Elsevier

Virus Research

Volume 244, 15 January 2018, Pages 36-52
Virus Research

Review
Metagenomics reshapes the concepts of RNA virus evolution by revealing extensive horizontal virus transfer

https://doi.org/10.1016/j.virusres.2017.10.020Get rights and content
Under a Creative Commons license
open access

Highlights

  • Virus metagenomics has expanded known RNA virus diversity and emphasized connections between evolution of viruses and hosts.

  • Genome comparisons revealed that the extent of gene module shuffling among RNA viruses is greater than previously thought.

  • Expanded phylogenetic analysis implied pervasive horizontal virus transport between diverse hosts of RNA viruses.

  • Evolution of plant and vertebrate RNA viromes appears to be driven by HVT from vast RNA viromeof invertebrates.

Abstract

Virus metagenomics is a young research filed but it has already transformed our understanding of virus diversity and evolution, and illuminated at a new level the connections between virus evolution and the evolution and ecology of the hosts. In this review article, we examine the new picture of the evolution of RNA viruses, the dominant component of the eukaryotic virome, that is emerging from metagenomic data analysis. The major expansion of many groups of RNA viruses through metagenomics allowed the construction of substantially improved phylogenetic trees for the conserved virus genes, primarily, the RNA-dependent RNA polymerases (RdRp). In particular, a new superfamily of widespread, small positive-strand RNA viruses was delineated that unites tombus-like and noda-like viruses. Comparison of the genome architectures of RNA viruses discovered by metagenomics and by traditional methods reveals an extent of gene module shuffling among diverse virus genomes that far exceeds the previous appreciation of this evolutionary phenomenon. Most dramatically, inclusion of the metagenomic data in phylogenetic analyses of the RdRp resulted in the identification of numerous, strongly supported groups that encompass RNA viruses from diverse hosts including different groups of protists, animals and plants. Notwithstanding potential caveats, in particular, incomplete and uneven sampling of eukaryotic taxa, these highly unexpected findings reveal horizontal virus transfer (HVT) between diverse hosts as the central aspect of RNA virus evolution. The vast and diverse virome of invertebrates, particularly nematodes and arthropods, appears to be the reservoir, from which the viromes of plants and vertebrates evolved via multiple HVT events.

Keywords

RNA viruses
Virus evolution
Horizontal virus transfer
Virus metagenomics
Metaviromics

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