Ultrastructural observations on the germ line of Xenopus laevis |
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Authors: | Marvin R. Kalt |
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Affiliation: | (1) Department of Biology, Yale University, New Haven, Connecticut, USA |
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Abstract: | Summary The development of the male germ line in Xenopus laevis has been examined by electron microscopy. Findings have been compared to the parallel process in the female. Three structures unique to the germ line were found in both male and female cells: a fibrillar nuclear region free of DNA; largely proteinaceous masses of nuage material; and a chromatoid body. Germ plasm bodies of the egg and early embryo appear to represent a form of nuage material. The finding of a structure which can be identified as a chromatoid body in the female germ line is unique, as is its presence in sexually undifferentiated primordial germ cells. The chromatoid body in Xenopus, unlike that in mammals, does not persist in the spermatozoon. Instead, it dissociates into a series of coated vesicles during spermatogenesis. The chromosomal ultrastructure of meiotic prophase stages in Xenopus is similar in both sexes until diplotene, when male bivalents condense and enter meiotic metaphase instead of entering the extended lampbrush stage characteristic of the female. The multiple nucleoli present in gonia are lost at the onset of meiotic prophase, but no obvious mechanism for this process was observed.The author would like to thank Drs. Joseph Gall and Bernard Tandler for their helpful suggestions during the course of this investigation. The author is a postdoctoral fellow of the National Institutes of Health, U.S.A. This research was supported by N.I.H. Grants 51823 and 12427. |
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Keywords: | Germ cells Xenopus Spermatogenesis Chromatoid body Ultrastructure |
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