Small RNA-based silencing strategies for transposons in the process of invading Drosophila species
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ABSTRACT: We investigated a pool of small RNAs derived from transposon Penelope to probe the evolution of small RNA pathways in response to the transposon challenge in natural (D. virilis) and experimentally induced (D. melanogaster) colonization processes. In both species, Penelope was predominantly targeted by endo-siRNAs rather than by piRNAs. Although we observed correlations between Penelope transcription and dysgenesis, we could not correlate differences in maternally deposited Penelope piRNAs with the sterility of progeny. Instead, we found that strains, which produced dysgenic progeny, differed in their production of piRNAs from clusters in sub-telomeric regions, possibly indicating that changes in the overall piRNA repertoire underlie dysgenesis. Considered together, our data reveal unexpected plasticity in small RNA pathways in germ cells, both in the character of their responses to invading transposons and in the piRNA clusters that define their ability to respond to mobile elements.
ORGANISM(S): Drosophila virilis Drosophila melanogaster
PROVIDER: GSE22067 | GEO | 2010/07/19
SECONDARY ACCESSION(S): PRJNA127489
REPOSITORIES: GEO
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