A discrete-event systems approach is proposed for the modeling of biochemical reaction systems. The approach is based on Petri nets, which are particularly suited to modeling stoichiometric transformations, i.e., the inter conversion of metabolites in fixed proportions. Properties of Petri nets and methods for their analysis are presented, along with their interpretation for biological systems. An example of the human erythrocyte metabolism is presented to illustrate the concepts of the methodology
Abstract Background Signal transduction pathways are usually modelled using classical quantitative m...
Chen M, Hu M, Hofestädt R. A Systematic Petri Net Approach for Multiple-Scale Modeling and Simulatio...
We give a description of a Petri net-based framework for modelling and analysing biochemical pathwa...
We give a description of a Petri net-based framework for modelling and analysing biochemical pathway...
Abstract. We give a description of a Petri net-based framework for modelling and analysing biochemic...
Petri nets are a discrete event simulation approach developed for system representation, in particul...
In the last fifteen years, several research efforts have been directed towards the representation an...
1.1 Petri nets – suitable than other mathematical descriptions In 1999, we surveyed which architectu...
Computer assisted analysis and simulation of biochemical pathways can improve the understanding of t...
Computer assisted analysis and simulation of biochemical pathways can improve the understanding of t...
Abstract In this chapter we introduce qualitative, stochastic as well as continuous Petri nets and r...
Quantitative models of biochemical networks (signal transduction cascades, metabolic pathways, gene ...
Petri net theory is a powerful tool for describing and analyzing information and control data flows....
Abstract. The different modeling approaches in Systems Biology create models with different levels o...
Chen M, Hofestädt R. Quantitative Petri Net Model of Gene Regulated Metabolic Networks in the Cell. ...
Abstract Background Signal transduction pathways are usually modelled using classical quantitative m...
Chen M, Hu M, Hofestädt R. A Systematic Petri Net Approach for Multiple-Scale Modeling and Simulatio...
We give a description of a Petri net-based framework for modelling and analysing biochemical pathwa...
We give a description of a Petri net-based framework for modelling and analysing biochemical pathway...
Abstract. We give a description of a Petri net-based framework for modelling and analysing biochemic...
Petri nets are a discrete event simulation approach developed for system representation, in particul...
In the last fifteen years, several research efforts have been directed towards the representation an...
1.1 Petri nets – suitable than other mathematical descriptions In 1999, we surveyed which architectu...
Computer assisted analysis and simulation of biochemical pathways can improve the understanding of t...
Computer assisted analysis and simulation of biochemical pathways can improve the understanding of t...
Abstract In this chapter we introduce qualitative, stochastic as well as continuous Petri nets and r...
Quantitative models of biochemical networks (signal transduction cascades, metabolic pathways, gene ...
Petri net theory is a powerful tool for describing and analyzing information and control data flows....
Abstract. The different modeling approaches in Systems Biology create models with different levels o...
Chen M, Hofestädt R. Quantitative Petri Net Model of Gene Regulated Metabolic Networks in the Cell. ...
Abstract Background Signal transduction pathways are usually modelled using classical quantitative m...
Chen M, Hu M, Hofestädt R. A Systematic Petri Net Approach for Multiple-Scale Modeling and Simulatio...
We give a description of a Petri net-based framework for modelling and analysing biochemical pathwa...