Dorsal Blastomeres in the Equatorial Region of the 32‐Cell Xenopus Embryo Autonomously Produce Progeny Committed to the Organizer

For testing the autonomic differentiation abilities of dorsal equatorial blastomeres of 32‐cell Xenopus embryos, their roles in head formation in normal development and the organizer‐inducing capabilities of the dorsal‐most vegetal cells, interspecific transplantations were made using Xenopus borealis and X. laevis . When transplanted into the ventral region, the dorsal blastomeres produced descendants that differentiated into prechordal mesoderm, notochord and somites in the recipient according to their fates. They induced formation of the secondary embryo with the head and tail. The prechordal mesoderm and notochord in the secondary structure consisted of progeny of the graft, whereas somites and the CNS were chimeric and the pronephros was composed of host cells. Replacement of the dorsal blastomeres by ventral equatorial cells caused complete arrest of head formation in the recipient. Without exception, the notochord was completely absent or very thin. These results confirm the assumption that the presumptive head organizer in the Xenopus embryo is localized in the dorsal equatorial region at the 32‐cell stage and comes into existence not under the inductive influence of the dorsal‐most vegetal cells, but owing to allocation of morphogenetic determinants residing in the fertilized egg to the dorsal equatorial blastomeres of the 32‐cell embryo.