Essential and recurrent roles for hairpin RNAs in silencing de novo sex chromosome conflict in Drosophila simulans Journal Article


Authors: Vedanayagam, J.; Herbette, M.; Mudgett, H.; Lin, C. J.; Lai, C. M.; McDonough-Goldstein, C.; Dorus, S.; Loppin, B.; Meiklejohn, C.; Dubruille, R.; Lai, E.
Article Title: Essential and recurrent roles for hairpin RNAs in silencing de novo sex chromosome conflict in Drosophila simulans
Abstract: Meiotic drive loci distort the normally equal segregation of alleles, which benefits their own transmission even in the face of severe fitness costs to their host organism. However, relatively little is known about the molecular identity of meiotic drivers, their strategies of action, and mechanisms that can suppress their activity. Here, we present data from the fruitfly Drosophila simulans that address these questions. We show that a family of de novo, protamine-derived X-linked selfish genes (the Dox gene family) is silenced by a pair of newly emerged hairpin RNA (hpRNA) small interfering RNA (siRNA)-class loci, Nmy and Tmy. In the w[XD1] genetic background, knockout of nmy derepresses Dox and MDox in testes and depletes male progeny, whereas knockout of tmy causes misexpression of PDox genes and renders males sterile. Importantly, genetic interactions between nmy and tmy mutant alleles reveal that Tmy also specifically maintains male progeny for normal sex ratio. We show the Dox loci are functionally polymorphic within D. simulans, such that both nmy-associated sex ratio bias and tmy-associated sterility can be rescued by wild-type X chromosomes bearing natural deletions in different Dox family genes. Finally, using tagged transgenes of Dox and PDox2, we provide the first experimental evidence Dox family genes encode proteins that are strongly derepressed in cognate hpRNA mutants. Altogether, these studies support a model in which protamine-derived drivers and hpRNA suppressors drive repeated cycles of sex chromosome conflict and resolution that shape genome evolution and the genetic control of male gametogenesis.
Keywords: evolution; dissection; genetic; pathway; endogenous sirnas; accumulation; ratio; y-chromosome; segregation distortion; hybrid incompatibilities; male-sterility
Journal Title: PLoS Biology
Volume: 21
Issue: 6
ISSN: 1544-9173
Publisher: Public Library of Science  
Date Published: 2023-06-01
Start Page: e3002136
Language: English
ACCESSION: WOS:001003199100004
DOI: 10.1371/journal.pbio.3002136
PROVIDER: wos
PMCID: PMC10292708
PUBMED: 37289846
Notes: The MSK Cancer Center Support Grant (P30 CA008748) is acknowledged in the PubMed record and PDF. Corresponding author is MSK author Eric C. Lai -- Source: Wos
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MSK Authors
  1. Eric C Lai
    159 Lai
  2. Ching-Jung   Lin
    8 Lin
  3. Chun-Ming Lai
    1 Lai