RNA Phage Biology in a Metagenomic Era

RNA Phage Biology in a Metagenomic Era

The number of novel bacteriophage sequences has expanded significantly as a result of many metagenomic studies of phage populations in diverse environments. Most of these novel sequences bear little or no homology to existing databases (referred to as the “viral dark matter”). Al...

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Main Authors: Julie Callanan, Stephen R. Stockdale, Andrey Shkoporov, Lorraine A. Draper, R. Paul Ross, Colin Hill
Format: Article
Language:English
Published: MDPI AG 2018-07-01
Series:Viruses
Subjects:
bacteriophage
RNA viruses
RNA
Cystoviridae
Leviviridae
Online Access:http://www.mdpi.com/1999-4915/10/7/386
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spelling doaj-ba615b943df5409faa62daf17a5566eb2020-11-24T21:17:17ZengMDPI AGViruses1999-49152018-07-0110738610.3390/v10070386v10070386RNA Phage Biology in a Metagenomic EraJulie Callanan0Stephen R. Stockdale1Andrey Shkoporov2Lorraine A. Draper3R. Paul Ross4Colin Hill5APC Microbiome Ireland, University College Cork, Cork, T12 YT20, IrelandAPC Microbiome Ireland, University College Cork, Cork, T12 YT20, IrelandAPC Microbiome Ireland, University College Cork, Cork, T12 YT20, IrelandAPC Microbiome Ireland, University College Cork, Cork, T12 YT20, IrelandAPC Microbiome Ireland, University College Cork, Cork, T12 YT20, IrelandAPC Microbiome Ireland, University College Cork, Cork, T12 YT20, IrelandThe number of novel bacteriophage sequences has expanded significantly as a result of many metagenomic studies of phage populations in diverse environments. Most of these novel sequences bear little or no homology to existing databases (referred to as the “viral dark matter”). Also, these sequences are primarily derived from DNA-encoded bacteriophages (phages) with few RNA phages included. Despite the rapid advancements in high-throughput sequencing, few studies enrich for RNA viruses, i.e., target viral rather than cellular fraction and/or RNA rather than DNA via a reverse transcriptase step, in an attempt to capture the RNA viruses present in a microbial communities. It is timely to compile existing and relevant information about RNA phages to provide an insight into many of their important biological features, which should aid in sequence-based discovery and in their subsequent annotation. Without comprehensive studies, the biological significance of RNA phages has been largely ignored. Future bacteriophage studies should be adapted to ensure they are properly represented in phageomic studies.http://www.mdpi.com/1999-4915/10/7/386bacteriophageRNA virusesRNACystoviridaeLeviviridae
collection DOAJ
language English
format Article
sources DOAJ
author Julie Callanan
Stephen R. Stockdale
Andrey Shkoporov
Lorraine A. Draper
R. Paul Ross
Colin Hill
spellingShingle Julie Callanan
Stephen R. Stockdale
Andrey Shkoporov
Lorraine A. Draper
R. Paul Ross
Colin Hill
RNA Phage Biology in a Metagenomic Era
Viruses
bacteriophage
RNA viruses
RNA
Cystoviridae
Leviviridae
author_facet Julie Callanan
Stephen R. Stockdale
Andrey Shkoporov
Lorraine A. Draper
R. Paul Ross
Colin Hill
author_sort Julie Callanan
title RNA Phage Biology in a Metagenomic Era
title_short RNA Phage Biology in a Metagenomic Era
title_full RNA Phage Biology in a Metagenomic Era
title_fullStr RNA Phage Biology in a Metagenomic Era
title_full_unstemmed RNA Phage Biology in a Metagenomic Era
title_sort rna phage biology in a metagenomic era
publisher MDPI AG
series Viruses
issn 1999-4915
publishDate 2018-07-01
description The number of novel bacteriophage sequences has expanded significantly as a result of many metagenomic studies of phage populations in diverse environments. Most of these novel sequences bear little or no homology to existing databases (referred to as the “viral dark matter”). Also, these sequences are primarily derived from DNA-encoded bacteriophages (phages) with few RNA phages included. Despite the rapid advancements in high-throughput sequencing, few studies enrich for RNA viruses, i.e., target viral rather than cellular fraction and/or RNA rather than DNA via a reverse transcriptase step, in an attempt to capture the RNA viruses present in a microbial communities. It is timely to compile existing and relevant information about RNA phages to provide an insight into many of their important biological features, which should aid in sequence-based discovery and in their subsequent annotation. Without comprehensive studies, the biological significance of RNA phages has been largely ignored. Future bacteriophage studies should be adapted to ensure they are properly represented in phageomic studies.
topic bacteriophage
RNA viruses
RNA
Cystoviridae
Leviviridae
url http://www.mdpi.com/1999-4915/10/7/386
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AT stephenrstockdale rnaphagebiologyinametagenomicera
AT andreyshkoporov rnaphagebiologyinametagenomicera
AT lorraineadraper rnaphagebiologyinametagenomicera
AT rpaulross rnaphagebiologyinametagenomicera
AT colinhill rnaphagebiologyinametagenomicera
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