Motivation: Biochemical signaling pathways and genetic circuits often involve very small numbers of key signaling molecules. Computationally expensive stochastic methods are necessary to simulate such chemical situations. Single-molecule chemical events often co-exist with much larger numbers of signaling molecules where mass-action kinetics is a reasonable approximation. Here, we describe an adaptive stochastic method that dynamically chooses between deterministic and stochastic calculations depending on molecular count and propensity of forward reactions. The method is fixed timestep and has first order accuracy. We compare the efficiency of this method with exact stochastic methods. Results: We have implemented an adaptive stochastic-det...
This paper discusses new simulation algorithms for stochastic chemical kinetics that exploit the lin...
Cellular signaling networks have evolved to cope with intrinsic fluctuations, coming from the small ...
AbstractThe biochemical reaction networks include elementary reactions differing by many orders of m...
Motivation: Biochemical signaling pathways and genetic circuits often involve very small numbers of ...
In the past years it has become evident that stochastic effects in regulatory networks play an impor...
In this paper we give an overview of some very recent work on the stochastic simulation of systems i...
Computational techniques provide invaluable tools for developing a quantitative understanding the co...
In this report we review the Riedel-Bruck stochastic simulation algorithm, which makes use of a cycl...
There are two formalisms for simulating spatially homogeneous chemical system; the deterministic app...
With the observation that stochasticity is important in biological systems, chemical kinetics have b...
The stochastic simulation algorithm (SSA), first proposed by Gillespie, has become the workhorse of ...
We present an effective procedure for selecting the stepsize in the binomial $\tau$-leap method, whi...
There are two fundamental ways to view coupled systems of chemical equations: as continuous, repres...
Biochemical processes in living cells are comprised of reactions with vastly varying speeds and mole...
Stochastic models are widely used in the simulation of biochemical systems at a cellular level. For ...
This paper discusses new simulation algorithms for stochastic chemical kinetics that exploit the lin...
Cellular signaling networks have evolved to cope with intrinsic fluctuations, coming from the small ...
AbstractThe biochemical reaction networks include elementary reactions differing by many orders of m...
Motivation: Biochemical signaling pathways and genetic circuits often involve very small numbers of ...
In the past years it has become evident that stochastic effects in regulatory networks play an impor...
In this paper we give an overview of some very recent work on the stochastic simulation of systems i...
Computational techniques provide invaluable tools for developing a quantitative understanding the co...
In this report we review the Riedel-Bruck stochastic simulation algorithm, which makes use of a cycl...
There are two formalisms for simulating spatially homogeneous chemical system; the deterministic app...
With the observation that stochasticity is important in biological systems, chemical kinetics have b...
The stochastic simulation algorithm (SSA), first proposed by Gillespie, has become the workhorse of ...
We present an effective procedure for selecting the stepsize in the binomial $\tau$-leap method, whi...
There are two fundamental ways to view coupled systems of chemical equations: as continuous, repres...
Biochemical processes in living cells are comprised of reactions with vastly varying speeds and mole...
Stochastic models are widely used in the simulation of biochemical systems at a cellular level. For ...
This paper discusses new simulation algorithms for stochastic chemical kinetics that exploit the lin...
Cellular signaling networks have evolved to cope with intrinsic fluctuations, coming from the small ...
AbstractThe biochemical reaction networks include elementary reactions differing by many orders of m...