The cytological changes of sperm and oocyte nuclei during fertilization in Phascolosoma esculenta (Sipuncula: Phascolosomatidea)

L. Long, Z. Sheng, S. Xu, W. Wang, J. Zhu
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引用次数: 4

Abstract

Abstract In this study, we investigated fertilization cytology in Phascolosoma esculenta. The sperm binds to the oocyte envelope in a random position at the point of initial contact. An acrosomal reaction then occurs and the acrosomal filament penetrates the oocyte envelope. The apex of the acrosomal filament contacts with the plasma membrane of the oocyte at the point where the fertilization cone is formed. The fertilization cone then retracts, towing the acrosomal filament back and drawing the sperm into the oocyte. Subsequently, the pores on the oocyte envelope are blocked and filled with fibrin and colloid. After the oocyte is activated by sperm, the first and second meiosis processes start sequentially, followed by the release of the first and second polar bodies. After the second polar body is extruded, the haploid female nucleus rapidly reorganizes to form a female pronucleus. In comparison, the sperm nucleus begins to decondense and dilate after the first polar body is released. The male pronucleus is not formed until the end of the second meiosis. The male and female pronuclei migrate to the centre of the oosperm and are incorporated into the zygote nucleus and then the first cleavage occurs. A two cell embryo is then formed by plasma membrane invagination. The cytological changes of sperm and oocyte nuclei during sperm entry into the oocyte and the fertilization process in P. esculenta are characterized by: (1) the mature oocyte with fertilization ability being in the metaphase of the first meiosis; (2) sperm is drawn into the oocyte by the acrosomal filament and fertilization cone; (3) some abnormal phenomena such as polyspermy, multiple pronuclei and multipolar spindle; and (4) the male pronucleus is formed earlier than the female pronucleus, at which point they will fuse to form a zygote nucleus.
肉芽Phascolosoma esculenta (Sipuncula: Phascolosomatidea)受精过程中精子和卵细胞核的细胞学变化
摘要本研究对肉芽phascolsoma esculenta的受精细胞学进行了研究。精子在初始接触点的随机位置与卵母细胞包膜结合。随后发生顶体反应,顶体丝穿透卵母细胞包膜。顶体丝的顶端在受精锥形成的地方与卵母细胞的质膜接触。受精锥随后缩回,将顶体丝拉回,将精子拉入卵母细胞。随后,卵母细胞包膜上的孔被堵塞并充满纤维蛋白和胶体。卵母细胞被精子激活后,第一次和第二次减数分裂过程依次开始,随后释放第一极体和第二极体。第二极体被挤压后,单倍体雌核迅速重组形成雌原核。相比之下,精子核在第一个极体被释放后开始去致密和扩张。雄性原核直到第二次减数分裂结束时才形成。雄性和雌性原核迁移到卵精的中心,并结合到受精卵核中,然后发生第一次卵裂。细胞膜内陷形成双细胞胚胎。在精子进入卵母细胞和受精过程中,卵母细胞核和精子的细胞学变化有以下特点:(1)具有受精能力的成熟卵母细胞处于第一次减数分裂中期;(2)精子通过顶体丝和受精锥进入卵母细胞;(3)多精、多原核、多极纺锤体等异常现象;(4)雄性原核比雌性原核形成得早,此时它们会融合形成受精卵核。
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来源期刊
Italian Journal of Zoology
Italian Journal of Zoology 生物-动物学
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6-12 weeks
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