Random Boolean networks (RBNs) have been a popular model of genetic regulatory net-works for more than four decades. However, most RBN studies have been made with random topologies, while real regulatory networks have been found to be modular. In this work, we extend classical RBNs to define modular RBNs. Statistical experiments and analytical results show that modularity has a strong effect on the properties of RBNs. In particular, modu-lar RBNs have more attractors and are closer to criticality when chaotic dynamics would be expected, compared to classical RBNs.
Boolean network (BN) is known as a popular mathematical model for modeling genetic regulatory networ...
Random Boolean networks have been used widely to explore aspects of gene regulatory networks. As the...
Modeling gene regulatory networks (GRNs) is an important topic in systems biology. Although there ha...
Random boolean networks are a model of genetic regulatory networks that has proven able to describe ...
Abstract Random Boolean models of genetic regulatory networks, when subject tosmall noise, may eithe...
Boolean networks are models of genetic regulatory networks. S. Kauff-man based many of his claims ab...
We describe here and discuss in detail the model of random Boolean networks (RBNs). Although these m...
We emphasize here the importance of generic models of biological systems that aim at describing the ...
In this paper we investigate how the dynamics of a set of coupled RandomBoolean Netowrks is aected b...
Random Boolean networks (RBN) have been extensively studied asmodels of genetic regulatory networks....
Random Boolean networks (RBNs) were proposed as a model of genetic regulatory net-works by Kauffman ...
Random Boolean networks are used as generic models for the dynamics of complex systems of interactin...
In previous articles we have introduced Multi Random Boolean Networks (MRBNs) as a possi...
Random Boolean Networks (RBNs for short) are strongly simplified models of gene regulatory networks ...
Random Boolean Networks (RBNs for short) are strongly simplified models of gene regulatory networks ...
Boolean network (BN) is known as a popular mathematical model for modeling genetic regulatory networ...
Random Boolean networks have been used widely to explore aspects of gene regulatory networks. As the...
Modeling gene regulatory networks (GRNs) is an important topic in systems biology. Although there ha...
Random boolean networks are a model of genetic regulatory networks that has proven able to describe ...
Abstract Random Boolean models of genetic regulatory networks, when subject tosmall noise, may eithe...
Boolean networks are models of genetic regulatory networks. S. Kauff-man based many of his claims ab...
We describe here and discuss in detail the model of random Boolean networks (RBNs). Although these m...
We emphasize here the importance of generic models of biological systems that aim at describing the ...
In this paper we investigate how the dynamics of a set of coupled RandomBoolean Netowrks is aected b...
Random Boolean networks (RBN) have been extensively studied asmodels of genetic regulatory networks....
Random Boolean networks (RBNs) were proposed as a model of genetic regulatory net-works by Kauffman ...
Random Boolean networks are used as generic models for the dynamics of complex systems of interactin...
In previous articles we have introduced Multi Random Boolean Networks (MRBNs) as a possi...
Random Boolean Networks (RBNs for short) are strongly simplified models of gene regulatory networks ...
Random Boolean Networks (RBNs for short) are strongly simplified models of gene regulatory networks ...
Boolean network (BN) is known as a popular mathematical model for modeling genetic regulatory networ...
Random Boolean networks have been used widely to explore aspects of gene regulatory networks. As the...
Modeling gene regulatory networks (GRNs) is an important topic in systems biology. Although there ha...