Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:In Drosophila female development is governed by a single RNA-binding protein, Sex lethal (Sxl), that controls the expression of key factors involved in dosage compensation, germline homeostasis and the establishment of female morphology and behaviour. Functional Sxl protein is only synthesized in female flies. Its expression is established in the pre-cellular, female embryo by an X-chromosome counting mechanism and maintained by a positive feedback loop with Sxl controlling alternative splicing of its own transcript. In male flies this feedback loop is not activated, keeping Sxl expression in the ‘off’ state. But what protects males against accidental triggering of the self-sustaining feedback loop and Sxl protein production snowballing out of control? Here we identify Sister of sex lethal (Ssx) as a protein that antagonizes Sxl in autoregulatory splicing by competition for the same RNA elements. Male flies mutant for ssx exhibit a low level of productive Sxl mRNA splicing and in cultured Drosophila cells, Sxl-induced changes in alternative splicing can be reverted by the expression of Ssx. In sum, this demonstrates that Ssx helps to establish a stable, male-specific gene expression pattern by protecting male flies against triggering Sxl expression.

Project description:In Drosophila female development is governed by a single RNA-binding protein, Sex lethal (Sxl), that controls the expression of key factors involved in dosage compensation, germline homeostasis and the establishment of female morphology and behaviour. Functional Sxl protein is only synthesized in female flies. Its expression is established in the pre-cellular, female embryo by an X-chromosome counting mechanism and maintained by a positive feedback loop with Sxl controlling alternative splicing of its own transcript. In male flies this feedback loop is not activated, keeping Sxl expression in the ‘off’ state. But what protects males against accidental triggering of the self-sustaining feedback loop and Sxl protein production snowballing out of control? Here we identify Sister of sex lethal (Ssx) as a protein that antagonizes Sxl in autoregulatory splicing by competition for the same RNA elements. Male flies mutant for ssx exhibit a low level of productive Sxl mRNA splicing and in cultured Drosophila cells, Sxl-induced changes in alternative splicing can be reverted by the expression of Ssx. In sum, this demonstrates that Ssx helps to establish a stable, male-specific gene expression pattern by protecting male flies against triggering Sxl expression.

Project description: Not available

Project description:Flipping the switch on Sex-lethal expression: Sister of Sex-lethal antagonizes Sxl-dependent alternative splicing to maintain a male-specific gene expression pattern in Drosophila

Project description: Not available

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Project description: Not available

Project description:We used long-oligonucleotide microarrays to investigate whether alternative splicing in Drosophila is regulated in a sex-, stage-, or tissue-specific manner. To examine sex-specific splicing, we compared gene expression profiles of male and female pupae 12 hours after pupariation. To examine stage-specific splicing, we compared expression profiles of mixed-sex, 0-24 hour old embryos and mixed-sex, 12 hour old pupae. To examine tissue-specific splicing, we compared expression profiles of adult male heads and abdomens 24-48 hours after eclosion. To examine tissue-specific splicing, we compared expression profiles of adult male heads and abdomens at 24-48 hours after eclosion. Keywords: tissue-specific expression profiles Drosophila isogenic line WI89 was used. Mixed-sex, mixed-stage embryos were harvested from plates on which females had been allowed to oviposit for 24 hours. To obtain synchronized cohorts of pupae, male and female white prepupae were collected at 0-1 hour after pupariation and aged for 12 hours at 25C. Mixed-sex pupal samples were generated by mixing equal amount of male and female pupal RNA. Adult heads and abdomens were dissected from 24-48 hour old males. mRNA was isolated and labeled without amplification.

Project description:We used long-oligonucleotide microarrays to investigate whether alternative splicing in Drosophila is regulated in a sex-, stage-, or tissue-specific manner. To examine sex-specific splicing, we compared gene expression profiles of male and female pupae 12 hours after pupariation. To examine stage-specific splicing, we compared expression profiles of mixed-sex, 0-24 hour old embryos and mixed-sex, 12 hour old pupae. To examine tissue-specific splicing, we compared expression profiles of adult male heads and abdomens 24-48 hours after eclosion. To examine tissue-specific splicing, we compared expression profiles of adult male heads and abdomens at 24-48 hours after eclosion. Keywords: tissue-specific expression profiles