Srivastav, S.P., Rahman, R., Ma, Q., Pierre, J., Bandyopadhyay, S., Lau, N.C. (2019). Har-P, a short P-element variant, weaponizes P-transposase to severely impair Drosophila development. eLife 8(): e49948.
FlyBase ID
FBrf0244443
Publication Type
Research paper
Abstract
Without transposon-silencing Piwi-interacting RNAs (piRNAs), transposition causes an ovarian atrophy syndrome in Drosophila called gonadal dysgenesis (GD). Harwich (Har) strains with P-elements cause severe GD in F1 daughters when Har fathers mate with mothers lacking P-element-piRNAs (i.e. ISO1 strain). To address the mystery of why Har induces severe GD, we bred hybrid Drosophila with Har genomic fragments into the ISO1 background to create HISR-D or HISR-N lines that still cause Dysgenesis or are Non-dysgenic, respectively. In these lines, we discovered a highly truncated P-element variant we named 'Har-P' as the most frequent de novo insertion. Although HISR-D lines still contain full-length P-elements, HISR-N lines lost functional P-transposase but retained Har-P's that when crossed back to P-transposase restores GD induction. Finally, we uncovered P-element-piRNA-directed repression on Har-P's transmitted paternally to suppress somatic transposition. The Drosophila short Har-P's and full-length P-elements relationship parallels the MITEs/DNA-transposase in plants and SINEs/LINEs in mammals.
