International audienceWe consider the problem of binomiality of the steady state ideals of biochemical reaction networks. We are interested in finding polynomial conditions on the parameters such that the steady state ideal of a chemical reaction network is binomial under every specialisation of the parameters if the conditions on the parameters hold. We approach the binomiality problem using Comprehensive Gröbner systems. Considering rate constants as parameters, we compute comprehensive Gröbner systems for various reactions. In particular, we make automatic computations on n-site phosphorylations and biomodels from the Biomodels repository using the grobcov library of the computer algebra system Singular
We present two quantitative behavioral equivalences over species of a chemical reaction network (CRN...
The realization problem in reaction kinetics Reaction kinetic systems form a special class of positi...
The purpose of the lecture associated with this paper is to present problems, concepts, and theorems...
International audienceWe study binomiality of the steady state ideals of chemical reaction networks....
International audienceMotivated by problems from Chemical Reaction Network Theory, we investigate wh...
Considering rate constants as indeterminates, the concept of unconditional binomiality has been intr...
This dissertation develops the algebraic study of chemical reaction networks endowed with mass-actio...
El principal objetivo de este trabajo es aplicar y desarrollar herramientas de álgebra (computaciona...
We will concentrate on biochemical reaction networks, of interest in systems biology, in particular ...
In the context of (bio)chemical reaction networks, the dynamics of the concentrations of the chemica...
Mass-action chemical reaction systems are frequently used in computational biology. The correspondin...
textabstractThe purpose of the lecture associated with this paper is to present problems, concepts, ...
We present two quantitative behavioral equivalences over species of a chemical reaction network (CRN...
In biological organisms, networks of chemical reactions control the processing of information in a c...
The nonlinearities found in molecular networks usually prevent mathematical analysis of network beha...
We present two quantitative behavioral equivalences over species of a chemical reaction network (CRN...
The realization problem in reaction kinetics Reaction kinetic systems form a special class of positi...
The purpose of the lecture associated with this paper is to present problems, concepts, and theorems...
International audienceWe study binomiality of the steady state ideals of chemical reaction networks....
International audienceMotivated by problems from Chemical Reaction Network Theory, we investigate wh...
Considering rate constants as indeterminates, the concept of unconditional binomiality has been intr...
This dissertation develops the algebraic study of chemical reaction networks endowed with mass-actio...
El principal objetivo de este trabajo es aplicar y desarrollar herramientas de álgebra (computaciona...
We will concentrate on biochemical reaction networks, of interest in systems biology, in particular ...
In the context of (bio)chemical reaction networks, the dynamics of the concentrations of the chemica...
Mass-action chemical reaction systems are frequently used in computational biology. The correspondin...
textabstractThe purpose of the lecture associated with this paper is to present problems, concepts, ...
We present two quantitative behavioral equivalences over species of a chemical reaction network (CRN...
In biological organisms, networks of chemical reactions control the processing of information in a c...
The nonlinearities found in molecular networks usually prevent mathematical analysis of network beha...
We present two quantitative behavioral equivalences over species of a chemical reaction network (CRN...
The realization problem in reaction kinetics Reaction kinetic systems form a special class of positi...
The purpose of the lecture associated with this paper is to present problems, concepts, and theorems...