Niki Yuzo, Okada Masukichi
Institute of Biological Sciences, The University of Tsukuba, Sakura-mura, 305, Ibaraki, Japan.
Wilehm Roux Arch Dev Biol. 1981 Jan;190(1):1-10. doi: 10.1007/BF00868697.
Two temperature-sensitive sex-linkedgrandchildless (gs)-like mutations (gs(1)N26 andgs(1)N441) were induced by ethylmethane sulphonate inDrosophila melanogaster. They complemented each other and mapped at two different loci (1-33.8±0.7 forgs(1)N26 and 1-39.6±1.7 forgs(1)N441), which were not identical to those of any of thegs-like mutants reported in earlier work.Homozygous females of the newly isolated mutants produced eggs that were unable to form pole cells and developed into agametic adults. Competence of the embryos to form pole cells was not restored by wild-type sperm in either mutant; that is, the sterility caused by these mutations is controlled by a maternal effect.Fecundity and fertility ofgs(1)N26 females were low, and their male offspring showed a higher mortality than that of female offspring, causing an abnormal sex ratio. The frequency of agametic progeny was 93.1% and 55.8%, when the female parents were reared at 25° C and 18° C, respectively. In eggs produced by thegs(1)N26 females reared at 25° C, the migration of nuclei to the posterior pole was abnormal, and almost no pole cell formation occurred in these egg. Furthermore, half of these eggs failed to cellularize at the posterior pole. When the females were reared at 18° C, almost all of the eggs underwent complete blastoderm formation, and in half of these blastoderm embryos normal pole cells were formed.In the other mutant,gs(1)N441, the fecundity and fertility of the females were normal. The agametic frequency in the progeny was 70.8% and 18.6% when the female parents were reared at 25° C and 18° C, respectively. In the eggs laid by females reared either at 25° C or at 18° C, the migration of nuclei to the periphery and cellularization proceeded normally; nevertheless, in the majority of the embryos no pole cell formation occured at the stage when nuclei penetrated into the periplasm. When the females were reared at 18° C, some of the embryos from these females formed some round blastoderm cells with cytologically recognizable polar granules and nuclear bodies, which are attributes of pole cells. The temperature sensitive period ofgs(1)N441 was estimated to extend from stage 9 to 13 of King's stages of oogenesis.
通过甲磺酸乙酯在黑腹果蝇中诱导出了两个温度敏感型性连锁类无孙代(gs)突变(gs(1)N26和gs(1)N441)。它们相互互补,并定位于两个不同的位点(gs(1)N26位于1-33.8±0.7,gs(1)N441位于1-39.6±1.7),这与早期工作中报道的任何类gs突变体的位点都不相同。新分离突变体的纯合雌蝇产生的卵无法形成极细胞,并发育成无配子的成虫。在这两种突变体中,野生型精子都不能恢复胚胎形成极细胞的能力;也就是说,这些突变引起的不育是由母体效应控制的。gs(1)N26雌蝇的繁殖力和生育力较低,其雄性后代的死亡率高于雌性后代,导致性别比例异常。当雌性亲本分别在25℃和18℃饲养时,无配子后代的频率分别为93.1%和55.8%。在25℃饲养的gs(1)N26雌蝇产生的卵中,细胞核向后极的迁移异常,这些卵中几乎没有极细胞形成。此外,这些卵中有一半在后极未能细胞化。当雌蝇在18℃饲养时,几乎所有的卵都经历了完整的胚盘形成,并且在这些胚盘胚胎中有一半形成了正常的极细胞。在另一个突变体gs(1)N441中,雌蝇的繁殖力和生育力正常。当雌性亲本分别在25℃和18℃饲养时,后代中无配子的频率分别为70.8%和18.6%。在25℃或18℃饲养的雌蝇产下的卵中,细胞核向周边的迁移和细胞化过程正常;然而,在大多数胚胎中,当细胞核侵入周质时,极细胞没有形成。当雌蝇在18℃饲养时,这些雌蝇的一些胚胎形成了一些圆形的胚盘细胞,具有细胞学上可识别的极粒和核体,这是极细胞的特征。gs(1)N441的温度敏感期估计从卵子发生的金氏阶段的第9阶段延伸到第13阶段。
