A multilevel layout algorithm for visualizing physical and genetic interaction networks, with emphasis on their modular organization

A multilevel layout algorithm for visualizing physical and genetic interaction networks, with emphasis on their modular organization

<p>Abstract</p> <p>Background</p> <p>Graph drawing is an integral part of many systems biology studies, enabling visual exploration and mining of large-scale biological networks. While a number of layout algorithms are available in popular network analysis platforms, su...

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Main Authors: Tuikkala Johannes, Vähämaa Heidi, Salmela Pekka, Nevalainen Olli S, Aittokallio Tero
Format: Article
Language:English
Published: BMC 2012-03-01
Series:BioData Mining
Online Access:http://www.biodatamining.org/content/5/1/2
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spelling doaj-863a1a53e3f142138f17db41d214142f2020-11-24T21:47:47ZengBMCBioData Mining1756-03812012-03-0151210.1186/1756-0381-5-2A multilevel layout algorithm for visualizing physical and genetic interaction networks, with emphasis on their modular organizationTuikkala JohannesVähämaa HeidiSalmela PekkaNevalainen Olli SAittokallio Tero<p>Abstract</p> <p>Background</p> <p>Graph drawing is an integral part of many systems biology studies, enabling visual exploration and mining of large-scale biological networks. While a number of layout algorithms are available in popular network analysis platforms, such as Cytoscape, it remains poorly understood how well their solutions reflect the underlying biological processes that give rise to the network connectivity structure. Moreover, visualizations obtained using conventional layout algorithms, such as those based on the force-directed drawing approach, may become uninformative when applied to larger networks with dense or clustered connectivity structure.</p> <p>Methods</p> <p>We implemented a modified layout plug-in, named Multilevel Layout, which applies the conventional layout algorithms within a multilevel optimization framework to better capture the hierarchical modularity of many biological networks. Using a wide variety of real life biological networks, we carried out a systematic evaluation of the method in comparison with other layout algorithms in Cytoscape.</p> <p>Results</p> <p>The multilevel approach provided both biologically relevant and visually pleasant layout solutions in most network types, hence complementing the layout options available in Cytoscape. In particular, it could improve drawing of large-scale networks of yeast genetic interactions and human physical interactions. In more general terms, the biological evaluation framework developed here enables one to assess the layout solutions from any existing or future graph drawing algorithm as well as to optimize their performance for a given network type or structure.</p> <p>Conclusions</p> <p>By making use of the multilevel modular organization when visualizing biological networks, together with the biological evaluation of the layout solutions, one can generate convenient visualizations for many network biology applications.</p> http://www.biodatamining.org/content/5/1/2
collection DOAJ
language English
format Article
sources DOAJ
author Tuikkala Johannes
Vähämaa Heidi
Salmela Pekka
Nevalainen Olli S
Aittokallio Tero
spellingShingle Tuikkala Johannes
Vähämaa Heidi
Salmela Pekka
Nevalainen Olli S
Aittokallio Tero
A multilevel layout algorithm for visualizing physical and genetic interaction networks, with emphasis on their modular organization
BioData Mining
author_facet Tuikkala Johannes
Vähämaa Heidi
Salmela Pekka
Nevalainen Olli S
Aittokallio Tero
author_sort Tuikkala Johannes
title A multilevel layout algorithm for visualizing physical and genetic interaction networks, with emphasis on their modular organization
title_short A multilevel layout algorithm for visualizing physical and genetic interaction networks, with emphasis on their modular organization
title_full A multilevel layout algorithm for visualizing physical and genetic interaction networks, with emphasis on their modular organization
title_fullStr A multilevel layout algorithm for visualizing physical and genetic interaction networks, with emphasis on their modular organization
title_full_unstemmed A multilevel layout algorithm for visualizing physical and genetic interaction networks, with emphasis on their modular organization
title_sort multilevel layout algorithm for visualizing physical and genetic interaction networks, with emphasis on their modular organization
publisher BMC
series BioData Mining
issn 1756-0381
publishDate 2012-03-01
description <p>Abstract</p> <p>Background</p> <p>Graph drawing is an integral part of many systems biology studies, enabling visual exploration and mining of large-scale biological networks. While a number of layout algorithms are available in popular network analysis platforms, such as Cytoscape, it remains poorly understood how well their solutions reflect the underlying biological processes that give rise to the network connectivity structure. Moreover, visualizations obtained using conventional layout algorithms, such as those based on the force-directed drawing approach, may become uninformative when applied to larger networks with dense or clustered connectivity structure.</p> <p>Methods</p> <p>We implemented a modified layout plug-in, named Multilevel Layout, which applies the conventional layout algorithms within a multilevel optimization framework to better capture the hierarchical modularity of many biological networks. Using a wide variety of real life biological networks, we carried out a systematic evaluation of the method in comparison with other layout algorithms in Cytoscape.</p> <p>Results</p> <p>The multilevel approach provided both biologically relevant and visually pleasant layout solutions in most network types, hence complementing the layout options available in Cytoscape. In particular, it could improve drawing of large-scale networks of yeast genetic interactions and human physical interactions. In more general terms, the biological evaluation framework developed here enables one to assess the layout solutions from any existing or future graph drawing algorithm as well as to optimize their performance for a given network type or structure.</p> <p>Conclusions</p> <p>By making use of the multilevel modular organization when visualizing biological networks, together with the biological evaluation of the layout solutions, one can generate convenient visualizations for many network biology applications.</p>
url http://www.biodatamining.org/content/5/1/2
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