Biochemical mechanisms with mass action kinetics are usually modeled as systems of ordinary differential equations (ODE) or bipartite graphs. We present a software module for the numerical analysis of ODE models of biochemical mechanisms of chemical species and elementary reactions (BMCSER) within the programming environment of CAS Mathematica. The module BMCSER also visualizes the bipartite graph of biochemical mechanisms. Numerical examples, including a double phosphorylation model, are presented demonstrating the scientific applications and the visualization properties of the module. ACM Computing Classification System (1998): G.4
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International audienceIn this invited paper, we survey some of the results obtained in the computer ...
International audienceIn Mathematical Biology, many dynamical models of biochemical reaction systems...
International audienceSystems biology aims at understanding complex biological processes in terms of...
There are many software applications for simulation and analysis of biochemical reactions and their ...
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Biochemical pathways have traditionally been modeled using ordinary differential equations (ODEs), a...
AbstractThis paper described methods for constructing (digital) computer models of biochemical syste...
Background: Given the complex mechanisms underlying biochemical processes systems biology researcher...
In silico models for biochemical systems are usually built by extracting in vitro kinetic expression...
This paper introduces Protein Calculus, a special modeling language designed for encoding and calcul...
One of the main challenges in the biomedical sciences is the determination of reaction mechanisms th...
We report on a technique for modelling biological systems based on the ntcc calculus, a model of co...
Statement of the problem. The development of computational models allows one to easily reveal and qu...
In Mathematical Biology, many dynamical models of biochemical reaction systems are presented with Or...
A central claim of computational systems biology is that, by drawing on mathematical approaches deve...
International audienceIn this invited paper, we survey some of the results obtained in the computer ...
International audienceIn Mathematical Biology, many dynamical models of biochemical reaction systems...
International audienceSystems biology aims at understanding complex biological processes in terms of...
There are many software applications for simulation and analysis of biochemical reactions and their ...
AbstractIn this work we present Bio-PEPA, a process algebra for the modelling and the analysis of bi...
Biochemical pathways have traditionally been modeled using ordinary differential equations (ODEs), a...
AbstractThis paper described methods for constructing (digital) computer models of biochemical syste...
Background: Given the complex mechanisms underlying biochemical processes systems biology researcher...
In silico models for biochemical systems are usually built by extracting in vitro kinetic expression...
This paper introduces Protein Calculus, a special modeling language designed for encoding and calcul...
One of the main challenges in the biomedical sciences is the determination of reaction mechanisms th...
We report on a technique for modelling biological systems based on the ntcc calculus, a model of co...