We investigate the effects of constitutive gene activation upon the dynamics of random Boolean networks using a suite of models. We find that constitutive activity leads to simpler state spaces, with fewer and larger basins of attraction. The major difference in patterns of basin number and distribution is seen between networks with no activation and those with a single constitutively active node. Increasing the proportion of constitutively active node intensifies, but does not qualitatively change, the observed patterns. The proportion of genes constitutively active interacts in a nonlinear way with other network parameters, such as average connectivity and proportion of inhibitory links. We conclude that constitutive gene activation has a...
In previous articles we have introduced Multi Random Boolean Networks (MRBNs) as a possi...
We generalize random Boolean networks by softening the hard binary discretization into multiple disc...
Abstract Random Boolean models of genetic regulatory networks, when subject tosmall noise, may eithe...
We emphasize here the importance of generic models of biological systems that aim at describing the ...
Genetic regulatory networks control ontogeny. For fifty years Boolean networks have served as models...
Random boolean networks (RBN) have been proposed more thanthirty years ago as models of genetic regu...
none6noRandom boolean networks are a model of genetic regulatory networks that has proven able to de...
Random Boolean networks (RBN) have been extensively studied asmodels of genetic regulatory networks....
Abstract. Boolean threshold networks have recently been proposed as useful tools to model the dynami...
We describe here and discuss in detail the model of random Boolean networks (RBNs). Although these m...
Abstract—The dynamics of a rule-based gene regulatory net-work are determined by the regulatory func...
Boolean networks are currently acknowledged as a powerful model for cell dynamics phenomena. Recentl...
Random boolean networks (shortly, RBN) have proven useful in describing complex phenomena occurring ...
We investigate the sensitivity of Boolean Networks (BNs) to mutations. We are interested in Boolean ...
This article presents an abstract, tunable model containing two of the principal information-process...
In previous articles we have introduced Multi Random Boolean Networks (MRBNs) as a possi...
We generalize random Boolean networks by softening the hard binary discretization into multiple disc...
Abstract Random Boolean models of genetic regulatory networks, when subject tosmall noise, may eithe...
We emphasize here the importance of generic models of biological systems that aim at describing the ...
Genetic regulatory networks control ontogeny. For fifty years Boolean networks have served as models...
Random boolean networks (RBN) have been proposed more thanthirty years ago as models of genetic regu...
none6noRandom boolean networks are a model of genetic regulatory networks that has proven able to de...
Random Boolean networks (RBN) have been extensively studied asmodels of genetic regulatory networks....
Abstract. Boolean threshold networks have recently been proposed as useful tools to model the dynami...
We describe here and discuss in detail the model of random Boolean networks (RBNs). Although these m...
Abstract—The dynamics of a rule-based gene regulatory net-work are determined by the regulatory func...
Boolean networks are currently acknowledged as a powerful model for cell dynamics phenomena. Recentl...
Random boolean networks (shortly, RBN) have proven useful in describing complex phenomena occurring ...
We investigate the sensitivity of Boolean Networks (BNs) to mutations. We are interested in Boolean ...
This article presents an abstract, tunable model containing two of the principal information-process...
In previous articles we have introduced Multi Random Boolean Networks (MRBNs) as a possi...
We generalize random Boolean networks by softening the hard binary discretization into multiple disc...
Abstract Random Boolean models of genetic regulatory networks, when subject tosmall noise, may eithe...