2018
DOI: 10.1016/j.virusres.2017.10.016
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Meta-transcriptomics and the evolutionary biology of RNA viruses

Abstract: Metagenomics is transforming the study of virus evolution, allowing the full assemblage of virus genomes within a host sample to be determined rapidly and cheaply. The genomic analysis of complete transcriptomes, so-called meta-transcriptomics, is providing a particularly rich source of data on the global diversity of RNA viruses and their evolutionary history. Herein we review some of the insights that meta-transcriptomics has provided on the fundamental patterns and processes of virus evolution, with a focus… Show more

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Cited by 126 publications
(123 citation statements)
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“…We find that biological species of viruses and bacteriophages can be associated with host tropism; however, the high incidence of host switching and uncertainties about primary host reservoirs, combined with the potential for recombination between very divergent genomes, contravenes the attachment of viral species' names to a particular host (65,66). Moreover, linking viruses to hosts has become particularly problematic in metagenomic studies, since sequences often originate from sources unrelated to host infection and many of the traits typically used for viral classification remain inaccessible (67,68). Although our analyses are currently restricted to fully sequenced genomes, there has been substantial progress in the recovery of identification and assembly of viral sequences from metagenomic datasets (69), thereby extending the applicability of our approach.…”
Section: Discussionmentioning
confidence: 99%
“…We find that biological species of viruses and bacteriophages can be associated with host tropism; however, the high incidence of host switching and uncertainties about primary host reservoirs, combined with the potential for recombination between very divergent genomes, contravenes the attachment of viral species' names to a particular host (65,66). Moreover, linking viruses to hosts has become particularly problematic in metagenomic studies, since sequences often originate from sources unrelated to host infection and many of the traits typically used for viral classification remain inaccessible (67,68). Although our analyses are currently restricted to fully sequenced genomes, there has been substantial progress in the recovery of identification and assembly of viral sequences from metagenomic datasets (69), thereby extending the applicability of our approach.…”
Section: Discussionmentioning
confidence: 99%
“…Particularly, RNA based mNGS approach could simultaneously reveal the entire "infectome" (i.e. RNA viruses, DNA viruses, bacteria and eukaryotes) present within an organism, because all except for prion express RNA [2]. Furthermore, RNA sequencing goes beyond pathogen identification to reveal relevant data on pathogen abundance, genome sequence, and gene expression, providing important insight into the cause of disease such that it represents an avant-guard diagnostic tool in the information age.…”
Section: Introductionmentioning
confidence: 99%
“…Recent revolutionary developments in virus metagenomics (metaviromics) dramatically expanded knowledge of the diversity of RNA viruses and provided an unprecedented amount of sequence data for informed investigation into RNA virus evolution (11,17,37). The foremost development was the massive expansion of the known invertebrate virome, which was achieved primarily through meta-transcriptome sequencing of various holobionts.…”
mentioning
confidence: 99%