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Specification of pharyngeal endoderm is dependent on early signals from axial mesoderm

Department of Biological Sciences, University of Denver, Denver, CO 80208, USA
Present address: Department of Cellular and Structural Biology, Campus Box B111, University of Colorado Health Sciences Center, 4200 E. 9th Avenue, Denver, CO 80262, USA

(e-mail: linda.barlow{at}uchsc.edu)

Accepted August 20, 2001

The development of taste buds is an autonomous property of the pharyngeal endoderm, and this inherent capacity is acquired by the time gastrulation is complete. These results are surprising, given the general view that taste bud development is nerve dependent, and occurs at the end of embryogenesis. The pharyngeal endoderm sits at the dorsal lip of the blastopore at the onset of gastrulation, and because this taste bud-bearing endoderm is specified to make taste buds by the end of gastrulation, signals that this tissue encounters during gastrulation might be responsible for its specification. To test this idea, tissue contacts during gastrulation were manipulated systematically in axolotl embryos, and the subsequent ability of the pharyngeal endoderm to generate taste buds was assessed. Disruption of both putative planar and vertical signals from neurectoderm failed to prevent the differentiation of taste buds in endoderm. However, manipulations of contact between presumptive pharyngeal endoderm and axial mesoderm during gastrulation indicate that signals from axial mesoderm (the notochord and prechordal mesoderm) specify the pharyngeal endoderm, conferring upon the endoderm the ability to autonomously differentiate taste buds. These findings further emphasize that despite the late differentiation of taste buds, the tissue-intrinsic mechanisms that generate these chemoreceptive organs are set in motion very early in embryonic development.

Key words: Anterior endoderm, Gastrulation, Specification, Notochord, Prechordal mesoderm, Axolotl

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