Spatial and temporal control of meiosis

减数分裂的空间和时间控制

• 批准号: RGPIN-2017-05839
• 负责人: Swan, Andrew
• 金额: $ 2.48万
• 依托单位: University of Windsor
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2019
• 资助国家: 加拿大
• 起止时间: 2019-01-01 至 2020-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=685369
• 关键词: Spatial; temporal; control; meiosis

Egg activation is the process by which a mature egg is triggered to complete meiosis and at the same time to undergo critical developmental changes that prepare the egg for subsequent embryonic development. The cort gene, which encodes a meiosis-specific activator of the Anaphase Promoting Complex (APC/C), is involved in almost all aspects of egg activation. A small number of other genes have also been implicated in egg activation, including the CanB2 phosphatase and CycB3-Cdk1. A major goal of our research is to determine how these genes interact to promote the completion of meiosis. We are also interested in discovering how these cell cycle regulators also control critical developmental processes that are linked to egg activation. ******Aim 1. Regulation of the APC/C in Drosophila meiosis. In Aim 1 we use mass-spectrometry (MS) to identify subunits of Cort and Fzy APC/C complexes and identify post-translational modifications that change with egg activation. We will determine how CanB2 and CycB3 regulate the APC/C in meiosis by comparing MS profiles of Cort and Fzy in wild type versus mutants for these genes. To complement this biochemical approach, we employ a deficiency screen to probe the entire genome for genes that enhance or suppress cycB3 gain or loss-of-function alleles. Also in Aim 1 we will follow up on our surprising finding that Rca1, an inhibitor of APC/CFzr, has an APC/C activating role in meiosis. ******Aim 2. Determine how chromosomes segregate in meiosis. We found that chromosome segregation in Drosophila meiosis requires the protease, Separase, and the APC/C-mediated degradation of its inhibitor Securin. A major goal in this Aim is to identify the Separase target. Also in Aim 2 we evaluate the role of Cort, CanB2, CycB3 and Rca1 in the release of arm cohesion, and we follow up on our finding that CycB-Cdk1 plays a role in chromosome segregation in meiosis. We also determine if Separase is controlled locally in meiosis, possibly by Securin or CycB. ******Aim 3. Determine role of APC/CCort in sex determination. We uncovered a novel role for the APC/C in sex determination. We will test our model that APC/CCort targets a key regulator of sex determination, Tra for destruction. We propose that Cort acts in female germline to prevent maternal Tra from committing the embryo to a female fate. We propose that this role for Cort is particularly important in insect species in which Tra is the master regulator of sex determination. We will directly test this using the medfly as a model.******This research program will directly train 3 PhD and 20 undergraduate students. All will receive a high level of training in a broad range of molecular, genetics, biochemistry, and biological imaging techniques. All students will be trained in scientific method, they will develop their ability to design and interpret experiments and they will learn to write and present their work. Students will be highly qualified for jobs in research, teaching and industry.

卵子激活是一个成熟的卵子被触发完成减数分裂，同时经历关键的发育变化，为随后的胚胎发育做好准备的过程。编码后期促进复合体（APC/C）减数分裂特异性激活因子的cort基因几乎参与了卵子激活的所有方面。少量其他基因也与卵子活化有关，包括CanB2磷酸酶和CycB3-Cdk1。我们研究的一个主要目标是确定这些基因如何相互作用以促进减数分裂的完成。我们也对发现这些细胞周期调节因子如何控制与卵子激活相关的关键发育过程感兴趣。* * * * * *的目标1。果蝇减数分裂中APC/C的调控。在Aim 1中，我们使用质谱（MS）鉴定了Cort和Fzy APC/C复合物的亚基，并鉴定了随着卵子激活而变化的翻译后修饰。我们将通过比较野生型和突变型的Cort和Fzy的MS谱来确定CanB2和CycB3如何调节减数分裂中的APC/C。为了补充这种生化方法，我们采用缺陷筛选来探测整个基因组中增强或抑制cycB3获得或功能丧失等位基因的基因。同样在Aim 1中，我们将继续我们的惊人发现，即APC/CFzr抑制剂Rca1在减数分裂中具有APC/C激活作用。* * * * * *的目标2。确定染色体在减数分裂中如何分离。我们发现果蝇减数分裂中的染色体分离需要蛋白酶、分离酶和APC/ c介导的对其抑制剂Securin的降解。本目标的一个主要目标是确定分离目标。同样在Aim 2中，我们评估了Cort、CanB2、CycB3和Rca1在臂内聚释放中的作用，并进一步研究了CycB-Cdk1在减数分裂中对染色体分离的作用。我们还确定分离酶是否在减数分裂中受到局部控制，可能是由Securin或CycB控制的。* * * * * *的目标3。确定APC/ cort在性别决定中的作用。我们发现了APC/C在性别决定中的新作用。我们将测试我们的模型，APC/ cort针对性别决定的关键调节因子Tra进行破坏。我们认为，Cort在雌性种系中起作用，以防止母体Tra将胚胎置于雌性命运。我们认为Cort的这种作用在昆虫物种中特别重要，其中Tra是性别决定的主要调节器。我们将使用medfly作为模型直接对此进行测试。******该研究项目将直接培养3名博士和20名本科生。所有人都将在分子、遗传学、生物化学和生物成像技术方面接受高水平的培训。所有的学生都将接受科学方法的训练，他们将发展自己设计和解释实验的能力，他们将学习写作和展示他们的作品。学生将非常适合从事科研、教学和工业工作。