体外分离的单个玉米精子与中央细胞融合后的胚乳发育。
Endosperm development after fusion of isolated, single maize sperm and central cells in vitro.
作者信息
Kranz E, Quader H, Lorz H
机构信息
Institut fur Allgemeine Botanik, Angewandte Molekularbiologie der Pflanzen II, Universitat Hamburg, Ohnhorststrasse 18, 22609 Hamburg, Germany.
出版信息
Plant Cell. 1998 Apr;10(4):511-24. doi: 10.1105/tpc.10.4.511.
Abstract
We demonstrate here the possibility of endosperm development in vitro after the fusion of pairs of an isolated sperm and an isolated central cell of maize. The occurrence of karyogamy and the time course of the fusion of sperm and central cell nuclei are presented. The fusion of the sperm nucleus occurred either with one of the two polar nuclei or with the secondary nucleus and was completed within 2 hr after in vitro cell fusion. The in vitro study of early events after cell and nuclear fusion indicates that the resulting primary endosperm cell develops into a characteristic tissue capable of self-organization apart from the mother tissue. The technology presented here opens the way for new cellular and molecular studies, especially of early events after sperm and central cell fusion. These studies should lead to a better understanding of the processes of double fertilization and endosperm development.
摘要
我们在此证明了玉米分离出的精子与分离出的中央细胞融合后胚乳体外发育的可能性。文中呈现了核融合的发生以及精子与中央细胞核融合的时间进程。精核与两个极核之一或次生核发生融合,并在体外细胞融合后2小时内完成。对细胞和核融合后早期事件的体外研究表明,所产生的初生胚乳细胞发育成一种能够独立于母体组织进行自我组织的特征性组织。本文介绍的技术为新的细胞和分子研究开辟了道路,特别是对精子与中央细胞融合后的早期事件的研究。这些研究应有助于更好地理解双受精和胚乳发育过程。
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In Vitro Fertilization with Isolated, Single Gametes Results in Zygotic Embryogenesis and Fertile Maize Plants.使用分离的单个配子进行体外受精可导致合子胚胎发生并产生可育的玉米植株。
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