Project description:Minotaur is critical for primary piRNA biogenesis [smallRNA-Seq]

Project description:A critical role for nucleoporin 358 (Nup358) in transposon silencing and piRNA biogenesis in Drosophila [RNA-Seq]

Project description:Somatic Primary piRNA Biogenesis Driven by Cis-Acting RNA Elements and Trans- Acting Yb

Project description:Shutdown is a component of the Drosophila piRNA biogenesis machinery (RNA-seq)

Project description:piRNA-guided slicing specifies transcripts for Zucchini dependent, phased piRNA biogenesis

Project description:Trans-generationally inherited piRNAs trigger piRNA biogenesis by changing the chromatin of piRNA clusters and inducing precursor processing [cuff RNA-seq]

Project description:Trans-generationally inherited piRNAs trigger piRNA biogenesis by changing the chromatin of piRNA clusters and inducing precursor processing [Rhino RNA-seq]

Project description:Transposons evolve rapidly and can mobilize and trigger genetic instability. piRNAs silence these genome pathogens, but it is unclear how the piRNA pathway adapts to new transposons. In Drosophila piRNAs, encoded by heterochromatic clusters are maternally deposited in the embryo. Paternally inherited P-element transposons thus escape silencing and trigger a genetic instability and sterility. We show that this syndrome, termed P-M hybrid dysgenesis, also disrupts the piRNA biogenesis machinery and activates resident transposons. As dysgenic hybrids age, however, fertility is restored, P-elements are silenced, and P-element piRNAs are produced de novo. In addition, the piRNA biogenesis machinery is restored and resident elements are silenced. Significantly, new resident transposons insertions accumulate in piRNA clusters, and these new insertions are transmitted to progeny with high fidelity, produce novel piRNAs, and are associated with reduced transposition. P-M hybrid dysgenesis thus leads to heritable changes in chromosome structure that appear to enhance transposon silencing.

Project description:Minotaur is critical for primary piRNA biogenesis

Project description:Vreteno, a gonad-specific protein, is essential for germline development and primary piRNA biogenesis in Drosophila.