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This article is part of the supplement: Proceedings of the Fifth Annual MCBIOS Conference. Systems Biology: Bridging the Omics

Open Access Proceedings

ProteoLens: a visual analytic tool for multi-scale database-driven biological network data mining

Tianxiao Huan124, Andrey Y Sivachenko5, Scott H Harrison12 and Jake Y Chen123*

Author Affiliations

1 School of Informatics, Indiana University – Purdue University, Indianapolis, IN 46202, USA

2 Indiana Center for Systems Biology and Personalized Medicine, Indianapolis, IN 46202, USA

3 Department of Computer & Information Science, Purdue University, Indianapolis, IN 46202, USA

4 College of Life Sciences, Shandong University, Jinan 250100, China

5 the Broad Institute of MIT & Harvard University, Cambridge, MA 02141, USA

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BMC Bioinformatics 2008, 9(Suppl 9):S5  doi:10.1186/1471-2105-9-S9-S5

Published: 12 August 2008

Abstract

Background

New systems biology studies require researchers to understand how interplay among myriads of biomolecular entities is orchestrated in order to achieve high-level cellular and physiological functions. Many software tools have been developed in the past decade to help researchers visually navigate large networks of biomolecular interactions with built-in template-based query capabilities. To further advance researchers' ability to interrogate global physiological states of cells through multi-scale visual network explorations, new visualization software tools still need to be developed to empower the analysis. A robust visual data analysis platform driven by database management systems to perform bi-directional data processing-to-visualizations with declarative querying capabilities is needed.

Results

We developed ProteoLens as a JAVA-based visual analytic software tool for creating, annotating and exploring multi-scale biological networks. It supports direct database connectivity to either Oracle or PostgreSQL database tables/views, on which SQL statements using both Data Definition Languages (DDL) and Data Manipulation languages (DML) may be specified. The robust query languages embedded directly within the visualization software help users to bring their network data into a visualization context for annotation and exploration. ProteoLens supports graph/network represented data in standard Graph Modeling Language (GML) formats, and this enables interoperation with a wide range of other visual layout tools. The architectural design of ProteoLens enables the de-coupling of complex network data visualization tasks into two distinct phases: 1) creating network data association rules, which are mapping rules between network node IDs or edge IDs and data attributes such as functional annotations, expression levels, scores, synonyms, descriptions etc; 2) applying network data association rules to build the network and perform the visual annotation of graph nodes and edges according to associated data values. We demonstrated the advantages of these new capabilities through three biological network visualization case studies: human disease association network, drug-target interaction network and protein-peptide mapping network.

Conclusion

The architectural design of ProteoLens makes it suitable for bioinformatics expert data analysts who are experienced with relational database management to perform large-scale integrated network visual explorations. ProteoLens is a promising visual analytic platform that will facilitate knowledge discoveries in future network and systems biology studies.