Rapid R2 Retrotransposition Leads to the Loss of Previously Inserted Copies via Large Deletions of the rDNA Locus

doi:10.1093/molbev/msm250

MBE Advance Access originally published online on November 13, 2007
Molecular Biology and Evolution 2008 25(1):229-237; doi:10.1093/molbev/msm250

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Research Articles

Rapid R2 Retrotransposition Leads to the Loss of Previously Inserted Copies via Large Deletions of the rDNA Locus

Xian Zhang, Jun Zhou and Thomas H. Eickbush

Department of Biology, University of Rochester

E-mail: eick{at}mail.rochester.edu.

Accepted for publication November 8, 2007.

R2 non–long terminal repeat retrotransposable elementsinsert specifically into the 28S rRNA genes of a wide rangeof animals. These elements maintain long-term stable relationshipswith the host genome. By scoring the variation present at the5' ends of individual R2 copies, lines of Drosophila simulanshave been identified with high rates of R2 retrotransposition.Comparing the R2 elements present in the parents with that oftheir progeny after 1 or 30 generations in this report revealedthat retrotransposition rates were higher through the femalegerm line compared with the male germ line. In addition, mostevents in females occur late in germ line development. Surprisingly,the gain of new R2 insertions by retrotranspositions was counterbalancedby deletions of preexisting R2 insertions. These deletions occurredby the loss of large segments of the rDNA units that containedon average an estimated 15 R2 elements. When monitored oversingle generations, the rate of loss of preexisting elementswas higher than the rate of new insertions. However, the chromosomeswith the largest deletions appear to be eliminated from thepopulation because the rates of R2 insertions and deletionsafter 30 generations were approximately equal. These findingssuggest that high rates of R2 retrotransposition do not necessarilylead to dramatic increases in the level of R2 insertions inthe rDNA locus but can lead to a more rapid turnover of rDNAunits.

Key Words: retrotransposable element • rates of retrotransposition • D. simulans • rDNA locus

Norihiro Okada, Associate Editor

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