This paper presents an analytical study of the stability of the steady state solutions of a gene regulatory network with time de-lay. The system is modeled as a continuous network and takes the form of a nonlinear delay differential-integral equation coupled to an ordinary differential equation. Two examples are given in which the critical delay causing instability is computed
International audienceA fundamental step in synthetic biology and systems biology is to derive appro...
Abstract. A method to study asymptotic properties of solutions to systems of differential equations ...
have been used to model Genetic Regulatory Networks (GRNs) in many previous works, their steady-stat...
This paper presents an analytical study of the stability of the steady state solutions of a gene reg...
Abstract: A method to study asymptotic properties of solutions to systems of differential equations ...
Title and subtitle Delay-dependent Stability of Genetic Regulatory Networks (Fördröjning och stabili...
A method to study asymptotic properties of solutions to systems of differential equations with dist...
The study of time delays and their influence on gene network dynamics is the central topic of this t...
This paper presents a computational study of the stability of the steady state solutions of a biolog...
This brief examines a deterministic, ODE-based model for gene regulatory networks (GRN) that incorpo...
Genes are the fundamental units of biological organisms. Genes encode proteins which carryout variou...
AbstractIn this paper, we investigate a model for gene expression, unlike the models mathematically ...
Abstract. This paper suggests a mathematical framework to study gene reg-ulatory networks with time-...
In this paper, we investigate a model for gene expression, unlike the models mathematically analyzed...
In this paper, we study the problem of constructing a regulatory network of yeast in oxidative stres...
International audienceA fundamental step in synthetic biology and systems biology is to derive appro...
Abstract. A method to study asymptotic properties of solutions to systems of differential equations ...
have been used to model Genetic Regulatory Networks (GRNs) in many previous works, their steady-stat...
This paper presents an analytical study of the stability of the steady state solutions of a gene reg...
Abstract: A method to study asymptotic properties of solutions to systems of differential equations ...
Title and subtitle Delay-dependent Stability of Genetic Regulatory Networks (Fördröjning och stabili...
A method to study asymptotic properties of solutions to systems of differential equations with dist...
The study of time delays and their influence on gene network dynamics is the central topic of this t...
This paper presents a computational study of the stability of the steady state solutions of a biolog...
This brief examines a deterministic, ODE-based model for gene regulatory networks (GRN) that incorpo...
Genes are the fundamental units of biological organisms. Genes encode proteins which carryout variou...
AbstractIn this paper, we investigate a model for gene expression, unlike the models mathematically ...
Abstract. This paper suggests a mathematical framework to study gene reg-ulatory networks with time-...
In this paper, we investigate a model for gene expression, unlike the models mathematically analyzed...
In this paper, we study the problem of constructing a regulatory network of yeast in oxidative stres...
International audienceA fundamental step in synthetic biology and systems biology is to derive appro...
Abstract. A method to study asymptotic properties of solutions to systems of differential equations ...
have been used to model Genetic Regulatory Networks (GRNs) in many previous works, their steady-stat...