In the past few decades, the development of fluorescent technologies and microscopic techniques has greatly improved scientists' ability to observe real-time single-cell activities. In this paper, we consider the filtering problem associate with these advanced technologies, i.e., how to estimate latent dynamic states of an intracellular multiscale stochastic reaction network from time-course measurements of fluorescent reporters. A good solution to this problem can further improve scientists' ability to extract information about intracellular systems from time-course experiments. A straightforward approach to this filtering problem is to use a particle filter where particles are generated by simulation of the full model and weighted accor...
Stochasticity is a key characteristic of intracellular processes such as gene regulation and chemica...
With the observation that stochasticity is important in biological systems, chemical kinetics have b...
Simulation of biomolecular networks is now indispensable for studying biological systems, from small...
In the past few decades, the development of fluorescent technologies and microscopic techniques has ...
We consider the problem of estimating the dynamic latent states of an intracellular multiscale stoch...
<div><p>The ability of systems and synthetic biologists to observe the dynamics of cellular behavior...
The mathematical modeling of the dynamics of cellular processes is a central part of systems biology...
Living systems are inherently stochastic and operate in a noisy environment: in single cells, react...
In this paper we develop a reduction method for multiple time scale stochastic reaction networks. Wh...
Biochemical reaction networks often involve reactions that take place on different time scales, givi...
This is the final version of the article. Available from Public Library of Science via the DOI in th...
A reaction network is a chemical system involving multiple reactions and chemical species. Stochasti...
The dynamics of stochastic reaction networks within cells are inevitably modulated by factors consid...
<div><p>Biochemical reaction networks (BRNs) in a cell frequently consist of reactions with disparat...
Biochemical reaction networks (BRNs) in a cell frequently consist of reactions with disparate timesc...
Stochasticity is a key characteristic of intracellular processes such as gene regulation and chemica...
With the observation that stochasticity is important in biological systems, chemical kinetics have b...
Simulation of biomolecular networks is now indispensable for studying biological systems, from small...
In the past few decades, the development of fluorescent technologies and microscopic techniques has ...
We consider the problem of estimating the dynamic latent states of an intracellular multiscale stoch...
<div><p>The ability of systems and synthetic biologists to observe the dynamics of cellular behavior...
The mathematical modeling of the dynamics of cellular processes is a central part of systems biology...
Living systems are inherently stochastic and operate in a noisy environment: in single cells, react...
In this paper we develop a reduction method for multiple time scale stochastic reaction networks. Wh...
Biochemical reaction networks often involve reactions that take place on different time scales, givi...
This is the final version of the article. Available from Public Library of Science via the DOI in th...
A reaction network is a chemical system involving multiple reactions and chemical species. Stochasti...
The dynamics of stochastic reaction networks within cells are inevitably modulated by factors consid...
<div><p>Biochemical reaction networks (BRNs) in a cell frequently consist of reactions with disparat...
Biochemical reaction networks (BRNs) in a cell frequently consist of reactions with disparate timesc...
Stochasticity is a key characteristic of intracellular processes such as gene regulation and chemica...
With the observation that stochasticity is important in biological systems, chemical kinetics have b...
Simulation of biomolecular networks is now indispensable for studying biological systems, from small...