Single-target networks

Gheorghe Craciun; Jiaxin Jin; Polly Y. Yu

doi:10.3934/DCDSB.2021065

Single-target networks

Gheorghe Craciun, Jiaxin Jin, Polly Y. Yu

Research output: Contribution to journal › Article › peer-review

Abstract

Reaction networks can be regarded as finite oriented graphs embedded in Euclidean space. Single-target networks are reaction networks with an arbitrarily set of source vertices, but only one sink vertex. We completely characterize the dynamics of all mass-action systems generated by single-target networks, as follows: either (i) the system is globally stable for all choice of rate constants (in fact, is dynamically equivalent to a detailed-balanced system with a single linkage class), or (ii) the system has no positive steady states for any choice of rate constants and all trajectories must converge to the boundary of the positive orthant or to infinity. Moreover, we show that global stability occurs if and only if the target vertex of the network is in the relative interior of the convex hull of the source vertices.

Original language	English (US)
Pages (from-to)	799-819
Number of pages	21
Journal	Discrete and Continuous Dynamical Systems - Series B
Volume	27
Issue number	2
DOIs	https://doi.org/10.3934/DCDSB.2021065
State	Published - Feb 2022
Externally published	Yes

Keywords

Chemical kinetics in thermodynamics
Dynamical systems in biology
Heat transfer
Kinetics in biochemical problems
Networks
Systems biology

ASJC Scopus subject areas

Discrete Mathematics and Combinatorics
Applied Mathematics

Online availability

10.3934/DCDSB.2021065

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title = "Single-target networks",

abstract = "Reaction networks can be regarded as finite oriented graphs embedded in Euclidean space. Single-target networks are reaction networks with an arbitrarily set of source vertices, but only one sink vertex. We completely characterize the dynamics of all mass-action systems generated by single-target networks, as follows: either (i) the system is globally stable for all choice of rate constants (in fact, is dynamically equivalent to a detailed-balanced system with a single linkage class), or (ii) the system has no positive steady states for any choice of rate constants and all trajectories must converge to the boundary of the positive orthant or to infinity. Moreover, we show that global stability occurs if and only if the target vertex of the network is in the relative interior of the convex hull of the source vertices.",

keywords = "Chemical kinetics in thermodynamics, Dynamical systems in biology, Heat transfer, Kinetics in biochemical problems, Networks, Systems biology",

author = "Gheorghe Craciun and Jiaxin Jin and Yu, {Polly Y.}",

note = "Acknowledgments. This work was supported in part by the National Science Foundation under grant DMS–1816238. P.Y.Y. was also partially supported by NSERC. 2020 Mathematics Subject Classification. Primary: 37N25, 92C42; Secondary: 80A30. Key words and phrases. Dynamical systems in biology, kinetics in biochemical problems, systems biology, networks, chemical kinetics in thermodynamics and heat transfer. The authors are supported by NSF grant DMS-1816238. ∗ Corresponding author: Jiaxin Jin.",

year = "2022",

month = feb,

doi = "10.3934/DCDSB.2021065",

language = "English (US)",

volume = "27",

pages = "799--819",

journal = "Discrete and Continuous Dynamical Systems - Series B",

issn = "1531-3492",

publisher = "American Institute of Mathematical Sciences",

number = "2",

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TY - JOUR

T1 - Single-target networks

AU - Craciun, Gheorghe

AU - Jin, Jiaxin

AU - Yu, Polly Y.

N1 - Acknowledgments. This work was supported in part by the National Science Foundation under grant DMS–1816238. P.Y.Y. was also partially supported by NSERC. 2020 Mathematics Subject Classification. Primary: 37N25, 92C42; Secondary: 80A30. Key words and phrases. Dynamical systems in biology, kinetics in biochemical problems, systems biology, networks, chemical kinetics in thermodynamics and heat transfer. The authors are supported by NSF grant DMS-1816238. ∗ Corresponding author: Jiaxin Jin.

PY - 2022/2

Y1 - 2022/2

N2 - Reaction networks can be regarded as finite oriented graphs embedded in Euclidean space. Single-target networks are reaction networks with an arbitrarily set of source vertices, but only one sink vertex. We completely characterize the dynamics of all mass-action systems generated by single-target networks, as follows: either (i) the system is globally stable for all choice of rate constants (in fact, is dynamically equivalent to a detailed-balanced system with a single linkage class), or (ii) the system has no positive steady states for any choice of rate constants and all trajectories must converge to the boundary of the positive orthant or to infinity. Moreover, we show that global stability occurs if and only if the target vertex of the network is in the relative interior of the convex hull of the source vertices.

AB - Reaction networks can be regarded as finite oriented graphs embedded in Euclidean space. Single-target networks are reaction networks with an arbitrarily set of source vertices, but only one sink vertex. We completely characterize the dynamics of all mass-action systems generated by single-target networks, as follows: either (i) the system is globally stable for all choice of rate constants (in fact, is dynamically equivalent to a detailed-balanced system with a single linkage class), or (ii) the system has no positive steady states for any choice of rate constants and all trajectories must converge to the boundary of the positive orthant or to infinity. Moreover, we show that global stability occurs if and only if the target vertex of the network is in the relative interior of the convex hull of the source vertices.

KW - Chemical kinetics in thermodynamics

KW - Dynamical systems in biology

KW - Heat transfer

KW - Kinetics in biochemical problems

KW - Networks

KW - Systems biology

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DO - 10.3934/DCDSB.2021065

M3 - Article

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JO - Discrete and Continuous Dynamical Systems - Series B

JF - Discrete and Continuous Dynamical Systems - Series B

IS - 2

ER -

Single-target networks

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