A Boolean model is a simple, discrete and dynamic model without the need to consider the effects at the intermediate levels. However, little effort has been made into constructing activation, inhibition, and protein decay networks, which could indicate the direct roles of a gene (or its synthesized protein) as an activator or inhibitor of a target gene. Therefore, we propose to focus on the general Boolean functions at the subfunction level taking into account the effectiveness of protein decay, and further split the subfunctions into the activation and inhibition domains. As a consequence, we developed a novel data-driven Boolean model; namely, the Fundamental Boolean Model (FBM), to draw insights into gene activation, inhibition, and prot...
Boolean Networks are emerging as a simple yet powerful for- malism to model and study Gene Regulator...
Gene regulatory networks (GRNs) control the amount and the temporal patterns of gene products, both ...
Gene-regulatory networks control the expression of genes and therefore the phenotype of cells. Model...
A Boolean model is a simple, discrete and dynamic model without the need to consider the effects at ...
A Boolean model is a simple, discrete and dynamic model without the need to consider the effects at ...
A Boolean model is a switch-like behaviour model of which it is easy to ignore any effects at the in...
Background: Networks Biology allows the study of complex interactions between biological systems usi...
Gene Regulatory Networks (GRNs) model some of the mechanisms that regulate gene expression. Among th...
The inference of Gene Regulatory Networks (GRNs) from time series gene expression data is an effecti...
Gene regulatory networks represent the interactions among genes regulating the activation of specifi...
Gene regulatory networks (GRNs) describe how a collection of genes governs the processes within a ce...
Gene Regulatory Networks represent the interactions among genes regulating the activation of specifi...
Regulatory networks play a central role in cellular behavior and decision making. Learning these reg...
Gene-on-gene regulations are key components of every living organism. Dynamical abstract models of g...
Gene-on-gene regulations are key components of every living organism. Dynamical abstract models of g...
Boolean Networks are emerging as a simple yet powerful for- malism to model and study Gene Regulator...
Gene regulatory networks (GRNs) control the amount and the temporal patterns of gene products, both ...
Gene-regulatory networks control the expression of genes and therefore the phenotype of cells. Model...
A Boolean model is a simple, discrete and dynamic model without the need to consider the effects at ...
A Boolean model is a simple, discrete and dynamic model without the need to consider the effects at ...
A Boolean model is a switch-like behaviour model of which it is easy to ignore any effects at the in...
Background: Networks Biology allows the study of complex interactions between biological systems usi...
Gene Regulatory Networks (GRNs) model some of the mechanisms that regulate gene expression. Among th...
The inference of Gene Regulatory Networks (GRNs) from time series gene expression data is an effecti...
Gene regulatory networks represent the interactions among genes regulating the activation of specifi...
Gene regulatory networks (GRNs) describe how a collection of genes governs the processes within a ce...
Gene Regulatory Networks represent the interactions among genes regulating the activation of specifi...
Regulatory networks play a central role in cellular behavior and decision making. Learning these reg...
Gene-on-gene regulations are key components of every living organism. Dynamical abstract models of g...
Gene-on-gene regulations are key components of every living organism. Dynamical abstract models of g...
Boolean Networks are emerging as a simple yet powerful for- malism to model and study Gene Regulator...
Gene regulatory networks (GRNs) control the amount and the temporal patterns of gene products, both ...
Gene-regulatory networks control the expression of genes and therefore the phenotype of cells. Model...