AI Article Synopsis
- Endogenous viral elements (EVEs) are ancient viral sequences integrated into host genomes that have been passed down through generations, offering insights into viral evolution over millions of years.
- Research on EVEs from mammals like whales, bats, and rabbits revealed that these remnants originated from distinct ancestral dependoparvoviruses about 77 to 23 million years ago, showing unique traits compared to modern adeno-associated viruses (AAVs).
- Phylogenetic analysis indicates that the host types have different viral ancestry, suggesting that while some EVEs may have evolved with waterfowl, others likely share lineage with existing mammalian AAVs, with significant conservation of viral genes observed despite long-term integration.
Article Abstract
Endogenous viral elements (EVEs) are genetic remnants of viruses that have integrated into host genomes millions of years ago and retained as heritable elements passed on to offspring until present-day. As a result, EVEs provide an opportunity to analyse the genomes of extinct viruses utilizing these genomic viral fossils to study evolution of viruses over large timescales. Analysis of sequences from near full-length EVEs of dependoparvoviral origin identified within three mammalian taxa, Whippomorpha (whales and hippos), Vespertilionidae (smooth-nosed bats), and Lagomorpha (rabbits, hares, and pikas), indicates that distinct ancestral dependoparvovirus species integrated into these host genomes approximately 77 to 23 million years ago. These ancestral viruses are unique relative to modern adeno-associated viruses (AAVs), and distinct from extant species of genus . These EVE sequences show characteristics previously unseen in modern, mammalian AAVs, but instead appear more similar to the more primitive, autonomously replicating and pathogenic waterfowl dependoparvoviruses. Phylogeny reconstruction suggests that the whippomorph EVE orthologue derives from exogenous ancestors of autonomous and highly pathogenic dependoparvovirus lineages, believed to have uniquely co-evolved with waterfowl birds to present date. In contrast, ancestors of the two other mammalian orthologues (Lagomorpha and Vespertilionidae) likely shared the same lineage as all other known mammalian exogenous AAVs. Comparative analysis of the EVE genomes revealed remarkable overall conservation of AAV and genes, despite millions of years of integration within the host germline. Modelling these proteins identified unexpected variety, even between orthologues, in previously defined capsid viral protein (VP) variable regions, especially in those related to the three- and fivefold symmetry axes of the capsid. Moreover, the normally well-conserved phospholipase A2 domain of the predicted minor VP1 also exhibited a high degree of sequence variance. These findings may indicate unique biological properties for these virus 'fossils' relative to extant dependoparvoviruses and suggest key regions to explore within capsid sequences that may confer novel properties for engineered gene therapy vectors based on paleovirology data.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7474932 | PMC |
| http://dx.doi.org/10.1093/ve/veaa043 | DOI Listing |
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