We formally characterize a set of causality-based properties of metabolic networks. This set of properties aims at making precise several notions on the production of metabolites, which are familiar in the biologists' terminology. From a theoretical point of view, biochemical reactions are abstractly represented as causal implications and the produced metabolites as causal consequences of the implication representing the corresponding reaction. The fact that a reactant is produced is represented by means of the chain of reactions that have made it exist. Such representation abstracts away from quantities, stoichiometric and thermodynamic parameters and constitutes the basis for the characterization of our properties. Moreover, we propose an...
A dynamical system obtains a wide variety of kinetic realizations, which is advantageous for the ana...
Systems biologists increasingly use network representations to investigate biochemical pathways and ...
Reaction systems are a qualitative formalism for modeling systems of biochemical reactions character...
We formally characterize a set of causality-based properties of metabolic networks. This set of prop...
We formally characterize a set of causality-based properties of metabolic networks. This set of prop...
We propose a formal analysis approach aiming at featuring both expressiveness and ease of use. Its ...
AbstractWe use the π-calculus to model the evolution of biochemical systems, taking advantage of the...
An increasing number of researchers is trying to define models of biochemical pathways via theoretic...
Reaction systems are a qualitative formalism for the modelling of systems of biochemical reactions. ...
Modelling is becoming a necessity in studying biological signalling pathways, because the combinator...
Reaction systems are a formal model of interactions between biochemical reactions. In this note we i...
In traditional engineering disciplines, the construction of a system is usually preceded by a formal...
Modeling mechanisms is central to the biological sciences – for purposes of explanation, prediction,...
Abstract. In this article we present the Biochemical Abstract Machine BIOCHAM and advocate its use a...
The network metaphor is currently one of the most common general paradigms in biological sciences: t...
A dynamical system obtains a wide variety of kinetic realizations, which is advantageous for the ana...
Systems biologists increasingly use network representations to investigate biochemical pathways and ...
Reaction systems are a qualitative formalism for modeling systems of biochemical reactions character...
We formally characterize a set of causality-based properties of metabolic networks. This set of prop...
We formally characterize a set of causality-based properties of metabolic networks. This set of prop...
We propose a formal analysis approach aiming at featuring both expressiveness and ease of use. Its ...
AbstractWe use the π-calculus to model the evolution of biochemical systems, taking advantage of the...
An increasing number of researchers is trying to define models of biochemical pathways via theoretic...
Reaction systems are a qualitative formalism for the modelling of systems of biochemical reactions. ...
Modelling is becoming a necessity in studying biological signalling pathways, because the combinator...
Reaction systems are a formal model of interactions between biochemical reactions. In this note we i...
In traditional engineering disciplines, the construction of a system is usually preceded by a formal...
Modeling mechanisms is central to the biological sciences – for purposes of explanation, prediction,...
Abstract. In this article we present the Biochemical Abstract Machine BIOCHAM and advocate its use a...
The network metaphor is currently one of the most common general paradigms in biological sciences: t...
A dynamical system obtains a wide variety of kinetic realizations, which is advantageous for the ana...
Systems biologists increasingly use network representations to investigate biochemical pathways and ...
Reaction systems are a qualitative formalism for modeling systems of biochemical reactions character...