Add to ORKGThe dynamical structure of genetic networks determines the occurrence of various biological mechanisms, such as cellular differentiation. However, the question of how cellular diversity evolves in relation to the inherent stochasticity and intercellular communication remains still to be understood. Here, we define a concept of stochastic bifurcations suitable to investigate the dynamical structure of genetic networks, and show that under stochastic influence, the expression of given proteins of interest is defined via the probability distribution of the phase variable, representing one of the genes constituting the system. Moreover, we show that under changing stochastic conditions, the probabilities of expressing certain concentration valu...
Stochasticity (that is, randomness) is an inherent property of many biological systems. For example,...
A mathematical model is proposed which is able to describe the most important features of cell differ...
Many signaling and regulatory molecules within cells exist in very few copies per cell. Any process ...
The dynamical structure of genetic networks determines the occurrence of various biological mechanis...
The dynamical structure of genetic networks determines the occurrence of various biological mechanis...
Abstract Gene networks arise due to the interaction of genes through their protein products. Modelin...
Cells live with fluctuations arising from various sources and occurring at a broad spectrum of scale...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2004.Includes bibliographi...
Cell differentiation is a complex phenomenon whereby a stem cell becomes progressively more speciali...
In stem cell differentiation, a pluripotent stem cell becomes progressively specialized and generate...
Many signaling and regulatory molecules within cells exist in very few copies per cell. Any process ...
This work presents a simulator for modeling evolving cell populations. The gene network dynamics are...
This work presents a simulator for modeling evolving cell populations. The gene network dynamics are...
The dynamics of genetic regulatory networks are often affected bystochastic noise, due to the small ...
The dynamics of genetic regulatory networks are often affected bystochastic noise, due to the small ...
Stochasticity (that is, randomness) is an inherent property of many biological systems. For example,...
A mathematical model is proposed which is able to describe the most important features of cell differ...
Many signaling and regulatory molecules within cells exist in very few copies per cell. Any process ...
The dynamical structure of genetic networks determines the occurrence of various biological mechanis...
The dynamical structure of genetic networks determines the occurrence of various biological mechanis...
Abstract Gene networks arise due to the interaction of genes through their protein products. Modelin...
Cells live with fluctuations arising from various sources and occurring at a broad spectrum of scale...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2004.Includes bibliographi...
Cell differentiation is a complex phenomenon whereby a stem cell becomes progressively more speciali...
In stem cell differentiation, a pluripotent stem cell becomes progressively specialized and generate...
Many signaling and regulatory molecules within cells exist in very few copies per cell. Any process ...
This work presents a simulator for modeling evolving cell populations. The gene network dynamics are...
This work presents a simulator for modeling evolving cell populations. The gene network dynamics are...
The dynamics of genetic regulatory networks are often affected bystochastic noise, due to the small ...
The dynamics of genetic regulatory networks are often affected bystochastic noise, due to the small ...
Stochasticity (that is, randomness) is an inherent property of many biological systems. For example,...
A mathematical model is proposed which is able to describe the most important features of cell differ...
Many signaling and regulatory molecules within cells exist in very few copies per cell. Any process ...