Department of Biology, University of Fribourg, Switzerland.
Dev Biol. 2010 Aug 15;344(2):593-602. doi: 10.1016/j.ydbio.2010.05.009. Epub 2010 May 15.
In the germ line of the Caenorhabditis elegans hermaphrodite, nuclei either proliferate through mitosis or initiate meiosis, finally differentiating as spermatids or oocytes. The production of oocytes requires repression of the fem-3 mRNA by cytoplasmic FBF and nuclear MOG proteins. Here we report the identification of the sex determining gene mog-3 and show that in addition to its role in gamete sex determination, it is necessary for meiosis by acting downstream of GLP-1/Notch. Furthermore, we found that MOG-3 binds both to the nuclear proteins MEP-1 and CIR-1. MEP-1 is necessary for oocyte production and somatic differentiation, while the mammalian CIR-1 homolog counters Notch signaling. We propose that MOG-3, MEP-1 and CIR-1 associate in a nuclear complex which regulates different aspects of germ cell development. While FBF triggers the sperm/oocyte switch by directly repressing the fem-3 mRNA in the cytoplasm, the MOG proteins play a more indirect role in the nucleus, perhaps by acting as epigenetic regulators or by controlling precise splicing events.
在秀丽隐杆线虫雌雄同体的生殖系中,细胞核要么通过有丝分裂增殖,要么启动减数分裂,最终分化为精母细胞或卵母细胞。卵母细胞的产生需要细胞质 FBF 和核 MOG 蛋白抑制 fem-3 mRNA。在这里,我们鉴定了性别决定基因 mog-3,并表明除了在配子性别决定中的作用外,它还通过 GLP-1/Notch 下游的作用对减数分裂是必要的。此外,我们发现 MOG-3 结合到核蛋白 MEP-1 和 CIR-1。MEP-1 对于卵母细胞的产生和体细胞分化是必要的,而哺乳动物 CIR-1 同源物则拮抗 Notch 信号。我们提出,MOG-3、MEP-1 和 CIR-1 结合在一个核复合物中,该复合物调节生殖细胞发育的不同方面。虽然 FBF 通过直接在细胞质中抑制 fem-3 mRNA 触发精子/卵子转换,但 MOG 蛋白在核中发挥更间接的作用,可能作为表观遗传调节剂或通过控制精确的剪接事件发挥作用。
