Galaxy and Apollo as a biologist-friendly interface for high-quality cooperative phage genome annotation.

Galaxy and Apollo as a biologist-friendly interface for high-quality cooperative phage genome annotation.

In the modern genomic era, scientists without extensive bioinformatic training need to apply high-power computational analyses to critical tasks like phage genome annotation. At the Center for Phage Technology (CPT), we developed a suite of phage-oriented tools housed in open, user-friendly web-base...

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Main Authors: Jolene Ramsey, Helena Rasche, Cory Maughmer, Anthony Criscione, Eleni Mijalis, Mei Liu, James C Hu, Ry Young, Jason J Gill
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2020-11-01
Series:PLoS Computational Biology
Online Access:https://doi.org/10.1371/journal.pcbi.1008214
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spelling doaj-2ea939c287744460b12dcb4a5c6d642e2021-04-21T15:45:52ZengPublic Library of Science (PLoS)PLoS Computational Biology1553-734X1553-73582020-11-011611e100821410.1371/journal.pcbi.1008214Galaxy and Apollo as a biologist-friendly interface for high-quality cooperative phage genome annotation.Jolene RamseyHelena RascheCory MaughmerAnthony CriscioneEleni MijalisMei LiuJames C HuRy YoungJason J GillIn the modern genomic era, scientists without extensive bioinformatic training need to apply high-power computational analyses to critical tasks like phage genome annotation. At the Center for Phage Technology (CPT), we developed a suite of phage-oriented tools housed in open, user-friendly web-based interfaces. A Galaxy platform conducts computationally intensive analyses and Apollo, a collaborative genome annotation editor, visualizes the results of these analyses. The collection includes open source applications such as the BLAST+ suite, InterProScan, and several gene callers, as well as unique tools developed at the CPT that allow maximum user flexibility. We describe in detail programs for finding Shine-Dalgarno sequences, resources used for confident identification of lysis genes such as spanins, and methods used for identifying interrupted genes that contain frameshifts or introns. At the CPT, genome annotation is separated into two robust segments that are facilitated through the automated execution of many tools chained together in an operation called a workflow. First, the structural annotation workflow results in gene and other feature calls. This is followed by a functional annotation workflow that combines sequence comparisons and conserved domain searching, which is contextualized to allow integrated evidence assessment in functional prediction. Finally, we describe a workflow used for comparative genomics. Using this multi-purpose platform enables researchers to easily and accurately annotate an entire phage genome. The portal can be accessed at https://cpt.tamu.edu/galaxy-pub with accompanying user training material.https://doi.org/10.1371/journal.pcbi.1008214
collection DOAJ
language English
format Article
sources DOAJ
author Jolene Ramsey
Helena Rasche
Cory Maughmer
Anthony Criscione
Eleni Mijalis
Mei Liu
James C Hu
Ry Young
Jason J Gill
spellingShingle Jolene Ramsey
Helena Rasche
Cory Maughmer
Anthony Criscione
Eleni Mijalis
Mei Liu
James C Hu
Ry Young
Jason J Gill
Galaxy and Apollo as a biologist-friendly interface for high-quality cooperative phage genome annotation.
PLoS Computational Biology
author_facet Jolene Ramsey
Helena Rasche
Cory Maughmer
Anthony Criscione
Eleni Mijalis
Mei Liu
James C Hu
Ry Young
Jason J Gill
author_sort Jolene Ramsey
title Galaxy and Apollo as a biologist-friendly interface for high-quality cooperative phage genome annotation.
title_short Galaxy and Apollo as a biologist-friendly interface for high-quality cooperative phage genome annotation.
title_full Galaxy and Apollo as a biologist-friendly interface for high-quality cooperative phage genome annotation.
title_fullStr Galaxy and Apollo as a biologist-friendly interface for high-quality cooperative phage genome annotation.
title_full_unstemmed Galaxy and Apollo as a biologist-friendly interface for high-quality cooperative phage genome annotation.
title_sort galaxy and apollo as a biologist-friendly interface for high-quality cooperative phage genome annotation.
publisher Public Library of Science (PLoS)
series PLoS Computational Biology
issn 1553-734X
1553-7358
publishDate 2020-11-01
description In the modern genomic era, scientists without extensive bioinformatic training need to apply high-power computational analyses to critical tasks like phage genome annotation. At the Center for Phage Technology (CPT), we developed a suite of phage-oriented tools housed in open, user-friendly web-based interfaces. A Galaxy platform conducts computationally intensive analyses and Apollo, a collaborative genome annotation editor, visualizes the results of these analyses. The collection includes open source applications such as the BLAST+ suite, InterProScan, and several gene callers, as well as unique tools developed at the CPT that allow maximum user flexibility. We describe in detail programs for finding Shine-Dalgarno sequences, resources used for confident identification of lysis genes such as spanins, and methods used for identifying interrupted genes that contain frameshifts or introns. At the CPT, genome annotation is separated into two robust segments that are facilitated through the automated execution of many tools chained together in an operation called a workflow. First, the structural annotation workflow results in gene and other feature calls. This is followed by a functional annotation workflow that combines sequence comparisons and conserved domain searching, which is contextualized to allow integrated evidence assessment in functional prediction. Finally, we describe a workflow used for comparative genomics. Using this multi-purpose platform enables researchers to easily and accurately annotate an entire phage genome. The portal can be accessed at https://cpt.tamu.edu/galaxy-pub with accompanying user training material.
url https://doi.org/10.1371/journal.pcbi.1008214
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