Selective Degradation of Specific Components of Fertilization Coat and Differentiation of Hatching Gland Cells during the Two Phase Hatching of Bufo japonicus Embryos |
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Authors: | Hisashi Yamasaki Chiaki Katagiri Norio Yoshizaki |
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Affiliation: | Zoological Institute, Faculty of Science, Hokkaido University, Sapporo 060, Japan.;Department of Biology, Faculty of General Education, Gifu University, Gifu 501–11, Japan |
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Abstract: | The embryonic hatching process in the toad, Bufo japonicus , consists of two phases: rupture of the outer jelly strings at stage 20 (neural tube) and an escape from the inner jelly layers and fertilization coat (FC) of individual embryos at stage 23 (tailbud). SDS-PAGE analyses of FCs revealed that, of the eight major protein bands, two components with 58 K and 62 K in molecular weight gradually decreased from stage 18–19 on and totally disappeared at stage 22. When the FCs were treated with a hatching medium prepared by culturing denuded prehatching embryos, both 58 K and 62 K components of the FCs were solubilized, and in the solubilized materials 18 K and 31 K components appeared. Electron microscopy showed that a meshwork of filament bundles present in the FCs before stage 17 became dissociated at stage 19–20, and completely disappeared at stage 23, just before the hatching of embryos. Hatching gland cells (HGCs), an epidermal cell with numerous secretory granules, were first identified at stage 19, and underwent active secretion of the granules during stage 19–23. These results indicate that the hydrolytic degradation of 58K and 62 K components in FCs effected by the hatching enzyme constitutes the basic mechanism of embryonic hatching during both the first and second phases. |
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