Absolute concentration robustness in power law kinetic systems

Absolute concentration robustness in power law kinetic systems

Absolute concentration robustness (ACR) is a condition wherein a species in a chemical kinetic system possesses the same value for any positive steady state the network may admit regardless of initial conditions. Thus far, results on ACR center on chemical kinetic systems with deficiency one. In thi...

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Main Authors: Fortun, Noel T., Mendoza, Eduardo R.
Format: text
Published: Animo Repository 2021
Subjects:
Chemical kinetics
Chemistry
Online Access:https://animorepository.dlsu.edu.ph/faculty_research/11317
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Institution: De La Salle University
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spelling oai:animorepository.dlsu.edu.ph:faculty_research-116442023-11-20T09:12:38Z Absolute concentration robustness in power law kinetic systems Fortun, Noel T. Mendoza, Eduardo R. Absolute concentration robustness (ACR) is a condition wherein a species in a chemical kinetic system possesses the same value for any positive steady state the network may admit regardless of initial conditions. Thus far, results on ACR center on chemical kinetic systems with deficiency one. In this contribution, we use the idea of dynamic equivalence of chemical reaction networks to derive novel results that guarantee ACR for some classes of power law kinetic systems with deficiency zero. Furthermore, using network decomposition, we identify ACR in higher deficiency networks (i.e. deficiency ≥ 2) by considering the presence of a low deficiency subnetwork with ACR. Network decomposition also enabled us to recognize and define a weaker form of concentration robustness than ACR, which we named as ‘balanced concentration robustness’. Finally, we discuss and emphasize our view of ACR as a primarily kinetic character rather than a condition that arises from structural sources. 2021-01-01T08:00:00Z text https://animorepository.dlsu.edu.ph/faculty_research/11317 Faculty Research Work Animo Repository Chemical kinetics Chemistry
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
Chemistry
spellingShingle Chemical kinetics
Chemistry
Fortun, Noel T.
Mendoza, Eduardo R.
Absolute concentration robustness in power law kinetic systems
description Absolute concentration robustness (ACR) is a condition wherein a species in a chemical kinetic system possesses the same value for any positive steady state the network may admit regardless of initial conditions. Thus far, results on ACR center on chemical kinetic systems with deficiency one. In this contribution, we use the idea of dynamic equivalence of chemical reaction networks to derive novel results that guarantee ACR for some classes of power law kinetic systems with deficiency zero. Furthermore, using network decomposition, we identify ACR in higher deficiency networks (i.e. deficiency ≥ 2) by considering the presence of a low deficiency subnetwork with ACR. Network decomposition also enabled us to recognize and define a weaker form of concentration robustness than ACR, which we named as ‘balanced concentration robustness’. Finally, we discuss and emphasize our view of ACR as a primarily kinetic character rather than a condition that arises from structural sources.
format text
author Fortun, Noel T.
Mendoza, Eduardo R.
author_facet Fortun, Noel T.
Mendoza, Eduardo R.
author_sort Fortun, Noel T.
title Absolute concentration robustness in power law kinetic systems
title_short Absolute concentration robustness in power law kinetic systems
title_full Absolute concentration robustness in power law kinetic systems
title_fullStr Absolute concentration robustness in power law kinetic systems
title_full_unstemmed Absolute concentration robustness in power law kinetic systems
title_sort absolute concentration robustness in power law kinetic systems
publisher Animo Repository
publishDate 2021
url https://animorepository.dlsu.edu.ph/faculty_research/11317
_version_ 1783960713238151168

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