Korean J Anat.  2003 Dec;36(6):463-468.

Temporal Inhibition of FGF Signal on Endoderm Formation during Early Xenopus laevis Embryogenesis

Affiliations
  • 1Department of Anatomy, School of Medicine, Kyungpook National University, Daegu, Korea. mjpark@knu.ac.kr

Abstract

Our previous results showed that FGF signaling, which is important for the mesoderm and neuroectoderm induction, should be blocked for the endoderm formation in Xenopus. Here, Xenopus embryos were collected according to the two time points of MBT or stage 10.5. FGF signal was blocked with SU5402, chemical inhibitor of FGF signal, in the stage-specific embryos, to understand the role of FGF signal during the endoderm formation in the stage-specific embryos. Embryos subjected with the blocking of FGF signal before stage 10.5 showed the expanded abdominal volume in which endodermal mass was increased about 2 times but abdominal organs were not found. The tissue recombinant experiment showed that mesodermal tissue was necessary for the differentiation of endoderm. Embryos subjected with the blocking of FGF signal after stage 10.5 showed that abdomen was not expanded, the neural tube was opened instead. Our data indicate that blocking of FGF signal before stage 10.5 may be necessary for the endoderm induction and signals from neighboring endoderm tissue and mesoderm are required for the endoderm differentiation.

Keyword

Endoderm; FGF; Germ-layer formation; Xenopus laevis

MeSH Terms

Abdomen
Embryonic Development*
Embryonic Structures
Endoderm*
Female
Mesoderm
Neural Plate
Neural Tube
Pregnancy
Xenopus laevis*
Xenopus*
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