Network motifs have been studied extensively over the past decade, and certain motifs, such as the feed-forward loop, play an important role in regulatory networks. Recent studies have used Boolean network motifs to explore the link between form and function in gene regulatory networks and have found that the structure of a motif does not strongly determine its function, if this is defined in terms of the gene expression patterns the motif can produce. Here, we offer a different, higher-level definition of the ‘function’ of a motif, in terms of two fundamental properties of its dynamical state space as a Boolean network. One is the basin entropy, which is a complexity measure of the dynamics of Boolean networks. The other is the diversity o...
Living cells can maintain their internal states, react to changing environments, grow, differentiate...
Network motifs are significantly overrepresented subgraphs that have been proposed as building block...
Gene-regulatory networks control the expression of genes and therefore the phenotype of cells. Model...
International audienceMolecular regulation was initially assumed to follow both a unidirectional and...
Fixed-point attractors with global stability manifest themselves in a number of gene regulatory netw...
We analyse a suite of Boolean networks which have been evolved to exhibit limit cycle-type dynamics ...
Modeling gene regulatory networks (GRNs) is an important topic in systems biology. Although there ha...
A useful approach to complex regulatory networks consists of modeling their elements and interaction...
International audienceIf we consider the regulatory networks used in systems biology (especially in ...
Gene regulatory networks (GRNs) play key roles in development, phenotype plasticity, and evolution. ...
Network motifs have been identified as building blocks of regulatory networks, including gene regula...
peer reviewedGene expression is a result of the interplay between the structure, type, kinetics, and...
Gene regulatory networks (GRNs) describe how a collection of genes governs the processes within a ce...
The state-space of a discrete dynamical network is connected into basins of attraction, mathematical...
Abstract. Boolean threshold networks have recently been proposed as useful tools to model the dynami...
Living cells can maintain their internal states, react to changing environments, grow, differentiate...
Network motifs are significantly overrepresented subgraphs that have been proposed as building block...
Gene-regulatory networks control the expression of genes and therefore the phenotype of cells. Model...
International audienceMolecular regulation was initially assumed to follow both a unidirectional and...
Fixed-point attractors with global stability manifest themselves in a number of gene regulatory netw...
We analyse a suite of Boolean networks which have been evolved to exhibit limit cycle-type dynamics ...
Modeling gene regulatory networks (GRNs) is an important topic in systems biology. Although there ha...
A useful approach to complex regulatory networks consists of modeling their elements and interaction...
International audienceIf we consider the regulatory networks used in systems biology (especially in ...
Gene regulatory networks (GRNs) play key roles in development, phenotype plasticity, and evolution. ...
Network motifs have been identified as building blocks of regulatory networks, including gene regula...
peer reviewedGene expression is a result of the interplay between the structure, type, kinetics, and...
Gene regulatory networks (GRNs) describe how a collection of genes governs the processes within a ce...
The state-space of a discrete dynamical network is connected into basins of attraction, mathematical...
Abstract. Boolean threshold networks have recently been proposed as useful tools to model the dynami...
Living cells can maintain their internal states, react to changing environments, grow, differentiate...
Network motifs are significantly overrepresented subgraphs that have been proposed as building block...
Gene-regulatory networks control the expression of genes and therefore the phenotype of cells. Model...