BioNetStat: A Tool for Biological Networks Differential Analysis

The study of interactions among biological components can be carried out by using methods grounded on network theory. Most of these methods focus on the comparison of two biological networks (e.g., control vs. disease). However, biological systems often present more than two biological states (e.g.,...

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Bibliographic Details
Published in:Frontiers in genetics 2019-06, Vol.10, p.594-594
Main Authors: Jardim, VinĂ­cius Carvalho, Santos, Suzana de Siqueira, Fujita, Andre, Buckeridge, Marcos Silveira
Format: Article
Language:English
Subjects:
coexpression network
correlation network
differential coexpression
differential network analysis
Genetics
systems biology
systems biology tool
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Summary:The study of interactions among biological components can be carried out by using methods grounded on network theory. Most of these methods focus on the comparison of two biological networks (e.g., control vs. disease). However, biological systems often present more than two biological states (e.g., tumor grades). To compare two or more networks simultaneously, we developed BioNetStat, a Bioconductor package with a user-friendly graphical interface. BioNetStat compares correlation networks based on the probability distribution of a feature of the graph (e.g., centrality measures). The analysis of the structural alterations on the network reveals significant modifications in the system. For example, the analysis of centrality measures provides information about how the relevance of the nodes changes among the biological states. We evaluated the performance of BioNetStat in both, toy models and two case studies. The latter related to gene expression of tumor cells and plant metabolism. Results based on simulated scenarios suggest that the statistical power of BioNetStat is less sensitive to the increase of the number of networks than Gene Set Coexpression Analysis (GSCA). Also, besides being able to identify nodes with modified centralities, BioNetStat identified altered networks associated with signaling pathways that were not identified by other methods.
ISSN:1664-8021
1664-8021
DOI:10.3389/fgene.2019.00594