Biochemical processes occur through intermediate steps which are associated with the formation of reaction complexes. These enzyme-catalyzed biochemical reactions are inhibited in a number of ways such as inhibitors competing for the binding site directly, inhibitors deforming the allosteric site or inhibitors changing the structure of active substrate. Using an in silico approach, the concentration of various reaction agents can be monitored at every single time step, which are otherwise difficult to analyze experimentally. Cell-based models with discrete state variables, such as Cellular Automata (CA) provide an understanding of the organizational principles of interacting cellular systems to link the individual cell (microscopic) dynamic...
We introduce a class of cellular automata (CA) to model reaction-diffusion systems in a quantitative...
Living cells must communicate with the external environment, exchanging information in terms of mole...
We study a binary-cell-state eight-cell neighborhood two-dimensional cellular automaton model of a q...
Biochemical processes occur through intermediate steps which are associated with the formation of re...
Biochemical processes occur through intermediate steps which are associated with the formation of re...
We have developed a cellular automata model of an enzyme reaction with a substrate in water. The mod...
Abstract. Cellular automata simulations for enzymatic reaction networks differ from other models for...
The rate-limiting step of some enzymatic reactions is a physical step, i.e. diffusion. The efficienc...
A cellular automaton (CA) is a discrete microscopic dynamical system widely used to investigate and ...
We discuss and review different ways to map cellular components and their temporal interaction with ...
Cellular automata (CA) are fully discrete dynamical systems. Space is represented by a regular latti...
A method for constructing a variety of probabilistic lattice-gas cellular automata for chemically re...
A probabilistic lattice gas cellular automaton model of a chemically reacting system is constructed....
Chemical and biochemical systems are presented as collectives of interacting stochastic automata: ea...
A direct link between the chemical reaction controlled (shrinking core) model and cellular automata,...
We introduce a class of cellular automata (CA) to model reaction-diffusion systems in a quantitative...
Living cells must communicate with the external environment, exchanging information in terms of mole...
We study a binary-cell-state eight-cell neighborhood two-dimensional cellular automaton model of a q...
Biochemical processes occur through intermediate steps which are associated with the formation of re...
Biochemical processes occur through intermediate steps which are associated with the formation of re...
We have developed a cellular automata model of an enzyme reaction with a substrate in water. The mod...
Abstract. Cellular automata simulations for enzymatic reaction networks differ from other models for...
The rate-limiting step of some enzymatic reactions is a physical step, i.e. diffusion. The efficienc...
A cellular automaton (CA) is a discrete microscopic dynamical system widely used to investigate and ...
We discuss and review different ways to map cellular components and their temporal interaction with ...
Cellular automata (CA) are fully discrete dynamical systems. Space is represented by a regular latti...
A method for constructing a variety of probabilistic lattice-gas cellular automata for chemically re...
A probabilistic lattice gas cellular automaton model of a chemically reacting system is constructed....
Chemical and biochemical systems are presented as collectives of interacting stochastic automata: ea...
A direct link between the chemical reaction controlled (shrinking core) model and cellular automata,...
We introduce a class of cellular automata (CA) to model reaction-diffusion systems in a quantitative...
Living cells must communicate with the external environment, exchanging information in terms of mole...
We study a binary-cell-state eight-cell neighborhood two-dimensional cellular automaton model of a q...