This work studies biological in silico networks. It assess the question of integration, formalism and model of biological networks and subnetworks. First, an integration tool called Cyclone was developed to simplify the access and analyse biological information of the Biocyc database. Then, a graph model framework to analyse heterogeneous networks, MIB (for Biological Interaction Model) is presented. Finally, on one hand, these methods were used to study how subnetworks were linked together and to study network motifs in larger networks, and on the other hand, to study and model the metabolic pathway of galactose in yeast (Saccharomyces cerevisiae) that includes a heterogeneous feedback loop made of protein-protein interaction and transcrip...
The continuing growth in high-throughput data acquisition has led to a proliferation of network mode...
L'identification des interactions survenant au niveau moléculaire joue un rôle crucial pour la compr...
Large-scale molecular interaction data sets have the potential to provide a comprehensive, system-wi...
Life within an organism is sustained by biomolecular interactions. Mapping networks of interactions ...
The scientific domain of the Systems Biology studies the interactions between the components of a bi...
Le domaine scientifique de la Biologie des Systèmes étudie les interactions entre les composantes d'...
Biological systems can be very complex and consist of several thousand components that interact with...
Le domaine scientifique de la Biologie des Systèmes étudie les interactions entre les composantes d'...
Biological systems are complex systems, in that they cannot be fully understood through sole study o...
The current biological data is very diverse. It is located in different databases and it is presente...
The complex environment of a living cell contains many molecules interacting in a variety of ways. E...
Systems biology is a recent field of science that proposes the study of living organisms as they are...
Understanding networks of biological interactions is essential to all life sciences. Nowadays, a lar...
Systems biology aims at building computational models of biological pathways in order to study in si...
Abstract Background The study of complex biological n...
The continuing growth in high-throughput data acquisition has led to a proliferation of network mode...
L'identification des interactions survenant au niveau moléculaire joue un rôle crucial pour la compr...
Large-scale molecular interaction data sets have the potential to provide a comprehensive, system-wi...
Life within an organism is sustained by biomolecular interactions. Mapping networks of interactions ...
The scientific domain of the Systems Biology studies the interactions between the components of a bi...
Le domaine scientifique de la Biologie des Systèmes étudie les interactions entre les composantes d'...
Biological systems can be very complex and consist of several thousand components that interact with...
Le domaine scientifique de la Biologie des Systèmes étudie les interactions entre les composantes d'...
Biological systems are complex systems, in that they cannot be fully understood through sole study o...
The current biological data is very diverse. It is located in different databases and it is presente...
The complex environment of a living cell contains many molecules interacting in a variety of ways. E...
Systems biology is a recent field of science that proposes the study of living organisms as they are...
Understanding networks of biological interactions is essential to all life sciences. Nowadays, a lar...
Systems biology aims at building computational models of biological pathways in order to study in si...
Abstract Background The study of complex biological n...
The continuing growth in high-throughput data acquisition has led to a proliferation of network mode...
L'identification des interactions survenant au niveau moléculaire joue un rôle crucial pour la compr...
Large-scale molecular interaction data sets have the potential to provide a comprehensive, system-wi...