Genetic regulatory networks (GRNs) have been widely studied, yet there is a lack of understanding with regards to the final size and properties of these networks, mainly due to no network currently being complete. In this study, we analyzed the distribution of GRN structural properties across a large set of distinct prokaryotic organisms and found a set of constrained characteristics such as network density and number of regulators. Our results allowed us to estimate the number of interactions that complete networks would have, a valuable insight that could aid in the daunting task of network curation, prediction, and validation. Using state-of-the-art statistical approaches, we also provided new evidence to settle a previously stated contr...
Motivation: Systems Genetics approaches, in particular those relying on genetical genomics data, put...
Large and complex biological networks are thought to be built from small functional modules called m...
Abstract. Genetic Regulation Networks (GRNs) are a model of the mechanisms by which a cell regulates...
Understanding complexity in physical, biological, social and information systems is predicated on de...
<div><p>Understanding complexity in physical, biological, social and information systems is predicat...
Gene Regulatory Networks (GRNs) control the differentiation, specification and function of cells at ...
Genetic interactions are being quantitatively characterized in a comprehensive way in several model ...
Background: We report an analysis of a protein network of functionally linked proteins, identified f...
<p>The top-left network shows the structure of the giant component of the transcription factor inter...
INTRODUCTION: Genetic interactions occur when mutations in two or more genes combine to generate an ...
peer reviewedGene expression is a result of the interplay between the structure, type, kinetics, and...
Background: Knowledge of interaction types in biological networks is important for understanding the...
Many diseases, such as cardiovascular diseases, cancer and diabetes, originate from several malfunct...
Abstract Background Knowledge of interaction types in...
Phenotypic traits are now known to stem from the interplay between genetic variables across many if ...
Motivation: Systems Genetics approaches, in particular those relying on genetical genomics data, put...
Large and complex biological networks are thought to be built from small functional modules called m...
Abstract. Genetic Regulation Networks (GRNs) are a model of the mechanisms by which a cell regulates...
Understanding complexity in physical, biological, social and information systems is predicated on de...
<div><p>Understanding complexity in physical, biological, social and information systems is predicat...
Gene Regulatory Networks (GRNs) control the differentiation, specification and function of cells at ...
Genetic interactions are being quantitatively characterized in a comprehensive way in several model ...
Background: We report an analysis of a protein network of functionally linked proteins, identified f...
<p>The top-left network shows the structure of the giant component of the transcription factor inter...
INTRODUCTION: Genetic interactions occur when mutations in two or more genes combine to generate an ...
peer reviewedGene expression is a result of the interplay between the structure, type, kinetics, and...
Background: Knowledge of interaction types in biological networks is important for understanding the...
Many diseases, such as cardiovascular diseases, cancer and diabetes, originate from several malfunct...
Abstract Background Knowledge of interaction types in...
Phenotypic traits are now known to stem from the interplay between genetic variables across many if ...
Motivation: Systems Genetics approaches, in particular those relying on genetical genomics data, put...
Large and complex biological networks are thought to be built from small functional modules called m...
Abstract. Genetic Regulation Networks (GRNs) are a model of the mechanisms by which a cell regulates...