Localization and induction in early development of Xenopus.

J. C. Gerhart; J. P. Vincent; S. R. Scharf; S. D. Black; R. L. Gimlich; M. Danilchik

doi:10.1098/rstb.1984.0134

Localization and induction in early development of Xenopus.

J. C. Gerhart, J. P. Vincent, S. R. Scharf, S. D. Black, R. L. Gimlich, M. Danilchik

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Abstract

Our experimental results, as well as those of others, lead us to suggest the following steps in the dorsalization and axialization of the Xenopus egg and embryo: the sperm aster determines the direction of rotation of the cortex relative to the deeper cytoplasm (endoplasm); the rotation of the cortex activates latent dorsalizing-axializing agents in the vegetal hemisphere. The extent of rotation determines the amount of activation. The direction of rotation determines the location of the activated agents. The activated agents determine the level of mesoderm-inducing activity of the vegetal cells cleaved from that cytoplasmic region. The level of inducing activity determines at least the time at which marginal zone cells will begin gastrulation movements. The time of its initiation of gastrulation may determine how anterior and dorsal a particular marginal zone cell can become.

Original language	English (US)
Pages (from-to)	319-330
Number of pages	12
Journal	Philosophical transactions of the Royal Society of London. Series B, Biological sciences
Volume	307
Issue number	1132
DOIs	https://doi.org/10.1098/rstb.1984.0134
State	Published - Dec 4 1984
Externally published	Yes

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology
General Agricultural and Biological Sciences

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10.1098/rstb.1984.0134

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abstract = "Our experimental results, as well as those of others, lead us to suggest the following steps in the dorsalization and axialization of the Xenopus egg and embryo: the sperm aster determines the direction of rotation of the cortex relative to the deeper cytoplasm (endoplasm); the rotation of the cortex activates latent dorsalizing-axializing agents in the vegetal hemisphere. The extent of rotation determines the amount of activation. The direction of rotation determines the location of the activated agents. The activated agents determine the level of mesoderm-inducing activity of the vegetal cells cleaved from that cytoplasmic region. The level of inducing activity determines at least the time at which marginal zone cells will begin gastrulation movements. The time of its initiation of gastrulation may determine how anterior and dorsal a particular marginal zone cell can become.",

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AU - Gerhart, J. C.

AU - Vincent, J. P.

AU - Scharf, S. R.

AU - Black, S. D.

AU - Gimlich, R. L.

AU - Danilchik, M.

PY - 1984/12/4

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AB - Our experimental results, as well as those of others, lead us to suggest the following steps in the dorsalization and axialization of the Xenopus egg and embryo: the sperm aster determines the direction of rotation of the cortex relative to the deeper cytoplasm (endoplasm); the rotation of the cortex activates latent dorsalizing-axializing agents in the vegetal hemisphere. The extent of rotation determines the amount of activation. The direction of rotation determines the location of the activated agents. The activated agents determine the level of mesoderm-inducing activity of the vegetal cells cleaved from that cytoplasmic region. The level of inducing activity determines at least the time at which marginal zone cells will begin gastrulation movements. The time of its initiation of gastrulation may determine how anterior and dorsal a particular marginal zone cell can become.

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Localization and induction in early development of Xenopus.

Abstract

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