Blastomeres show differential fate changes in 8-cell Xenopus laevis embryos that are rotated 90° before first cleavage |
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Authors: | Sen Huang Kurt E. Johnson H. Z. Pearl Wang |
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Affiliation: | Department of Anatomy and Cell Biology, The George Washington University Medical Center, 2300 I Street N.W., Washington DC 20037, USA. |
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Abstract: | To study the mechanisms of dorsal axis specification, the alteration in dorsal cell fate of cleavage stage blastomeres in axis-respecified Xenopus laevis embryos was investigated. Fertilized eggs were rotated 90° with the sperm entry point up or down with respect to the gravitational field. At the 8-cell stage, blastomeres were injected with the lineage tracers, Texas Red- or FITC-Dextran Amines. The distribution of the labeled progeny was mapped at the tail-bud stages (stages 35–38) and compared with the fate map of an 8-cell embryo raised in a normal orientation. As in the normal embryos, each blastomere in the rotated embryos has a characteristic and predictable cell fate. After 90° rotation the blastomeres in the 8-cell stage embryo roughly switched their position by 90°, but the fate of the blastomeres did not simply show a 90° switch appropriate for their new location. Four types of fate change were observed: (i) the normal fate of the blastomere is conserved with little change; (ii) the normal fate is completely changed and a new fate is adopted according to the blastomere's new position; (iii) the normal fate is completely changed, but the new fate is not appropriate for its new position; and (4) the blastomere partially changed its fate and the new fate is a combination of its original fate and a fate appropriate to its new location. According to the changed fates, the blastomeres that adopt dorsal fates were identified in rotated embryos. This identification of dorsal blastomeres provides basic important information for further study of dorsal signaling in Xenopus embryos. |
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Keywords: | cleavage cortical rotation cytoplasm dorsal axis gravity |
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