Genetic switching driven by noise is a fundamental cellular process in genetic regulatory networks. Quantitatively characterizing this switching and its fluctuation properties is a key problem in computational biology. With an autoregulatory dimer model as a specific example, we design a general methodology to quantitatively understand the metastability of gene regulatory system perturbed by intrinsic noise. Based on the large deviation theory, we develop new analytical techniques to describe and calculate the optimal transition paths between the on and off states. We also construct the global quasi-potential energy landscape for the dimer model. From the obtained quasi-potential, we can extract quantitative results such as the stationary d...
Bistability arises within a wide range of biological systems from the λ phage switch in bacteria to ...
The stochastic mutual repressor model is analysed using perturbation methods. This simple model of a...
Turning genes on and off is a mechanism by which cells and tissues make phenotypic decisions. Gene n...
Genetic switching driven by noise is a fundamental cellular process in genetic regulatory networks. ...
<div><p>Genetic switching driven by noise is a fundamental cellular process in genetic regulatory ne...
Genetic switching driven by noise is a fundamental cellular process in genetic regulatory networks. ...
Random fluctuations in the amount of cellular components like mRNA and protein molecules are inevita...
<div><p>Random fluctuations in the amount of cellular components like mRNA and protein molecules are...
The stochastic mutual repressor model is analysed using perturbation methods. This simple model of a...
Finding a multidimensional potential landscape is the key for addressing important global issues, su...
Abstract. The stochastic mutual repressor model is analysed using perturba-tion methods. This simple...
Background: Stochastic genetic switching driven by intrinsic noise is an important process in gene e...
AbstractGene regulatory networks are multistable dynamical systems in which attractor states represe...
Bistability arises within a wide range of biological systems from the λ phage switch in bacteria to ...
Bistability arises within a wide range of biological systems from the A phage switch in bacteria to ...
Bistability arises within a wide range of biological systems from the λ phage switch in bacteria to ...
The stochastic mutual repressor model is analysed using perturbation methods. This simple model of a...
Turning genes on and off is a mechanism by which cells and tissues make phenotypic decisions. Gene n...
Genetic switching driven by noise is a fundamental cellular process in genetic regulatory networks. ...
<div><p>Genetic switching driven by noise is a fundamental cellular process in genetic regulatory ne...
Genetic switching driven by noise is a fundamental cellular process in genetic regulatory networks. ...
Random fluctuations in the amount of cellular components like mRNA and protein molecules are inevita...
<div><p>Random fluctuations in the amount of cellular components like mRNA and protein molecules are...
The stochastic mutual repressor model is analysed using perturbation methods. This simple model of a...
Finding a multidimensional potential landscape is the key for addressing important global issues, su...
Abstract. The stochastic mutual repressor model is analysed using perturba-tion methods. This simple...
Background: Stochastic genetic switching driven by intrinsic noise is an important process in gene e...
AbstractGene regulatory networks are multistable dynamical systems in which attractor states represe...
Bistability arises within a wide range of biological systems from the λ phage switch in bacteria to ...
Bistability arises within a wide range of biological systems from the A phage switch in bacteria to ...
Bistability arises within a wide range of biological systems from the λ phage switch in bacteria to ...
The stochastic mutual repressor model is analysed using perturbation methods. This simple model of a...
Turning genes on and off is a mechanism by which cells and tissues make phenotypic decisions. Gene n...