Injectivity, multiple zeros, and multistationarity in reaction networks

Bidragets oversatte titel: Injectivity, multiple zeros, and multistationarity in reaction networks

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Abstract

Polynomial dynamical systems are widely used to model and study real phenomena. In biochemistry, they are the preferred choice for modelling the concentration of chemical species in reaction networks with mass-action kinetics. These systems are typically parameterised by many (unknown) parameters. A goal is to understand how properties of the dynamical systems depend on the parameters. Qualitative properties relating to the behaviour of a dynamical system are locally inferred from the system at steady state. Here we focus on steady states that are the positive solutions to a parameterised system of generalised polynomial equations. In recent years, methods from computational algebra have been developed to understand these solutions, but our knowledge is limited: for example, we cannot efficiently decide how many positive solutions the system has as a function of the parameters. Even deciding whether there is one or more solutions is non-trivial. We present a new method, based on so-called injectivity, to preclude or assert that multiple positive solutions exist. The results apply to generalised polynomials and variables can be restricted to the linear, parameter-independent first integrals of the dynamical system. The method has been tested in a wide range of systems.
Bidragets oversatte titelInjectivity, multiple zeros, and multistationarity in reaction networks
OriginalsprogEngelsk
Artikelnummer2173
TidsskriftProceedings of the Royal Society of Edinburgh Section A: Mathematics
Vol/bind471
ISSN0308-2105
DOI
StatusUdgivet - 2015

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