There are two fundamental ways to view coupled systems of chemical equations: as continuous, represented by differential equations whose variables are concentrations, or as discrete, represented by stochastic processes whose variables are numbers of molecules. Although the former is by far more common, systems with very small numbers of molecules are important in some applications (e.g., in small biological cells or in surface processes). In both views, most complicated systems with multiple reaction channels and multiple chemical species cannot be solved analytically. There are exact numerical simulation methods to simulate trajectories of discrete, stochastic systems, (methods that are rigorously equivalent to the Master Equation approac...
Four major approaches model the time dependent behavior of chemical reaction systems: ordinary diffe...
Systems of weakly coupled chemical equations occur in gene regulation and other biological systems. ...
This dissertation deals with complex and multi-scale biological processes. In general, these phenome...
One can generate trajectories to simulate a system of chemical reactions using either Gillespie's di...
Publication costs assisted by the Naval Weapons Center There are two formalisms for mathematically d...
Stochastic models are widely used in the simulation of biochemical systems at a cellular level. For ...
In this paper we give an overview of some very recent work, as well as presenting a new approach, on...
Numerical simulation of stochastic biochemical reaction networks has received much attention in the ...
With the advances in measurement technology for molecular biology, predictive mathematical models of...
The stochastic simulation algorithm has been used to generate exact trajectories of biochemical reac...
In this paper we give an overview of some very recent work on the stochastic simulation of systems i...
Recent studies through biological experiments have indicated that noise plays a very important role ...
Traditionally, the law of mass action has been used to deterministically model chemical reactions. T...
Computational techniques provide invaluable tools for developing a quantitative understanding the co...
Stochastic chemical simulations have proven to be a powerful tool to investigate the dynamics of bio...
Four major approaches model the time dependent behavior of chemical reaction systems: ordinary diffe...
Systems of weakly coupled chemical equations occur in gene regulation and other biological systems. ...
This dissertation deals with complex and multi-scale biological processes. In general, these phenome...
One can generate trajectories to simulate a system of chemical reactions using either Gillespie's di...
Publication costs assisted by the Naval Weapons Center There are two formalisms for mathematically d...
Stochastic models are widely used in the simulation of biochemical systems at a cellular level. For ...
In this paper we give an overview of some very recent work, as well as presenting a new approach, on...
Numerical simulation of stochastic biochemical reaction networks has received much attention in the ...
With the advances in measurement technology for molecular biology, predictive mathematical models of...
The stochastic simulation algorithm has been used to generate exact trajectories of biochemical reac...
In this paper we give an overview of some very recent work on the stochastic simulation of systems i...
Recent studies through biological experiments have indicated that noise plays a very important role ...
Traditionally, the law of mass action has been used to deterministically model chemical reactions. T...
Computational techniques provide invaluable tools for developing a quantitative understanding the co...
Stochastic chemical simulations have proven to be a powerful tool to investigate the dynamics of bio...
Four major approaches model the time dependent behavior of chemical reaction systems: ordinary diffe...
Systems of weakly coupled chemical equations occur in gene regulation and other biological systems. ...
This dissertation deals with complex and multi-scale biological processes. In general, these phenome...