Stochastic models of biomolecular reaction networks are commonly employed in systems and synthetic biology to study the effects of stochastic fluctuations emanating from reactions involving species with low copy-numbers. For such models, the Kolmogorov’s forward equation is called the chemical master equation (CME), and it is a fundamental system of linear ordinary differential equations (ODEs) that describes the evolution of the probability distribution of the random state-vector representing the copy-numbers of all the reacting species. The size of this system is given by the number of states that are accessible by the chemical system, and for most examples of interest this number is either very large or infinite. Moreover, approximations...
BACKGROUND: Stochastic biochemical reaction networks are commonly modelled by the chemical master eq...
The stochastic dynamics of a well-stirred mixture of molecular species interacting through different...
The stochastic dynamics of biochemical networks are usually modelled with the chemical master equati...
The stochastic reaction network is widely used to model stochastic processes in physics, chemistry a...
Predicting stochastic cellular dynamics as emerging from the mechanistic models of molecular interac...
Numerical solutions of the chemical master equation (CME) are gaining increasing attention with the ...
Stochastic models of biochemical reaction networks are used for understanding the properties of mole...
Multi-scale modeling of biological systems, for instance of tissues composed of millions of cells, a...
Noise is often indispensable to key cellular activities, such as gene expression, necessitating the ...
Background: Numerical solutions of the chemical master equation (CME) are important for understandin...
Computational and mathematical models of cellular processes promise great benets in important elds s...
The chemical master equation (CME) is frequently used in systems biology to quantify the effects of ...
Discrete and stochastic models in systems biology, such as biochemical reaction networks, can be mod...
University of Minnesota Ph.D. dissertation. June 2018. Major: Chemical Engineering. Advisor: Prodrom...
Stochastic evolution of Chemical Reactions Networks (CRNs) over time is usually analyzed through sol...
BACKGROUND: Stochastic biochemical reaction networks are commonly modelled by the chemical master eq...
The stochastic dynamics of a well-stirred mixture of molecular species interacting through different...
The stochastic dynamics of biochemical networks are usually modelled with the chemical master equati...
The stochastic reaction network is widely used to model stochastic processes in physics, chemistry a...
Predicting stochastic cellular dynamics as emerging from the mechanistic models of molecular interac...
Numerical solutions of the chemical master equation (CME) are gaining increasing attention with the ...
Stochastic models of biochemical reaction networks are used for understanding the properties of mole...
Multi-scale modeling of biological systems, for instance of tissues composed of millions of cells, a...
Noise is often indispensable to key cellular activities, such as gene expression, necessitating the ...
Background: Numerical solutions of the chemical master equation (CME) are important for understandin...
Computational and mathematical models of cellular processes promise great benets in important elds s...
The chemical master equation (CME) is frequently used in systems biology to quantify the effects of ...
Discrete and stochastic models in systems biology, such as biochemical reaction networks, can be mod...
University of Minnesota Ph.D. dissertation. June 2018. Major: Chemical Engineering. Advisor: Prodrom...
Stochastic evolution of Chemical Reactions Networks (CRNs) over time is usually analyzed through sol...
BACKGROUND: Stochastic biochemical reaction networks are commonly modelled by the chemical master eq...
The stochastic dynamics of a well-stirred mixture of molecular species interacting through different...
The stochastic dynamics of biochemical networks are usually modelled with the chemical master equati...