INVESTIGADORES
DICKENSTEIN Alicia Marcela
artículos
Título:
Implicit dose-response curves
Autor/es:
A DICKENSTEIN, M. PÉREZ MILLÁN
Revista:
JOURNAL OF MATHEMATICAL BIOLOGY
Editorial:
SPRINGER
Referencias:
Lugar: Berlin; Año: 2015 vol. 2015 p. 1669 - 1684
ISSN:
0303-6812
Resumen:
We develop tools from computational algebraic geometry for the study of steady state features of autonomous polynomial dynamical systems via elimination of variables. In particular, we obtain nontrivial bounds for the steady state concentration of a given species in biochemical reaction networks with mass-action kinetics. This species is understood as the output of the network and we thus bound the maximal response of the system. The improved bounds give smaller starting boxes to launch numerical methods. We apply our results to the sequential enzymatic network studied in Markevich et al.(2004) to find nontrivial upper bounds for the different substrate concentrations at steady state. Our approach does not require any simulation, analytical expression to describe the output in terms of the input, or the absence of multistationarity. Instead, we show how to extract information from effectively computable implicit dose-response curves with the use of resultants and discriminants. We moreover illustrate in the application to an enzymatic network, the relation between the exact implicit dose-response curve we obtain symbolically and the standard hysteresis diagram provided by a numerical solver.The setting and tools we propose could yield many other results adapted to any autonomous polynomial dynamical system, beyond those where it is possible to get explicit expressions.