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- Title
Genome mining shows that retroviruses are pervasively invading vertebrate genomes.
- Authors
Wang, Jianhua; Han, Guan-Zhu
- Abstract
Endogenous retroviruses (ERVs) record past retroviral infections, providing molecular archives for interrogating the evolution of retroviruses and retrovirus-host interaction. However, the vast majority of ERVs are not active anymore due to various disruptive mutations, and ongoing retroviral invasion of vertebrate genomes has been rarely documented. Here we analyze genomics data from 2004 vertebrates for mining invading ERVs (ERVi). We find that at least 412 ERVi elements representing 217 viral operational taxonomic units are invading the genomes of 123 vertebrates, 18 of which have been assessed to be threatened species. Our results reveal an unexpected prevalence of ongoing retroviral invasion in vertebrates and expand the diversity of retroviruses recently circulating in the wild. We characterize the pattern and nature of ERVi in the historical and biogeographical context of their hosts, for instance, the generation of model organisms, sympatric speciation, and domestication. We suspect that these ERVi are relevant to conservation of threatened species, zoonoses in the wild, and emerging infectious diseases in humans. Ongoing retroviral invasion into vertebrates has been rarely documented. Here the authors have identified 412 endogenous retroviruses that are invading the genomes of over a hundred vertebrate species. This may be relevant to conservation of threatened species, zoonoses in the wild, and emerging infectious diseases in humans.
- Subjects
EMERGING infectious diseases; RETROVIRUS diseases; SYMPATRIC speciation; ENDOGENOUS retroviruses; RETROVIRUSES; GENOMES
- Publication
Nature Communications, 2023, Vol 14, Issue 1, p1
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-023-40732-w