Random boolean networks (RBN) have been proposed more thanthirty years ago as models of genetic regulatory networks. Recent studies on theperturbation in gene expression levels induced by the knock-out (i.e. silencing)of single genes have shown that simple RBN models give rise to a distributionof the size of the perturbations which is very similar in different model networkrealizations, and is also very similar to the one actually found in experimentaldata concerning a unicellular organism (S.cerevisiae). In this paper we presentfurther results, based upon the same set of experiments, concerning thecorrelation between different perturbations. We compare actual data from S.cerevisiae with the results of simulations concerning RBN models with...
Network motifs have been identified as building blocks of regulatory networks, including gene regula...
Due to the large number of variables required and the limited number of independent experiments, the...
A major limitation of the classical random Boolean network model of gene regulatory networks is its ...
Random boolean networks (RBN) have been proposed more thanthirty years ago as models of genetic regu...
It is shown here how gene knock-out experiments can be simulatedin Random Boolean Networks (RBN), wh...
We emphasize here the importance of generic models of biological systems that aim at describing the ...
This paper describes the effects of perturbations, whichsimulate the knock-out of single genes, one ...
This paper describes the effects of perturbations, which simulatethe knock-out of single genes, one ...
We analyze the perturbation of the expression levels of thousandsof genes when one of them is knocke...
Abstract—The dynamics of a rule-based gene regulatory net-work are determined by the regulatory func...
Gene regulatory networks, like any evolving biological system, are subject to potentially damaging m...
We describe here and discuss in detail the model of random Boolean networks (RBNs). Although these m...
We investigate the effects of constitutive gene activation upon the dynamics of random Boolean netwo...
In a previous study it was shown that a simple random Boolean network model, with two input connecti...
Due to the large number of variables required and the limited number of independent experiments, the...
Network motifs have been identified as building blocks of regulatory networks, including gene regula...
Due to the large number of variables required and the limited number of independent experiments, the...
A major limitation of the classical random Boolean network model of gene regulatory networks is its ...
Random boolean networks (RBN) have been proposed more thanthirty years ago as models of genetic regu...
It is shown here how gene knock-out experiments can be simulatedin Random Boolean Networks (RBN), wh...
We emphasize here the importance of generic models of biological systems that aim at describing the ...
This paper describes the effects of perturbations, whichsimulate the knock-out of single genes, one ...
This paper describes the effects of perturbations, which simulatethe knock-out of single genes, one ...
We analyze the perturbation of the expression levels of thousandsof genes when one of them is knocke...
Abstract—The dynamics of a rule-based gene regulatory net-work are determined by the regulatory func...
Gene regulatory networks, like any evolving biological system, are subject to potentially damaging m...
We describe here and discuss in detail the model of random Boolean networks (RBNs). Although these m...
We investigate the effects of constitutive gene activation upon the dynamics of random Boolean netwo...
In a previous study it was shown that a simple random Boolean network model, with two input connecti...
Due to the large number of variables required and the limited number of independent experiments, the...
Network motifs have been identified as building blocks of regulatory networks, including gene regula...
Due to the large number of variables required and the limited number of independent experiments, the...
A major limitation of the classical random Boolean network model of gene regulatory networks is its ...