Add to ORKGIn systems biology study, biological networks were used to gain insights into biological systems. While the traditional approach to studying biological networks is based on the identification of interactions among genes or the identification of a gene set ranking according to differentially expressed gene lists, little is known about interactions between higher order biological systems, a network of gene sets. Several types of gene set network have been proposed including co-membership, linkage, and co-enrichment human gene set networks. However, to our knowledge, none of them contains directionality information. Therefore, in this study we proposed a method to construct a regulatory gene set network, a directed network, which reveals novel...
Summary: The analysis of gene regulatory networks (GRNs) is a central goal of bioinformatics highly ...
Curated gene sets from databases such as KEGG Pathway and Gene Ontology are often used to systematic...
Curated gene sets from databases such as KEGG Pathway and Gene Ontology are often used to systematic...
Gene regulatory networks (GRNs) provide insight into the mechanisms of differential gene expression ...
Uncovering the system-level transcriptional regulatory architecture of gene expression in human has ...
Living cells are the product of gene expression programs involving regulated transcription of thousa...
peer reviewedOne of the pressing open problems of computational systems biology is the elucidation o...
Background: Knowledge of interaction types in biological networks is important for understanding the...
Molecular biology focuses on genes and their interactions at the transcription, regulation and prote...
Abstract Background Knowledge of interaction types in...
Gene expression is a multi-step process that involves various regulators. From whole genome sequence...
Abstract Background Knowledge of interaction types in...
Huge advancement in the field of bioinformatics has unleashed torrential of biological data that wer...
<div><h3>Background</h3><p>Gene regulatory networks (GRNs) provide insight into the mechanisms of di...
In this project, we studied transcriptional regulation in C. elegans through a network approach. We ...
Summary: The analysis of gene regulatory networks (GRNs) is a central goal of bioinformatics highly ...
Curated gene sets from databases such as KEGG Pathway and Gene Ontology are often used to systematic...
Curated gene sets from databases such as KEGG Pathway and Gene Ontology are often used to systematic...
Gene regulatory networks (GRNs) provide insight into the mechanisms of differential gene expression ...
Uncovering the system-level transcriptional regulatory architecture of gene expression in human has ...
Living cells are the product of gene expression programs involving regulated transcription of thousa...
peer reviewedOne of the pressing open problems of computational systems biology is the elucidation o...
Background: Knowledge of interaction types in biological networks is important for understanding the...
Molecular biology focuses on genes and their interactions at the transcription, regulation and prote...
Abstract Background Knowledge of interaction types in...
Gene expression is a multi-step process that involves various regulators. From whole genome sequence...
Abstract Background Knowledge of interaction types in...
Huge advancement in the field of bioinformatics has unleashed torrential of biological data that wer...
<div><h3>Background</h3><p>Gene regulatory networks (GRNs) provide insight into the mechanisms of di...
In this project, we studied transcriptional regulation in C. elegans through a network approach. We ...
Summary: The analysis of gene regulatory networks (GRNs) is a central goal of bioinformatics highly ...
Curated gene sets from databases such as KEGG Pathway and Gene Ontology are often used to systematic...
Curated gene sets from databases such as KEGG Pathway and Gene Ontology are often used to systematic...