Gene Regulatory Networks (GRNs) control the differentiation, specification and function of cells at the genomic level. The levels of interactions within large GRNs are of enormous depth and complexity. Details about many GRNs are emerging, but in most cases it is unknown to what extent they control a given process, i.e. the grade of completeness is uncertain. This uncertainty stems from limited experimental data, which is the main bottleneck for creating detailed dynamical models of cellular processes. Parameter estimation for each node is often infeasible for very large GRNs. We propose a method, based on random parameter estimations through Monte-Carlo simulations to measure completeness grades of GRNs. Results We developed a heuristic to...
Motivation: Identification of regulatory networks is typically based on deterministic models of gene...
Motivation: Recent experiments have established unambiguously that biological systems can have signi...
The gene regulatory network (GRN) reveals the regulatory relationships among genes and can provide a...
Gene Regulatory Networks (GRNs) control the differentiation, specification and function of cells at ...
Gene regulatory networks (GRNs) consist of thousands of genes and proteins which are dynamically int...
Gene regulation is at the centre of all cellular functions, regulating the cell's healthy and pathol...
Genetic regulatory networks (GRNs) have been widely studied, yet there is a lack of understanding wi...
Gene network analysis requires computationally based models which represent the functional architect...
<div><p>The gene regulatory network (GRN) reveals the regulatory relationships among genes and can p...
The discovery of gene regulatory networks (GRNs) has opened a gate to access the genomic mechanisms ...
Complex systems of numerous interacting biomolecules dictate cellular behavior. To better understan...
Gene regulatory network (GRN) represents a set of genes and their regulatory interactions. The infer...
AbstractGene network analysis requires computationally based models which represent the functional a...
Recent functional genomics research has yielded a large in silico gene regulatory network model (622...
AbstractModeling and simulation of gene-regulatory networks (GRNs) has become an important aspect of...
Motivation: Identification of regulatory networks is typically based on deterministic models of gene...
Motivation: Recent experiments have established unambiguously that biological systems can have signi...
The gene regulatory network (GRN) reveals the regulatory relationships among genes and can provide a...
Gene Regulatory Networks (GRNs) control the differentiation, specification and function of cells at ...
Gene regulatory networks (GRNs) consist of thousands of genes and proteins which are dynamically int...
Gene regulation is at the centre of all cellular functions, regulating the cell's healthy and pathol...
Genetic regulatory networks (GRNs) have been widely studied, yet there is a lack of understanding wi...
Gene network analysis requires computationally based models which represent the functional architect...
<div><p>The gene regulatory network (GRN) reveals the regulatory relationships among genes and can p...
The discovery of gene regulatory networks (GRNs) has opened a gate to access the genomic mechanisms ...
Complex systems of numerous interacting biomolecules dictate cellular behavior. To better understan...
Gene regulatory network (GRN) represents a set of genes and their regulatory interactions. The infer...
AbstractGene network analysis requires computationally based models which represent the functional a...
Recent functional genomics research has yielded a large in silico gene regulatory network model (622...
AbstractModeling and simulation of gene-regulatory networks (GRNs) has become an important aspect of...
Motivation: Identification of regulatory networks is typically based on deterministic models of gene...
Motivation: Recent experiments have established unambiguously that biological systems can have signi...
The gene regulatory network (GRN) reveals the regulatory relationships among genes and can provide a...