The systems biology community is building increasingly complex models and simulations of cells and other biological entities. This community is beginning to look at alternatives to traditional representations such as those provided by ordinary differential equations (ODE). Making use of the object-oriented (OO) paradigm, the Unified Modeling Language (UML) and Real-time Object-Oriented Modeling (ROOM) visual formalisms, we describe a simple model that includes membranes with lipid bilayers, multiple compartments including a variable number of mitochondria, substrate molecules, enzymes with reaction rules, and metabolic pathways. We demonstrate the validation of the model by comparison with Gepasi and comment on the reusability of model comp...
Cellular and intracellular processes are inherently complex due to the large number of components an...
Motivation: Compartments and membranes are the basis of cell topology and more than 30 % of the huma...
For many years, computers have played an important role in helping scientists to store, manipulate, ...
The systems biology community is building increasingly complex models and simulations of cells and o...
The systems biology community is building increasingly complex models and simulations of cells and o...
The systems biology community is building increasingly complex models and simulations of cells and o...
The systems biology community is building increasingly complex models and simulations of cells and o...
We have previously described a top-down analytical approach, Cell Assembly Kit (CellAK), based on th...
The growing area of systems biology has been using agent-based models for many years with early mode...
Cell membranes contain a large variety of lipid types and are crowded with proteins, endowing them w...
For a system-level understanding of living cells, a quantitative representation of these systems inv...
The aim of this paper is to give an overview of computer modelling and simulation in cellular biolog...
Rule-based modeling has become a powerful approach for modeling intracellular networks, which are ch...
Science is an iterative process of experiments and hypotheses. Experiments produce surprising result...
A cell consists of a large number of components interact- ing in a dynamic environment. The complexi...
Cellular and intracellular processes are inherently complex due to the large number of components an...
Motivation: Compartments and membranes are the basis of cell topology and more than 30 % of the huma...
For many years, computers have played an important role in helping scientists to store, manipulate, ...
The systems biology community is building increasingly complex models and simulations of cells and o...
The systems biology community is building increasingly complex models and simulations of cells and o...
The systems biology community is building increasingly complex models and simulations of cells and o...
The systems biology community is building increasingly complex models and simulations of cells and o...
We have previously described a top-down analytical approach, Cell Assembly Kit (CellAK), based on th...
The growing area of systems biology has been using agent-based models for many years with early mode...
Cell membranes contain a large variety of lipid types and are crowded with proteins, endowing them w...
For a system-level understanding of living cells, a quantitative representation of these systems inv...
The aim of this paper is to give an overview of computer modelling and simulation in cellular biolog...
Rule-based modeling has become a powerful approach for modeling intracellular networks, which are ch...
Science is an iterative process of experiments and hypotheses. Experiments produce surprising result...
A cell consists of a large number of components interact- ing in a dynamic environment. The complexi...
Cellular and intracellular processes are inherently complex due to the large number of components an...
Motivation: Compartments and membranes are the basis of cell topology and more than 30 % of the huma...
For many years, computers have played an important role in helping scientists to store, manipulate, ...