AbstractBiomolecular systems, composed of networks of proteins, underlie the major functions of living cells. Compartments are key to the organization of such systems. We have previously developed an abstraction for biomolecular systems using the π-calculus process algebra, which successfully handled their molecular and biochemical aspects, but provided only a limited solution for representing compartments. In this work, we extend this abstraction to handle compartments. We are motivated by the ambient calculus, a process algebra for the specification of process location and movement through computational domains. We present the BioAmbients calculus, which is suitable for representing various aspects of molecular localization and compartmen...
Biological systems employ compartmentalization and other co-localization strategies in order to orch...
A central claim of computational systems biology is that, by drawing on mathematical approaches deve...
AbstractThe use of process calculi to represent biological systems has led to the design of differen...
AbstractBiomolecular systems, composed of networks of proteins, underlie the major functions of livi...
AbstractCompartments and membranes play an important role in cell biology. Therefore it is highly de...
This paper introduces Protein Calculus, a special modeling language designed for encoding and calcul...
The BioAmbients calculus is a process algebra suitable for representing compartmentalization, molecu...
Compartmentalization is a fundamental ingredient, central to the functioning of biological systems a...
AbstractVarious calculi have been proposed to model different levels of abstraction of cell signalin...
Compartments and membranes are the basis of cell topology and more than 30% of the human genome code...
Abstract. This paper introduces Protein Calculus, a special modeling language designed for encoding ...
AbstractThe use of process calculi to represent biological systems has led to the design of differen...
We investigate static hierarchies of biological systems through Beta-binders, a recently developed p...
International audienceThe use of process calculi to represent biological systems has led to the desi...
Abstract. In this article we present the Biochemical Abstract Machine BIOCHAM and advocate its use a...
Biological systems employ compartmentalization and other co-localization strategies in order to orch...
A central claim of computational systems biology is that, by drawing on mathematical approaches deve...
AbstractThe use of process calculi to represent biological systems has led to the design of differen...
AbstractBiomolecular systems, composed of networks of proteins, underlie the major functions of livi...
AbstractCompartments and membranes play an important role in cell biology. Therefore it is highly de...
This paper introduces Protein Calculus, a special modeling language designed for encoding and calcul...
The BioAmbients calculus is a process algebra suitable for representing compartmentalization, molecu...
Compartmentalization is a fundamental ingredient, central to the functioning of biological systems a...
AbstractVarious calculi have been proposed to model different levels of abstraction of cell signalin...
Compartments and membranes are the basis of cell topology and more than 30% of the human genome code...
Abstract. This paper introduces Protein Calculus, a special modeling language designed for encoding ...
AbstractThe use of process calculi to represent biological systems has led to the design of differen...
We investigate static hierarchies of biological systems through Beta-binders, a recently developed p...
International audienceThe use of process calculi to represent biological systems has led to the desi...
Abstract. In this article we present the Biochemical Abstract Machine BIOCHAM and advocate its use a...
Biological systems employ compartmentalization and other co-localization strategies in order to orch...
A central claim of computational systems biology is that, by drawing on mathematical approaches deve...
AbstractThe use of process calculi to represent biological systems has led to the design of differen...