Abstract
High-throughput sequencing (HTS) and its use in recovering and assembling novel virus sequences from environmental, human clinical, veterinary and plant samples has unearthed a vast new catalogue of viruses. Their classification, known by their sequences alone, sets a major challenge to traditional virus taxonomy, especially at the family and species levels, which have been historically based largely on descriptive taxon definitions. These typically entail some knowledge of their phenotypic properties, including replication strategies, virion structure and clinical and epidemiological features, such as host range, geographical distribution and disease outcomes. Little to no information on these attributes is available, however, for viruses identified in metagenomic datasets. If such viruses are to be included in virus taxonomy, their assignments will have to be guided largely or entirely by metrics of genetic relatedness. The immediate problem here is that the International Committee on Taxonomy of Viruses (ICTV), an organisation that authorises the taxonomic classification of viruses, provides little or no guidance on how similar or how divergent viruses must be in order to be considered members of new species or new families. We have recently developed a method for scoring genomic (dis)similarity between viruses (Genome Relationships Applied to Virus Taxonomy – GRAViTy) among the eukaryotic and prokaryotic viruses currently classified by the ICTV. At the family and genus levels, we found large-scale consistency between genetic relationships and their taxonomic assignments for eukaryotic viruses of all genome configurations and genome sizes. Family assignments of prokaryotic viruses have, however, been made at a quite different genetic level, and groupings currently classified as sub-families are a much better match to the eukaryotic virus family level. These findings support the ongoing reorganisation of bacteriophage taxonomy by the ICTV Phage Study Group. A rapid and objective means to explore metagenomic viral diversity and make evidence-based assignments for such viruses at each taxonomic layer is essential. Analysis of sequences by GRAViTy provides evidence that family (and genus) assignments of currently classified viruses are largely underpinned by genomic relatedness, and these features could serve as a guide towards an evidence-based classification of metagenomic viruses in the future.
Highlights
Virus taxonomy is an essential element in the description of viruses and acts as a unified catalogue of their vast diversity and genetic interrelationships
Family members must presumably share homologous genes, but Development of GRAViTy. It was with this background that we set out to examine whether there were any consistent genomic attributes of eukaryotic virus families that correlated with their current family-level International Committee on Taxonomy of Viruses (ICTV) taxonomy relationships [5]
The logic of this exercise was based on the premise that genome features that were informative and predictive of taxonomic relationships could be extracted from currently unassigned viruses from their sequences alone, and informed decisions on their assignments could be made. While this represents an entirely bioinformatic approach, it ensures that any family or other-level assignments of sequence-only viruses are broadly consistent with existing taxonomic placements of viruses classified by other means. This method, “Genome Relationships Applied to Virus Taxonomy” (GRAViTy), was applied to the complete list of 3,854 classified eukaryotic viruses with complete genome sequence data
Summary
Virus taxonomy is an essential element in the description of viruses and acts as a unified catalogue of their vast diversity and genetic interrelationships. The assignment of viruses to the order Herpesvirales is based on their morphology, and is independent of genomic relationships, which do not place their members into a coherent genetic group.
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