The authors argue for the need to model and analyze biological networks at molecular and cellular levels. They propose a computational toolbox for biologists. Central to their approach is the paradigm of hybrid models in which discrete events are combined with continuous differential equations to capture switching behavior
How do living cells compute and control themselves, and communicate with their environment? We desc...
The central question of systems biology is to understand how individual components of a biological s...
Computational modeling has become an efficient tool for studying complex systems such as biological,...
The authors argue for the need to model and analyze biological networks at molecular and cellular le...
Computational modeling of biological networks permits the comprehensive analysis of cells and tissue...
In an age where the volume of data regarding biological systems exceeds our ability to analyse it, m...
International audienceBiological regulatory networks often give rise to new mathematical problems fo...
A network facilitates the description of selective interactions among the variables of a system. In ...
Systems biology aims at understanding the holistic behavior of biological systems. A very important ...
How good is our understanding of the way cells treat information and make decisions? To what extend ...
We have witnessed an explosive growth in research involving mathematical models and computer simula...
All processes of life are controlled by networks of interacting biochemical components. The purpose ...
Systems biology aims at understanding the holistic behavior of biological systems. A very important ...
Biological networks are currently being studied with approaches derived from the mathematical and ph...
The science of complex biological networks is transforming research in areas ranging from evolutiona...
How do living cells compute and control themselves, and communicate with their environment? We desc...
The central question of systems biology is to understand how individual components of a biological s...
Computational modeling has become an efficient tool for studying complex systems such as biological,...
The authors argue for the need to model and analyze biological networks at molecular and cellular le...
Computational modeling of biological networks permits the comprehensive analysis of cells and tissue...
In an age where the volume of data regarding biological systems exceeds our ability to analyse it, m...
International audienceBiological regulatory networks often give rise to new mathematical problems fo...
A network facilitates the description of selective interactions among the variables of a system. In ...
Systems biology aims at understanding the holistic behavior of biological systems. A very important ...
How good is our understanding of the way cells treat information and make decisions? To what extend ...
We have witnessed an explosive growth in research involving mathematical models and computer simula...
All processes of life are controlled by networks of interacting biochemical components. The purpose ...
Systems biology aims at understanding the holistic behavior of biological systems. A very important ...
Biological networks are currently being studied with approaches derived from the mathematical and ph...
The science of complex biological networks is transforming research in areas ranging from evolutiona...
How do living cells compute and control themselves, and communicate with their environment? We desc...
The central question of systems biology is to understand how individual components of a biological s...
Computational modeling has become an efficient tool for studying complex systems such as biological,...