Background: Biological networks have a growing importance for the interpretation of high-throughput “omics” data. Integrative network analysis makes use of statistical and combinatorial methods to extract smaller subnetwork modules, and performs enrichment analysis to annotate the modules with ontology terms or other available knowledge. This process results in an annotated module, which retains the original network structure and includes enrichment information as a set system. A major bottleneck is a lack of tools that allow exploring both network structure of extracted modules and its annotations. Results: This paper presents a visual analysis approach that targets small modules with many set-based annotations, and which displays the anno...
Many interactions among bio-molecular entities, e.g. genes, proteins, metabolites, can be easily rep...
Copyright © 2015 Ru Shen et al.This is an open access article distributed under the Creative Commons...
SummaryLarge-scale biological networks represent relationships between genes, but our understanding ...
Background: Biological networks have a growing importance for the interpretation of high-throughput ...
Background: Biological networks have a growing importance for the interpretation of high-throughput ...
Background. Biological networks have growing importance for the interpretation of high-throughput o...
eXamine is a Cytoscape app that displays set membership as contours on top of a node-link layout of ...
eXamine is a Cytoscape app that displays set membership as contours on top of a node-link layout of ...
Background: Network analysis is a common approach for the study of genetic view of diseases and biol...
Background: Gene-set enrichment analyses (GEA or GSEA) are commonly used for biological characteriza...
Background: A common method for presenting and studying biological interaction networks is visualiz...
Background: The overwhelming amount of network data in functional genomics is making its visualizati...
[[abstract]]BACKGROUND:Network is a useful way for presenting many types of biological data includin...
Large amounts of detailed biological data have been generated over the past few decades. Much of the...
Background: Biomolecular pathways and networks are dynamic and complex, and the perturbations to the...
Many interactions among bio-molecular entities, e.g. genes, proteins, metabolites, can be easily rep...
Copyright © 2015 Ru Shen et al.This is an open access article distributed under the Creative Commons...
SummaryLarge-scale biological networks represent relationships between genes, but our understanding ...
Background: Biological networks have a growing importance for the interpretation of high-throughput ...
Background: Biological networks have a growing importance for the interpretation of high-throughput ...
Background. Biological networks have growing importance for the interpretation of high-throughput o...
eXamine is a Cytoscape app that displays set membership as contours on top of a node-link layout of ...
eXamine is a Cytoscape app that displays set membership as contours on top of a node-link layout of ...
Background: Network analysis is a common approach for the study of genetic view of diseases and biol...
Background: Gene-set enrichment analyses (GEA or GSEA) are commonly used for biological characteriza...
Background: A common method for presenting and studying biological interaction networks is visualiz...
Background: The overwhelming amount of network data in functional genomics is making its visualizati...
[[abstract]]BACKGROUND:Network is a useful way for presenting many types of biological data includin...
Large amounts of detailed biological data have been generated over the past few decades. Much of the...
Background: Biomolecular pathways and networks are dynamic and complex, and the perturbations to the...
Many interactions among bio-molecular entities, e.g. genes, proteins, metabolites, can be easily rep...
Copyright © 2015 Ru Shen et al.This is an open access article distributed under the Creative Commons...
SummaryLarge-scale biological networks represent relationships between genes, but our understanding ...
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