<p>Variations of the average height of the nodes from the Gene Ontology: together (top left), Biological process (top right), Cellular component (bottom left) and Molecular function (bottom right).</p
<p>The graphs show the number of differentially expressed genes in each functional category. P value...
<p>Gene Ontology Slim terms gene counts for biological process (A), cellular component (B) and molec...
<p>Tissue-wise occurrence of gene ontology terms for full-length protein-coding cDNA (Molecular func...
<p>Variations of the average depth of the nodes from the Gene Ontology: together (top left), Biologi...
<p>Biological process (BP), Cellular component (CC) and Molecular function (MF).</p
<p>Contributions of the is a, part of and regulates relations to a node's average degree for the Gen...
<p>Biological process (BP), Cellular component (CC) and Molecular function (MF).</p
<p>Evolution of the number of relations of the Gene Ontology (top left) and its Biological process (...
<p>In the Fig. 3(a), light green represents candidate genes, gray represents the other genes in ICan...
<p>(A) Biological Processes ontology; (B) the Molecular Function ontology. The sub-ontologies indica...
<p>Biological process (BP), Cellular component (CC) and Molecular function (MF).</p
<p>Associated GO terms for molecular function are shown by nodes (circles) and related to one anothe...
<p>Nodes with higher degree has lower fold change of gene expression in all network types. Genes bet...
Ontologies support automatic sharing, combination and analysis of life sciences data. They undergo r...
International audienceOntologies support automatic sharing, combination and analysis of life science...
<p>The graphs show the number of differentially expressed genes in each functional category. P value...
<p>Gene Ontology Slim terms gene counts for biological process (A), cellular component (B) and molec...
<p>Tissue-wise occurrence of gene ontology terms for full-length protein-coding cDNA (Molecular func...
<p>Variations of the average depth of the nodes from the Gene Ontology: together (top left), Biologi...
<p>Biological process (BP), Cellular component (CC) and Molecular function (MF).</p
<p>Contributions of the is a, part of and regulates relations to a node's average degree for the Gen...
<p>Biological process (BP), Cellular component (CC) and Molecular function (MF).</p
<p>Evolution of the number of relations of the Gene Ontology (top left) and its Biological process (...
<p>In the Fig. 3(a), light green represents candidate genes, gray represents the other genes in ICan...
<p>(A) Biological Processes ontology; (B) the Molecular Function ontology. The sub-ontologies indica...
<p>Biological process (BP), Cellular component (CC) and Molecular function (MF).</p
<p>Associated GO terms for molecular function are shown by nodes (circles) and related to one anothe...
<p>Nodes with higher degree has lower fold change of gene expression in all network types. Genes bet...
Ontologies support automatic sharing, combination and analysis of life sciences data. They undergo r...
International audienceOntologies support automatic sharing, combination and analysis of life science...
<p>The graphs show the number of differentially expressed genes in each functional category. P value...
<p>Gene Ontology Slim terms gene counts for biological process (A), cellular component (B) and molec...
<p>Tissue-wise occurrence of gene ontology terms for full-length protein-coding cDNA (Molecular func...