We analyze a hierarchy of three regimes for modeling gene regulation. The most complete model is a continuous time, discrete state space, Markov jump process. An intermediate 'switch plus diffusion' model takes the form of a stochastic differential equation driven by an independent continuous time Markov switch. In the third 'switch plus ODE' model the switch remains but the diffusion is removed. The latter two models allow for multi-scale simulation where, for the sake of computational efficiency, system components are treated differently according to their abundance. The 'switch plus ODE' regime was proposed by Paszek (Modeling stochasticity in gene regulation: characterization in the terms of the underlying distribution function, Bulleti...
Stochastic fluctuations in cellular processes often have a dominant role in evoking heterogeneous be...
Biochemical processes in living cells are comprised of reactions with vastly varying speeds and mole...
AbstractGene transcription models must take account of intrinsic stochasticity. The Chemical Master ...
We analyze a hierarchy of three regimes for modeling gene regulation. The most complete model is a c...
We compare a hierarchy of three stochastic models in gene regulation. In each case, genes produce mR...
We compare a hierarchy of three stochastic models in gene regulation. In each case, genes produce mR...
We present computer-assisted methods for analyzing stochastic models of gene regulatory networks. Th...
Modeling stochasticity in gene regulatory networks is an important and complex problem in molecular ...
We present computer-assisted methods for analyzing stochastic models of gene regulatory networks. Th...
GAIN Oportunius Grant from Xunta de Galicia.[Abstract]: In the context of phenotype switching and ce...
Intrinsic stochasticity plays an essential role in gene regulation because of the small number of in...
Many gene regulatory networks are modeled at the mesoscopic scale, where chemical pop-ulations chang...
Background: Stochastic genetic switching driven by intrinsic noise is an important process in gene e...
IFAC Workshop on Thermodynamic Foundations of Mathematical Systems Theory, July 24-27, 2022, Montrea...
Gene transcription models must take account of intrinsic stochasticity. The Chemical Master Equation...
Stochastic fluctuations in cellular processes often have a dominant role in evoking heterogeneous be...
Biochemical processes in living cells are comprised of reactions with vastly varying speeds and mole...
AbstractGene transcription models must take account of intrinsic stochasticity. The Chemical Master ...
We analyze a hierarchy of three regimes for modeling gene regulation. The most complete model is a c...
We compare a hierarchy of three stochastic models in gene regulation. In each case, genes produce mR...
We compare a hierarchy of three stochastic models in gene regulation. In each case, genes produce mR...
We present computer-assisted methods for analyzing stochastic models of gene regulatory networks. Th...
Modeling stochasticity in gene regulatory networks is an important and complex problem in molecular ...
We present computer-assisted methods for analyzing stochastic models of gene regulatory networks. Th...
GAIN Oportunius Grant from Xunta de Galicia.[Abstract]: In the context of phenotype switching and ce...
Intrinsic stochasticity plays an essential role in gene regulation because of the small number of in...
Many gene regulatory networks are modeled at the mesoscopic scale, where chemical pop-ulations chang...
Background: Stochastic genetic switching driven by intrinsic noise is an important process in gene e...
IFAC Workshop on Thermodynamic Foundations of Mathematical Systems Theory, July 24-27, 2022, Montrea...
Gene transcription models must take account of intrinsic stochasticity. The Chemical Master Equation...
Stochastic fluctuations in cellular processes often have a dominant role in evoking heterogeneous be...
Biochemical processes in living cells are comprised of reactions with vastly varying speeds and mole...
AbstractGene transcription models must take account of intrinsic stochasticity. The Chemical Master ...