Population genomics in the arboviral vector Aedes aegypti reveals the genomic architecture and evolution of endogenous viral elements
Publication year
2021Source
Molecular Ecology, 30, 7, (2021), pp. 1594-1611ISSN
Publication type
Article / Letter to editor
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Organization
Medical Microbiology
Journal title
Molecular Ecology
Volume
vol. 30
Issue
iss. 7
Page start
p. 1594
Page end
p. 1611
Subject
Radboudumc 4: lnfectious Diseases and Global Health RIMLS: Radboud Institute for Molecular Life Sciences; Medical Microbiology - Radboud University Medical CenterAbstract
Horizontal gene transfer from viruses to eukaryotic cells is a pervasive phenomenon. Somatic viral integrations are linked to persistent viral infection whereas integrations into germline cells are maintained in host genomes by vertical transmission and may be co-opted for host functions. In the arboviral vector Aedes aegypti, an endogenous viral element from a nonretroviral RNA virus (nrEVE) was shown to produce PIWI-interacting RNAs (piRNAs) to limit infection with a cognate virus. Thus, nrEVEs may constitute a heritable, sequence-specific mechanism for antiviral immunity, analogous to piRNA-mediated silencing of transposable elements. Here, we combine population genomics and evolutionary approaches to analyse the genomic architecture of nrEVEs in A. aegypti. We conducted a genome-wide screen for adaptive nrEVEs and searched for novel population-specific nrEVEs in the genomes of 80 individual wild-caught mosquitoes from five geographical populations. We show a dynamic landscape of nrEVEs in mosquito genomes and identified five novel nrEVEs derived from two currently circulating viruses, providing evidence of the environmental-dependent modification of a piRNA cluster. Overall, our results show that virus endogenization events are complex with only a few nrEVEs contributing to adaptive evolution in A. aegypti.
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- Academic publications [246515]
- Electronic publications [134102]
- Faculty of Medical Sciences [93308]
- Open Access publications [107628]
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