Mathematical Biosciences and Engineering (Jan 2020)

Realizations of kinetic differential equations

  • Gheorghe Craciun,
  • Matthew D. Johnston ,
  • Gábor Szederkényi,
  • Elisa Tonello ,
  • János Tóth,
  • Polly Y. Yu

DOI
https://doi.org/10.3934/mbe.2020046
Journal volume & issue
Vol. 17, no. 1
pp. 862 – 892

Abstract

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The induced kinetic differential equations of a reaction network endowed with mass action type kinetics is a system of polynomial differential equations. The problem studied here is: Given a system of polynomial differential equations, is it possible to find a network which induces these equations; in other words: is it possible to find a kinetic realization of this system of differential equations? If yes, can we find a network with some chemically relevant properties (implying also important dynamic consequences), such as reversibility, weak reversibility, zero deficiency, detailed balancing, complex balancing, mass conservation, etc.? The constructive answers presented to a series of questions of the above type are useful when fitting differential equations to datasets, or when trying to find out the dynamic behavior of the solutions of differential equations. It turns out that some of these results can be applied when trying to solve seemingly unrelated mathematical problems, like the existence of positive solutions to algebraic equations.

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