We will concentrate on biochemical reaction networks, of interest in systems biology, in particular enzymatic networks, consisting of different types of multisite phosphorylation networks. One source of inspiration for our study with algebro-geometric tools is the following quote from the abstract of the paper [44]:"Multisite phosphorylation cycles are ubiquitous in cell regulation systems andare studied at multiple levels of complexity, from molecules to organisms, withthe ultimate goal of establishing predictive understanding of the effects of geneticand pharmacological perturbations of protein phosphorylation in vivo. Achievingthis goal is essentially impossible without mathematical models, which providea systematic framework for explori...
International audienceBiochemical networks are used in computational biology, to model the static an...
Feinberg s Chemical Reaction Network Theory (CRNT) connects the structure of a biochemical reaction ...
In this thesis we address dynamic systems problems that arise from the study of biochemical network...
A biochemical reaction network is the system in which biochemical species interact through various r...
In the context of (bio)chemical reaction networks, the dynamics of the concentrations of the chemica...
This dissertation develops the algebraic study of chemical reaction networks endowed with mass-actio...
Biochemical networks consist of highly interconnected dynamic systems of chemical reaction represent...
The aim of this thesis is to improve the understanding of signaling pathways through a theoretical s...
In biological organisms, networks of chemical reactions control the processing of information in a c...
This paper further develops the connection between Chemical Reaction Network Theory (CRNT) and Bioch...
Feinberg's Chemical Reaction Network Theory (CRNT) connects the structure of a biochemical reaction ...
Since quantitative knowledge of the complex (bio)chemical reaction networks is often very limited, f...
Feinberg's Chemical Reaction Network Theory (CRNT) connects the structure of a biochemical reaction ...
International audienceThomas's necessary conditions for the existence of multiple steady states in g...
Feinberg’s Chemical Reaction Network Theory (CRNT) connects the structure of a biochemical reaction ...
International audienceBiochemical networks are used in computational biology, to model the static an...
Feinberg s Chemical Reaction Network Theory (CRNT) connects the structure of a biochemical reaction ...
In this thesis we address dynamic systems problems that arise from the study of biochemical network...
A biochemical reaction network is the system in which biochemical species interact through various r...
In the context of (bio)chemical reaction networks, the dynamics of the concentrations of the chemica...
This dissertation develops the algebraic study of chemical reaction networks endowed with mass-actio...
Biochemical networks consist of highly interconnected dynamic systems of chemical reaction represent...
The aim of this thesis is to improve the understanding of signaling pathways through a theoretical s...
In biological organisms, networks of chemical reactions control the processing of information in a c...
This paper further develops the connection between Chemical Reaction Network Theory (CRNT) and Bioch...
Feinberg's Chemical Reaction Network Theory (CRNT) connects the structure of a biochemical reaction ...
Since quantitative knowledge of the complex (bio)chemical reaction networks is often very limited, f...
Feinberg's Chemical Reaction Network Theory (CRNT) connects the structure of a biochemical reaction ...
International audienceThomas's necessary conditions for the existence of multiple steady states in g...
Feinberg’s Chemical Reaction Network Theory (CRNT) connects the structure of a biochemical reaction ...
International audienceBiochemical networks are used in computational biology, to model the static an...
Feinberg s Chemical Reaction Network Theory (CRNT) connects the structure of a biochemical reaction ...
In this thesis we address dynamic systems problems that arise from the study of biochemical network...