Microbiome (Dec 2019)

Diversity, evolution, and classification of virophages uncovered through global metagenomics

  • David Paez-Espino,
  • Jinglie Zhou,
  • Simon Roux,
  • Stephen Nayfach,
  • Georgios A. Pavlopoulos,
  • Frederik Schulz,
  • Katherine D. McMahon,
  • David Walsh,
  • Tanja Woyke,
  • Natalia N. Ivanova,
  • Emiley A. Eloe-Fadrosh,
  • Susannah G. Tringe,
  • Nikos C. Kyrpides

DOI
https://doi.org/10.1186/s40168-019-0768-5
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 14

Abstract

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Abstract Background Virophages are small viruses with double-stranded DNA genomes that replicate along with giant viruses and co-infect eukaryotic cells. Due to the paucity of virophage reference genomes, a collective understanding of the global virophage diversity, distribution, and evolution is lacking. Results Here we screened a public collection of over 14,000 metagenomes using the virophage-specific major capsid protein (MCP) as “bait.” We identified 44,221 assembled virophage sequences, of which 328 represent high-quality (complete or near-complete) genomes from diverse habitats including the human gut, plant rhizosphere, and terrestrial subsurface. Comparative genomic analysis confirmed the presence of four core genes in a conserved block. We used these genes to establish a revised virophage classification including 27 clades with consistent genome length, gene content, and habitat distribution. Moreover, for eight high-quality virophage genomes, we computationally predicted putative eukaryotic virus hosts. Conclusion Overall, our approach has increased the number of known virophage genomes by 10-fold and revealed patterns of genome evolution and global virophage distribution. We anticipate that the expanded diversity presented here will provide the backbone for further virophage studies.

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