In many biological systems, chemical reactions or changes in a physical state are assumed to occur instantaneously. For describing the dynamics of those systems, Markov models that require exponentially distributed inter-event times have been used widely. However, some biophysical processes such as gene transcription and translation are known to have a significant gap between the initiation and the completion of the processes, which renders the usual assumption of exponential distribution untenable. In this paper, we consider relaxing this assumption by incorporating age-dependent random time delays (distributed according to a given probability distribution) into the system dynamics. We do so by constructing a measure-valued Markov process ...
We propose a novel, accelerated algorithm for the approximate stochastic simulation of biochemical s...
The creation of protein from DNA is a dynamic process consisting of numerous components that include...
It is often possible to model the dynamics of biological systems as a series of discrete transitions...
Delay is an important and ubiquitous aspect of many biochemical processes. For example, delay plays ...
Biochemical reactions are often modelled as discrete-state continuous-time stochastic processes evol...
Delayed processes are ubiquitous in biological systems and are often characterized by delay differen...
The time evolution of molecular species involved in biochemical reaction networks often arises from ...
Molecular processes of cell differentiation often involve reactions with delays. We develop a mathem...
Delays in biological systems may be used to model events for which the underlying dynamics cannot be...
Journal ArticleGiven the substantial computational requirements of stochastic simulation, approximat...
Now, it is long known that gene expression and chemical kinetics are subject to random fluctuations...
Biochemical reactions are often modelled as discrete-state continuous time stochastic processes evol...
AbstractDelays in biological systems may be used to model events for which the underlying dynamics c...
The molecular networks regulating basic physiological processes in a cell are generally converted in...
2Delays in biological systems may be used to model events for which the underlying dynamics cannot b...
We propose a novel, accelerated algorithm for the approximate stochastic simulation of biochemical s...
The creation of protein from DNA is a dynamic process consisting of numerous components that include...
It is often possible to model the dynamics of biological systems as a series of discrete transitions...
Delay is an important and ubiquitous aspect of many biochemical processes. For example, delay plays ...
Biochemical reactions are often modelled as discrete-state continuous-time stochastic processes evol...
Delayed processes are ubiquitous in biological systems and are often characterized by delay differen...
The time evolution of molecular species involved in biochemical reaction networks often arises from ...
Molecular processes of cell differentiation often involve reactions with delays. We develop a mathem...
Delays in biological systems may be used to model events for which the underlying dynamics cannot be...
Journal ArticleGiven the substantial computational requirements of stochastic simulation, approximat...
Now, it is long known that gene expression and chemical kinetics are subject to random fluctuations...
Biochemical reactions are often modelled as discrete-state continuous time stochastic processes evol...
AbstractDelays in biological systems may be used to model events for which the underlying dynamics c...
The molecular networks regulating basic physiological processes in a cell are generally converted in...
2Delays in biological systems may be used to model events for which the underlying dynamics cannot b...
We propose a novel, accelerated algorithm for the approximate stochastic simulation of biochemical s...
The creation of protein from DNA is a dynamic process consisting of numerous components that include...
It is often possible to model the dynamics of biological systems as a series of discrete transitions...