Retrotransposable Elements R1 and R2 in the rDNA Units of Drosophila mercatorum: abnormal abdomen Revisited

Retrotransposable Elements R1 and R2 in the rDNA Units of Drosophila mercatorum: abnormal abdomen Revisited

Harmit S. Malik^a and Thomas H. Eickbush^a
^a Department of Biology, University of Rochester, Rochester, New York 14627

Corresponding author: Thomas H. Eickbush, Department of Biology, Hutchison Hall, University of Rochester, Rochester, NY 14627., eick{at}uhura.cc.rochester.edu (E-mail)

Communicating editor: R. S. HAWLEY

R1 and R2 retrotransposable elements are stable components ofthe 28S rRNA genes of arthropods. While each retrotranspositionevent leads to incremental losses of rDNA unit expression, littleis known about the selective consequences of these elementson the host genome. Previous reports suggested that in the abnormalabdomen (aa) phenotype of Drosophila mercatorum, high levelsof rDNA insertions (R1) in conjunction with the under-replicationlocus (ur), enable the utilization of different ecological conditionsvia a population level shift to younger age. We have sequencedthe R1 and R2 elements of D. mercatorum and show that the levelsof R1- and R2-inserted rDNA units were inaccurately scored inthe original studies of aa, leading to several misinterpretations.In particular, contrary to earlier reports, aa flies differentiallyunderreplicate R1- and R2-inserted rDNA units, like other speciesof Drosophila. However, aa flies do not undergo the lower levelof underreplication of their functional rDNA units (generalunderreplication) that is seen in wild-type strains. The lackof general underreplication is expected to confer a selectiveadvantage and, thus, can be interpreted as an adaptation toovercome high levels of R1 and R2 insertions. These resultsallow us to reconcile some of the apparently contradictory effectsof aa and the bobbed phenotype found in other species of Drosophila.

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