Characterization of Herves-like transposable elements (hATs) in Drosophila species and their evolutionary scenario
- PMID: 30793407
- DOI: 10.1111/imb.12577
Characterization of Herves-like transposable elements (hATs) in Drosophila species and their evolutionary scenario
Abstract
A monophyletic group of Drosophila hAT transposable elements, referred to as Herves-like, was characterized and found to be present in 46% of 57 screened Drosophila species. A remarkable characteristic of these elements is the presence of a long array of minisatellite repeats (MnRs) in both subterminal extremities of the elements. The copy number of these minisatellites was highly variable between and within populations. Twenty-three strains of Drosophila willistoni, covering its geographic distribution, were screened for polymorphism in the copy number of 5' MnRs, showing a variation from 7 to 20 repeat copies. These MnRs are well conserved among Drosophila species and probably function as transposase binding sequences, as provided by short subterminal repeats in other hAT elements. Miniature inverted repeat transposable elements were found in 27% of species carrying Herves-like elements. Phylogenetic analysis showed incongruences between transposable elements and species phylogenies, suggesting that at least four horizontal transfer events have occurred.
Keywords: MITEs; genome evolution; horizontal transfer; minisatellites; transposons.
© 2019 The Royal Entomological Society.
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References
-
- Arensburger, P., Kim, Y.J., Orsetti, J., Aluvihare, C., O’Brochta, D.A. and Atkinson, P.W. (2005) An active transposable element, Herves, from the African malaria mosquito Anopheles gambiae. Genetics, 169(2), 697-708.
-
- Arensburger, P., Hice, R.H., Zhou, L., Smith, R.C., Tom, A.C. and Wright, J.A. (2011) Phylogenetic and functional characterization of the hAT transposon superfamily. Genetics, 188(1), 45-57.
-
- Arensburger, P., Piégu, B. and Bigot, Y. (2016) The future of transposable element annotation and their classification in the light of functional genomics - what we can learn from the fables of Jean de la Fontaine? Mobile Genetic Elements, 6(6), e1256852.
-
- Atkinson, P.W. (2014) hAT transposable elements. In: Craig, N.L., Chandler, M., Gellert, M., Lambowitz, A.M., Rice, P.A. and Sandmeyer, S. Mobile DNA, 3rd Ed. Washington, DC: American Society for Microbiology.
-
- Bassam, B.J. and Gresshoff, P.M. (2007) Silver staining of DNA in polyacrylamide gels. Analytical Biochemistry, 2, 2649-2654.
