<p>Normalized degree distribution log-log plot (<b>A</b>) for FS and NFS complete networks, alongside their respective best fitted power law (lines), corresponding to the function . Scatter plot (<b>B,C</b>) of node degree () vs concentric node degree () measures of GO annotated genes obtained in the complete transcriptional interaction networks (CO). High-Hubs (green), Hubs (red) and Vips (blue) genes are identified by their gene symbols.15,585 nodes for the FS network (<b>B</b>) and 11,233 nodes for the NFS network (<b>C</b>).</p
<p>Each node represents a gene or a set of genes. The size of a node represents the number of genes ...
<p>Average degree distribution of all frequency ranges for networks set at 1% connectivity density. ...
<p>Plot of the frequency of occurrence vs. the confidence scores for the interaction data used to co...
<p>Normalized degree distribution log-log plot (<b>A</b>) for FS and NFS differentially expressed ne...
<p>Kolmogorov-Smirnov test for scale free status for E-DE (A) and L-DE (B) gene coexpression network...
<p>NFS transcriptional interaction network based on Pearson's correlation of 307 differentially expr...
<p>FS transcriptional interaction network based on Pearson's correlation of 307 differentially expre...
<p>The results were based on the contact data with reads that were mapped to multiple locations on t...
a<p><b>Node category: Hub or VIP; <sup>b</sup>Betweenness centrality measure.</b></p
<p>Nodes with higher degree has lower fold change of gene expression in all network types. Genes bet...
a<p><b>Node category: High-hub (Hhub), hub or VIP; <sup>b</sup>Betweenness centrality measure.</b></...
<p>The number of vertices (genes) and edges (interactions) in each network, the number of interactio...
<p>The degree distribution, with the frequency of node degree plotted on a log-log scale, is shown f...
<p>Axes are in natural base log scale. The network degree (number of interactions with other pathway...
<p>The distribution of the number of connections at each node, or degree, is plotted for each of the...
<p>Each node represents a gene or a set of genes. The size of a node represents the number of genes ...
<p>Average degree distribution of all frequency ranges for networks set at 1% connectivity density. ...
<p>Plot of the frequency of occurrence vs. the confidence scores for the interaction data used to co...
<p>Normalized degree distribution log-log plot (<b>A</b>) for FS and NFS differentially expressed ne...
<p>Kolmogorov-Smirnov test for scale free status for E-DE (A) and L-DE (B) gene coexpression network...
<p>NFS transcriptional interaction network based on Pearson's correlation of 307 differentially expr...
<p>FS transcriptional interaction network based on Pearson's correlation of 307 differentially expre...
<p>The results were based on the contact data with reads that were mapped to multiple locations on t...
a<p><b>Node category: Hub or VIP; <sup>b</sup>Betweenness centrality measure.</b></p
<p>Nodes with higher degree has lower fold change of gene expression in all network types. Genes bet...
a<p><b>Node category: High-hub (Hhub), hub or VIP; <sup>b</sup>Betweenness centrality measure.</b></...
<p>The number of vertices (genes) and edges (interactions) in each network, the number of interactio...
<p>The degree distribution, with the frequency of node degree plotted on a log-log scale, is shown f...
<p>Axes are in natural base log scale. The network degree (number of interactions with other pathway...
<p>The distribution of the number of connections at each node, or degree, is plotted for each of the...
<p>Each node represents a gene or a set of genes. The size of a node represents the number of genes ...
<p>Average degree distribution of all frequency ranges for networks set at 1% connectivity density. ...
<p>Plot of the frequency of occurrence vs. the confidence scores for the interaction data used to co...