Algebraic methods for the study of biochemical reaction network
Starts 14 Nov 2017 16:00
Ends 14 Nov 2017 17:00
Central European Time
Leonardo Building - Luigi Stasi Seminar Room
In recent years, techniques from computational and real algebraic geometry have been successfully used to address mathematical challenges in systems biology. (Bio)chemical reaction networks define systems of ordinary differential equations with (in general, unknown) parameters. Under mass-action kinetics, these equations depend polynomially on the concentrations of the chemical species. The algebraic theory of chemical reaction systems aims to understand their dynamic behavior by taking advantage of the inherent algebraic structure in the kinetic equations, and does not need a priori determination of the parameters, which can be theoretically or practically impossible.
I will first present a gentle introduction to the basic concepts. I will then describe general results based on the network structure. In particular, I will explain a general framework for biological systems, called MESSI systems, that describe Modifications of type Enzyme-Substrate or Swap with Intermediates, and include many post-translational modification networks. I will also outline recent methods to detect the capacity for multistationarity and to describe parameters for which multistationarity occurs, allowing for multiple steady states with the same total amounts.
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