Positive and negative feedback loops, for example where a protein regulates its own transcription, play an important role in many genetic regulatory networks. Such systems will be subject to internal noise, which occurs due to the small number of molecules taking part in some reactions. This paper examines the effect of feedback loops on noise levels. Error growth techniques from nonlinear dynamics are used to estimate the variance of a system around a steady state attractor. It is shown that variablity due to intrinsic stochasticity is directly linked to the stability of the steady state, and therefore to the system’s resistance to external perturbations. The methods are demonstrated for a number of simple systems, including a genetic swit...
International audienceThe oscillator made of a negative loop of two genes is one of the most classic...
The study of dynamics of gene regulatory networks is of increasing interest in systems biology. A us...
<div><p>Random fluctuations in the amount of cellular components like mRNA and protein molecules are...
[[abstract]]Background Noise has many important roles in cellular genetic regulatory functions at th...
<div><p>It is well known that noise is inevitable in gene regulatory networks due to the low-copy nu...
It is well known that noise is inevitable in gene regulatory networks due to the low-copy numbers of...
AbstractIt has often been taken for granted that negative feedback loops in gene regulation work as ...
International audienceIn the context of gene regulatory networks, a negative feedback loop is modele...
Background The linear noise approximation (LNA) is commonly used to predict how noise is regulated a...
The stochastic mutual repressor model is analysed using perturbation methods. This simple model of a...
<div><p>Genetically identical cells can show phenotypic variability. This is often caused by stochas...
AbstractCellular events that execute life programs are ordered and reproducible, despite the noise a...
Genetically identical cells can show phenotypic variability. This is often caused by stochastic even...
Abstract Background Genetic regulatory networks (GRN) can be described by differential equations wit...
AbstractAutoregulatory feedback loops, where the protein expressed from a gene inhibits or activates...
International audienceThe oscillator made of a negative loop of two genes is one of the most classic...
The study of dynamics of gene regulatory networks is of increasing interest in systems biology. A us...
<div><p>Random fluctuations in the amount of cellular components like mRNA and protein molecules are...
[[abstract]]Background Noise has many important roles in cellular genetic regulatory functions at th...
<div><p>It is well known that noise is inevitable in gene regulatory networks due to the low-copy nu...
It is well known that noise is inevitable in gene regulatory networks due to the low-copy numbers of...
AbstractIt has often been taken for granted that negative feedback loops in gene regulation work as ...
International audienceIn the context of gene regulatory networks, a negative feedback loop is modele...
Background The linear noise approximation (LNA) is commonly used to predict how noise is regulated a...
The stochastic mutual repressor model is analysed using perturbation methods. This simple model of a...
<div><p>Genetically identical cells can show phenotypic variability. This is often caused by stochas...
AbstractCellular events that execute life programs are ordered and reproducible, despite the noise a...
Genetically identical cells can show phenotypic variability. This is often caused by stochastic even...
Abstract Background Genetic regulatory networks (GRN) can be described by differential equations wit...
AbstractAutoregulatory feedback loops, where the protein expressed from a gene inhibits or activates...
International audienceThe oscillator made of a negative loop of two genes is one of the most classic...
The study of dynamics of gene regulatory networks is of increasing interest in systems biology. A us...
<div><p>Random fluctuations in the amount of cellular components like mRNA and protein molecules are...