Sexual Development of the Drosophila Germline

果蝇种系的性发育

• 批准号: 8506045
• 负责人: Mark B Van Doren
• 金额: $ 34.9万
• 依托单位: JOHNS HOPKINS UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2009
• 资助国家: 美国
• 起止时间: 2009-03-01 至 2016-12-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8506045
• 关键词: Adult; Affect; Animals; Behavior; Binding; Chromatin; Couples; Cues; Data; Development; Drosophila genus; Ectopic Expression; Elements; Embryo; Epigenetic Process; Event; Female; Fertility; Figs - dietary; Fingers; Gene Expression; Gene Expression Profile; Genes; Genome; Genotype; Germ Cells; Gonadal structure; Histone H3; Homologous Gene; Human; Modeling; Modification; Mus; N-terminal; Nature; Organism; Pathway interactions; Pattern; Plants; Process; Production; Proteins; RNA-Binding Proteins; Reader; Regulation; Reproduction; Sex Chromosomes; Sexual Development; Signal Pathway; Signal Transduction; Stem cells; Tail; Testing; Testis; Work; X Chromosome; egg; experience; fly; homeodomain; male; man; neuronal cell body; programs; promoter; public health relevance; response; sex; sex determination; sperm cell; transcription factor

DESCRIPTION (provided by applicant): The establishment of sexual identity in the germline is critical for the sex-specific development of germline stem cells and the production of sperm vs. eggs. Thus, it is an essential aspect of animal sexual reproduction and human fertility. Germ cells depend on signals from the somatic gonad to determine their sex, but in organisms such as flies, mice and man, the sex chromosome genotype of the germ cells is also important for germline sexual development. Ultimately, germline sexual identity must result in a sex-specific program of gene expression in the germ cells. How somatic signals and germ cell autonomous factors combine to regulate sex-specific gene expression in the germline is a central question for germline sex determination about which little is known in any organism. In Drosophila, extrinsic signals from both the male soma and the female soma regulate germline sexual identity. We have shown that the male signal acts through the JAK/STAT pathway, but the nature of the female signal remains unknown. Intrinsically, the germline sex chromosome genotype activates expression of the germline sex determination gene Sex lethal (Sxl) in females. How Sxl becomes activated in the female germline, and how Sxl regulates female germ cell identity are also unknown. Lastly, these extrinsic and intrinsic mechanisms must ultimately give rise to a sex-specific pattern of gene expression. We have identified Plant homeodomain finger protein 7 (PHF7) as a critical factor in regulating male germline identity that acts as a "reader" of epigenetic information by recognizing specific modified forms of histone H3. However, we do not yet know how PHF7 functions to regulate male germline gene expression. In this proposal, we will take an integrated approach to investigate how extrinsic signals from the soma combine with germline intrinsic cues to initiate germline sex determination and generate a sex-specific pattern of germline gene expression. This work will provide a comprehensive model for how sexual identity is established and used to influence important aspects of germline development, such as the sex-specific formation of germline stem cells. This model can be used as a framework for continued studies of germline sex determination in Drosophila and other animal species, including humans.

描述（由申请方提供）：在生殖系中建立性别身份对于生殖系干细胞的性别特异性发育和精子与卵子的产生至关重要。因此，它是动物有性生殖和人类生育能力的一个重要方面。生殖细胞依赖于来自体细胞性腺的信号来确定其性别，但在生物体如苍蝇、小鼠和人类中，生殖细胞的性染色体基因型对生殖系性发育也很重要。最终，生殖细胞的性别认同必然导致生殖细胞中基因表达的性别特异性程序。体细胞信号和生殖细胞自主因子联合收割机如何共同调控生殖细胞性别特异性基因的表达是生殖细胞性别决定的核心问题，而这一问题在任何生物中都知之甚少。 在果蝇中，来自雄性索马和雌性索马的外部信号调节生殖细胞的性别认同。我们已经表明，男性信号通过JAK/STAT途径起作用，但女性信号的性质仍然未知。此外，生殖系性染色体基因型激活雌性中生殖系性别决定基因Sex lethal（Sxl）的表达。Sxl如何在雌性生殖细胞中被激活，以及Sxl如何调节雌性生殖细胞身份也是未知的。最后，这些外在和内在的机制必须最终引起性别特异性的基因表达模式。我们已经确定植物同源结构域指蛋白7（PHF 7）作为一个关键因素，在调节男性生殖系身份，作为一个“读者”的表观遗传信息，通过识别特定的修改形式的组蛋白H3。然而，我们还不知道PHF 7如何调节雄性生殖系基因表达。 在这个建议中，我们将采取一个综合的方法来研究如何从索马联合收割机外部信号与生殖细胞的内在线索，启动生殖细胞性别决定和生殖细胞基因表达的性别特异性模式。这项工作将提供一个全面的模型，说明性别认同是如何建立的，并用于影响生殖系发育的重要方面，例如生殖系干细胞的性别特异性形成。该模型可以作为果蝇和其他动物物种（包括人类）生殖系性别决定的持续研究的框架。