Details of the female and male pathway of the Keimbahn determined by enzyme histochemical and autoradiographic studies.

Basic and applied histochemistry Pub Date : 1990-01-01
W Hilscher, B Hilscher
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Abstract

Autoradiographic studies and the use of enzyme histochemistry have revealed that early germ line cells (female and male PGC, oogonia, prediplotene oocytes and prospermatogonia) as well as the more advanced germ cells (diplotene oocytes, spermatogonia, spermatocytes and spermatids) show specific patterns of their DNA and RNA synthesis and their enzymatic equipment. The female and male germ lines show similar kinetics up to the arise of oocytes and T prospermatogonia (T for transitional), the final products of a first limited multiplication process of primitive gonia. In former studies we supposed that oocytes and T prospermatogonia are the first exponents of the female and male pathway of the germ line (Hilscher and Hilscher, 1989a). Recently, it could be shown--using the reverse PLM method in slides of plastic embedded material--that the first differences between female and male GC can already be stated at the end of the first proliferation wave of oogonia and multiplying prospermatogonia; that means even before the existence of oocytes and T prospermatogonia (Hilscher and Hilscher, 1989b). Oogonia and M prospermatogonia (M for multiplying) are equipped both with only one active X chromosome. While oocytes traverse the prediplotene stages of meiotic prophase T prospermatogonia prepare for a second extensive proliferation process: spermatogenesis. Oocytes in meiosis are provided with two active X chromosomes, T prospermatogonia possess only one, and the presence of the Y chromosome is not vital for them. However, the Y chromosome is required for the normal course of spermatogenesis characterized by a stock of stem cells, that are responsible for the continuous production of male gamets. The mammalian oocyte--similar as that of insects and amphibia but to a lower degree--acts as pre-embryo.

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通过酶组织化学和放射自显影研究确定Keimbahn的雌性和雄性通路的细节。
放射自显影研究和酶组织化学的使用表明,早期生殖系细胞(雌性和雄性PGC、卵原细胞、前二倍体卵母细胞和泌母细胞)以及更高级的生殖细胞(二倍体卵母细胞、精原细胞、精母细胞和精母细胞)显示出其DNA和RNA合成及其酶设备的特定模式。雌性和雄性生殖系表现出相似的动力学,直到卵母细胞和发育成熟的生殖细胞(T为过渡性生殖)的出现,这是原始生殖细胞第一次有限增殖过程的最终产物。在以前的研究中,我们认为卵母细胞和生殖细胞是生殖系雌性和雄性途径的第一个指数(Hilscher and Hilscher, 1989a)。最近,它可以显示-使用塑料嵌入材料幻灯片的反向PLM方法-雌性和雄性GC之间的第一个差异已经可以在卵原体和繁殖的第一个增殖波结束时陈述;这意味着甚至在卵母细胞和泌血T细胞存在之前(Hilscher and Hilscher, 1989b)。Oogonia和M prospermatogonia (M代表繁殖)都只有一条活跃的X染色体。当卵母细胞通过减数分裂前期T的前倍体阶段时,泌乳细胞准备进行第二次广泛的增殖过程:精子发生。减数分裂中的卵母细胞有两条活跃的X染色体,而增生T细胞只有一条,Y染色体的存在对它们来说并不重要。然而,Y染色体是正常的精子发生过程所必需的,其特征是干细胞的储存,负责雄性配子的持续产生。哺乳动物的卵母细胞——与昆虫和两栖动物的卵母细胞相似,但程度较低——起着前胚胎的作用。
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