Different Regulatory Mechanisms Underlie Similar Transposable Element Profiles in Pufferfish and Fruitflies

doi:10.1093/molbev/msh243

MBE Advance Access originally published online on September 1, 2004
Molecular Biology and Evolution 2004 21(12):2310-2318; doi:10.1093/molbev/msh243

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Molecular Biology and Evolution vol. 21 no. 12 © Society for Molecular Biology and Evolution 2004; all rights reserved.

Research Article

Different Regulatory Mechanisms Underlie Similar Transposable Element Profiles in Pufferfish and Fruitflies

Daniel E. Neafsey, Justin P. Blumenstiel and Daniel L. Hartl

Department of Organismic and Evolutionary Biology, Harvard University, Cambridge, Massachusetts

E-mail: neafsey{at}oeb.harvard.edu.

Comparative analysis of recently sequenced eukaryotic genomeshas uncovered extensive variation in transposable element (TE)abundance, diversity, and distribution. The TE profile in thesequenced pufferfish genomes is more similar to that of Drosophilamelanogaster than to human or mouse, in that pufferfish TEsexhibit low overall abundance, high family diversity, and localizationin the heterochromatin. It has been suggested that selectionagainst the deleterious effects of ectopic recombination betweenTEs has structured the TE profile in Drosophila and pufferfishbut not in humans. We test this hypothesis by measuring thesample frequency of 48 euchromatic TE insertions in the genomeof the green spotted pufferfish (Tetraodon nigroviridis). Weestimate the strength of selection acting on recent insertionsby analyzing the site frequency spectrum using a maximum-likelihoodapproach. We show that in contrast to Drosophila, euchromaticTE insertions in Tetraodon are selectively neutral and thatthe low copy number and compartmentalized distribution of TEsin the Tetraodon genome must be caused by regulation by meansother than purifying selection acting on recent insertions.Inference of regulatory processes governing TE profiles shouldtake into account factors such as effective population size,incidence of inbreeding/outcrossing, and other species-specifictraits.

Key Words: Transposable elements • population genetics • Tetraodon • ectopic recombination • Drosophila

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