International audienceThe pi-calculus, in particular its stochastic version the stochastic pi-calculus, is a common modeling formalism to concisely describe the chemical reactions occurring in biochemical systems. However, it remains largely unexplored how to transform a biochemical model expressed in the stochastic pi-calculus back into a set of meaningful reactions. To this end, we present a two step approach of first translating model states to reaction sets and then visualizing sequences of reaction sets, which are obtained from state trajectories, in terms of reaction networks. Our translation from model states to reaction sets is formally defined and shown to be correct, in the sense that it reflects the states and transitions as they...
In a variety of disciplines models are used to predict, measure or explain quantitative properties. ...
International audienceDesigning probabilistic reaction models and determining their stochastic kinet...
Stochasticity is a key characteristic of intracellular processes such as gene regulation and chemica...
Abstract. The pi-calculus, in particular its stochastic version the stochastic pi-calculus, is a com...
International audienceThe pi-calculus, in particular its stochastic version the stochastic pi-calcul...
We introduce a natural language interface for building stochastic pi calculus models of biological s...
AbstractThis paper presents a stochastic modelling framework based on stochastic automata networks (...
We describe a novel application of a stochastic name-passing calculus for the study of biomolecular ...
We consider stochastic descriptions of chemical reaction networks in which there are both fast and s...
Recent advances in systems biology have uncovered detailed mechanisms of biological pro-cesses such ...
In this talk, we present stochastic modeling and computational methods for the time-evolution of rea...
For cell-biological processes, it is the complex interaction of their biochemical components, affect...
We use the pi-calculus to model the evolution of biochemical systems, taking advantage of their simi...
Chemical reaction networks describe interactions between biochemical species. Once an underlying rea...
AbstractThe nanoκ calculus is a formalism that models biochemical systems by defining its set of rea...
In a variety of disciplines models are used to predict, measure or explain quantitative properties. ...
International audienceDesigning probabilistic reaction models and determining their stochastic kinet...
Stochasticity is a key characteristic of intracellular processes such as gene regulation and chemica...
Abstract. The pi-calculus, in particular its stochastic version the stochastic pi-calculus, is a com...
International audienceThe pi-calculus, in particular its stochastic version the stochastic pi-calcul...
We introduce a natural language interface for building stochastic pi calculus models of biological s...
AbstractThis paper presents a stochastic modelling framework based on stochastic automata networks (...
We describe a novel application of a stochastic name-passing calculus for the study of biomolecular ...
We consider stochastic descriptions of chemical reaction networks in which there are both fast and s...
Recent advances in systems biology have uncovered detailed mechanisms of biological pro-cesses such ...
In this talk, we present stochastic modeling and computational methods for the time-evolution of rea...
For cell-biological processes, it is the complex interaction of their biochemical components, affect...
We use the pi-calculus to model the evolution of biochemical systems, taking advantage of their simi...
Chemical reaction networks describe interactions between biochemical species. Once an underlying rea...
AbstractThe nanoκ calculus is a formalism that models biochemical systems by defining its set of rea...
In a variety of disciplines models are used to predict, measure or explain quantitative properties. ...
International audienceDesigning probabilistic reaction models and determining their stochastic kinet...
Stochasticity is a key characteristic of intracellular processes such as gene regulation and chemica...