Neural Induction in the Frog Xenopus laevis

Authors

• Daniel Weinstein
• Chenbei Chang
• Giorgio Lagna, Santa Clara UniversityFollow
• Atsushi Suzuki

Document Type

Book Chapter

Publication Date

1997

Publisher

Springer

Abstract

During vertebrate gastrulation, the cells of the dorsal ectoderm give rise to the central nervous system; ventral ectoderm differentiates into epidermis. In amphibians, the neuralization of the dorsal ectoderm is mediated by signals from the dorsal lip of the blastopore (Spemann’s organizer). An ectopic dorsal lip will neuralize ventral ectoderm (1). Ectodermal expiants (or “animal cap” expiants), cultured alone, will form only epidermis; recombined with a dorsal lip, these expiants form neural tissue (2). The recognition that the dorsal lip was both necessary and sufficient for neural induction implied that the organizer was the source of a soluble, neural-inducing factor that could neuralize ectoderm in a direct, noncell autonomous manner; signals from the organizer provide an instructive signal to the ectoderm to form neural tissue. Thus, for decades, the consensus view was that epidermis was the “default” state of the ectoderm.

Chapter of

Inhibin, Activin and Follistatin: Regulatory Functions in System and Cell Biology

Part of

Serono Symposia USA ((SERONOSYMP))

Editor

Toshihiro Aono
Hiromu Sugino
Wylie W. Vale

Recommended Citation

Weinstein, D., Chang, C., Lagna, G., Suzuki, A., Wilson, P., & Hemmati-Brivanlou, A. (1997). Neural Induction in the Frog Xenopus laevis. In T. Aono, H. Sugino, & W. W. Vale (Eds.), Inhibin, Activin and Follistatin: Regulatory Functions in System and Cell Biology (pp. 214–219). Springer. https://doi.org/10.1007/978-1-4612-1874-6_21