Chemistry Mathematics Physical Sciences and Mathematics
institution De La Salle University
building De La Salle University Library
continent Asia
country Philippines
Philippines
content_provider De La Salle University Library
collection DLSU Institutional Repository
topic Chemical kinetics
Chemical reaction, Conditions and laws of
Chemistry
Mathematics
Physical Sciences and Mathematics
spellingShingle Chemical kinetics
Chemical reaction, Conditions and laws of
Chemistry
Mathematics
Physical Sciences and Mathematics
Arceo, Carlene Perpetua P.
Jose, Editha C.
Lao, Angelyn R.
Mendoza, Eduardo R.
Reactant subspaces and kinetics of chemical reaction networks
description This paper studies a chemical reaction network’s (CRN) reactant subspace, i.e. the linear subspace generated by its reactant complexes, to elucidate its role in the system’s kinetic behaviour. We introduce concepts such as reactant rank and reactant deficiency and compare them with their analogues currently used in chemical reaction network theory. We construct a classification of CRNs based on the type of intersection between the reactant subspace R and the stoichiometric subspace S and identify the subnetwork of S-complexes, i.e. complexes which, when viewed as vectors, are contained in S, as a tool to study the network classes, which play a key role in the kinetic behaviour. Our main results on new connections between reactant subspaces and kinetic properties are (1) determination of kinetic characteristics of CRNs with zero reactant deficiency by considering the difference between (network) deficiency and reactant deficiency, (2) resolution of the coincidence problem between the reactant and kinetic subspaces for complex factorizable kinetics via an analogue of the generalized Feinberg–Horn theorem, and (3) construction of an appropriate subspace for the parametrization and uniqueness of positive equilibria for complex factorizable power law kinetics, extending the work of Müller and Regensburger. © 2017, The Author(s).
format text
author Arceo, Carlene Perpetua P.
Jose, Editha C.
Lao, Angelyn R.
Mendoza, Eduardo R.
author_facet Arceo, Carlene Perpetua P.
Jose, Editha C.
Lao, Angelyn R.
Mendoza, Eduardo R.
author_sort Arceo, Carlene Perpetua P.
title Reactant subspaces and kinetics of chemical reaction networks
title_short Reactant subspaces and kinetics of chemical reaction networks
title_full Reactant subspaces and kinetics of chemical reaction networks
title_fullStr Reactant subspaces and kinetics of chemical reaction networks
title_full_unstemmed Reactant subspaces and kinetics of chemical reaction networks
title_sort reactant subspaces and kinetics of chemical reaction networks
publisher Animo Repository
publishDate 2018
url https://animorepository.dlsu.edu.ph/faculty_research/2620
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