Symbolic rewriting systems are gaining interest as tools for simulating biochemical dynamics. Compared to traditional methods based on differential equations, the symbolic approach allows a straightforward translation of a signal transduction network into a system of rewriting rules capable of describing the network dynamics by means of a proper application of these rules. Coherently with this design approach, our algorithm applies rewriting rules proportionally to the values assumed by specific reaction maps. Such maps are nonlinear functions of the state of the system. Preliminary results obtained using this algorithm in the simulation of a known model of circadian rhythms in Drosophila envision its potential applicability in reproducing ...
AbstractWe present two process algebra models of a Kai-protein based circadian clock. Our models are...
SummaryWith our growing awareness of the complexity underlying biological phenomena, our need for co...
Abstract. We discuss the symbolic dynamics of biochemical net-works with separate timescales. We sho...
A symbolic-based approach to modelling biochemical processes and cellular dynamics is likely to tur...
Membrane systems are gaining a prominent role in the modeling of biochemical processes and cellular ...
International audienceUnderstanding the dynamical behavior of biological networks is complicated due...
International audienceSystems biologists build models of bio-molecular processes from knowledge acqu...
International audienceSystems Biology is an approach to biology that involves understanding the comp...
Modelling of the dynamics of biochemical reaction networks typically proceeds by solving ordinary di...
Biological systems consist of many components and interactions between them. In Systems Biology the ...
We analyze a class of ordinary differential equations representing a simplified model of a genetic n...
The post-genomic era has opened new insights into the complex biochemical reaction systems present i...
Modeling and simulation of biochemical reactions is of great interest in the context of system biolo...
Recent advances in systems biology have uncovered detailed mechanisms of biological pro-cesses such ...
International audienceIn this course we will present some of the simulation methods most widely used...
AbstractWe present two process algebra models of a Kai-protein based circadian clock. Our models are...
SummaryWith our growing awareness of the complexity underlying biological phenomena, our need for co...
Abstract. We discuss the symbolic dynamics of biochemical net-works with separate timescales. We sho...
A symbolic-based approach to modelling biochemical processes and cellular dynamics is likely to tur...
Membrane systems are gaining a prominent role in the modeling of biochemical processes and cellular ...
International audienceUnderstanding the dynamical behavior of biological networks is complicated due...
International audienceSystems biologists build models of bio-molecular processes from knowledge acqu...
International audienceSystems Biology is an approach to biology that involves understanding the comp...
Modelling of the dynamics of biochemical reaction networks typically proceeds by solving ordinary di...
Biological systems consist of many components and interactions between them. In Systems Biology the ...
We analyze a class of ordinary differential equations representing a simplified model of a genetic n...
The post-genomic era has opened new insights into the complex biochemical reaction systems present i...
Modeling and simulation of biochemical reactions is of great interest in the context of system biolo...
Recent advances in systems biology have uncovered detailed mechanisms of biological pro-cesses such ...
International audienceIn this course we will present some of the simulation methods most widely used...
AbstractWe present two process algebra models of a Kai-protein based circadian clock. Our models are...
SummaryWith our growing awareness of the complexity underlying biological phenomena, our need for co...
Abstract. We discuss the symbolic dynamics of biochemical net-works with separate timescales. We sho...