Glycosidases, proteases and ascidian fertilization

Seminars in Developmental Biology Pub Date : 1994-08-01 DOI:10.1006/sedb.1994.1027

Motonori Hoshi, Satoshi Takizawa, Noritaka Hirohashi

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引用次数: 26

Abstract

Spermatozoa should bind to and then penetrate the vitelline coat for fertilization in ascidians and many other animals. There is substantial evidence that the binding of ascidian sperm is mediated by a sperm glycosidase and complementary saccharide chains of glycoproteins in the vitelline coat. Involvement of a sperm proteasome in the binding is also suggested. For the penetration, sperm proteases such as chymotrypsin-like enzyme, acrosin, spermosin and proteasome are suggested to play essential roles. Sperm glycosidase, that is translocated from the tip of sperm head to the surface overlying the mitochondrion, anchors the mitochondrion at the outer surface of vitelline coat. Therefore it assists sperm to penetrate the vitelline coat and traverse the perivitelline space. For fusion with egg plasma membrane, sperm metalloendoprotease seems to be involved. Egg glycosidases and proteases serve for some steps after fertilization, such as the prevention of polyspermy, expansion of perivitelline space and regulation of cell cycle.

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糖苷酶、蛋白酶和海鞘受精

在海鞘和许多其他动物中，精子应该结合并穿透卵磷脂外壳进行受精。有大量证据表明，海鞘精子的结合是由精子糖苷酶和卵磷脂外壳中糖蛋白的互补糖链介导的。精子蛋白酶体也参与了这种结合。精子蛋白酶如凝乳胰蛋白酶样酶、顶体酶、精子酶和蛋白酶体在穿透过程中起重要作用。精子糖苷酶从精子头端转移到线粒体表面，将线粒体固定在卵黄外表面。因此，它帮助精子穿透卵磷脂的外壳并穿过卵磷脂周围的空间。精子金属内蛋白酶似乎参与了与卵质膜的融合。卵糖苷酶和蛋白酶在受精后起着防止多精、扩大卵泡周间隙和调节细胞周期等作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Seminars in Developmental Biology

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