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iVirus 2.0: Cyberinfrastructure-supported tools and data to power DNA virus ecology

Benjamin Bolduc, Olivier Zablocki, Jiarong Guo, Ahmed A Zayed, Dean Vik, Paramvir Dehal, Elisha M Wood-Charlson, Adam Arkin, Nirav Merchant, Jennifer Pett-Ridge, Simon Roux, Matthew Vaughn, Matthew B Sullivan

2021ISME Communications20 citationsDOIOpen Access PDF

Abstract

Microbes drive myriad ecosystem processes, but under strong influence from viruses. Because studying viruses in complex systems requires different tools than those for microbes, they remain underexplored. To combat this, we previously aggregated double-stranded DNA (dsDNA) virus analysis capabilities and resources into 'iVirus' on the CyVerse collaborative cyberinfrastructure. Here we substantially expand iVirus's functionality and accessibility, to iVirus 2.0, as follows. First, core iVirus apps were integrated into the Department of Energy's Systems Biology KnowledgeBase (KBase) to provide an additional analytical platform. Second, at CyVerse, 20 software tools (apps) were upgraded or added as new tools and capabilities. Third, nearly 20-fold more sequence reads were aggregated to capture new data and environments. Finally, documentation, as "live" protocols, was updated to maximize user interaction with and contribution to infrastructure development. Together, iVirus 2.0 serves as a uniquely central and accessible analytical platform for studying how viruses, particularly dsDNA viruses, impact diverse microbial ecosystems.

Topics & Concepts

SoftwareComputer scienceData scienceComputational biologyBiologySystems biologyEcologyDNA sequencingCore (optical fiber)Data integrationSoftware toolSystems engineeringPower (physics)EngineeringSoftware engineeringDNADecoyBacteriophages and microbial interactionsGenomics and Phylogenetic StudiesMicrobial Community Ecology and Physiology
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