Although foamy viruses (FVs) have been found in major branches of vertebrates, the presence of these viruses in cartilaginous fish, the most basal living vertebrates with jaws, remains to be… Click to show full abstract
Although foamy viruses (FVs) have been found in major branches of vertebrates, the presence of these viruses in cartilaginous fish, the most basal living vertebrates with jaws, remains to be explored. This study revealed a collection of cartilaginous endogenous FVs in sharks and rays through in silico genomic mining. ABSTRACT Foamy viruses (FVs) are ideal models for studying the long-term evolutionary history between viruses and their hosts. Currently, FVs have been documented in nearly all major taxa of vertebrates, but evidence is lacking for true FV infiltration in cartilaginous fish, the most basal living vertebrates with jaws. Here, we screened 11 available genomes and 10 transcriptome sequence assemblies of cartilaginous fish and revealed a novel endogenous foamy virus, termed cartilaginous fish endogenous foamy virus (CFEFV), in the genomes of sharks and rays. Genomic analysis of CFEFVs revealed feature motifs that were retained among canonical FVs. Phylogenetic analysis using polymerase sequences revealed the rooting nature of CFEFVs to vertebrate FVs, indicating their deep origin. Interestingly, three viral lineages were found in a shark (Scyliorhinus torazame), one of which was clustered with ray-finned fish foamy-like viruses, indicating that multiple episodes of viral infiltrations had occurred in this species. These findings fill a major gap in the Spumaretrovirinae taxon and reveal the aquatic origin of FVs found in terrestrial vertebrates. IMPORTANCE Although foamy viruses (FVs) have been found in major branches of vertebrates, the presence of these viruses in cartilaginous fish, the most basal living vertebrates with jaws, remains to be explored. This study revealed a collection of cartilaginous endogenous FVs in sharks and rays through in silico genomic mining. These viruses were rooted in the polymerase (POL) phylogeny, indicating the ancient aquatic origin of FVs. However, their envelope (ENV) protein grouped with those of amphibian FVs, suggesting different evolutionary histories of different FV genes. Overall, we provide the last missing gap for the taxonomic investigation of Spumaretrovirinae and provide concrete support for the aquatic origin of FVs.
               
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