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Bilateral symmetry in chick embryo determination by gravity.

Bilateral symmetry in chick embryo determination by gravity. The determination of bilateral symmetry of chick blastodiscs occurring during the second half of the uterine period is only indirectly caused by the intrauterine rotation of the egg. As a result of this rotation the blastodisc is forced into an oblique position and the force of gravity affects the symmetrization process. The same result may be artificially achieved, without rotation, by forcing the blastodisc into an oblique position. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Science (New York, N.Y.) Pubmed

Bilateral symmetry in chick embryo determination by gravity.

Kochav, S; Eyal-Giladi, H
Science (New York, N.Y.) , Volume 171 (3975): -1017 – Mar 30, 1971
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Bilateral symmetry in chick embryo determination by gravity.


Abstract

The determination of bilateral symmetry of chick blastodiscs occurring during the second half of the uterine period is only indirectly caused by the intrauterine rotation of the egg. As a result of this rotation the blastodisc is forced into an oblique position and the force of gravity affects the symmetrization process. The same result may be artificially achieved, without rotation, by forcing the blastodisc into an oblique position.

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ISSN
0036-8075
DOI
10.1126/science.171.3975.1027
pmid
5542809

Abstract

The determination of bilateral symmetry of chick blastodiscs occurring during the second half of the uterine period is only indirectly caused by the intrauterine rotation of the egg. As a result of this rotation the blastodisc is forced into an oblique position and the force of gravity affects the symmetrization process. The same result may be artificially achieved, without rotation, by forcing the blastodisc into an oblique position.

Journal

Science (New York, N.Y.)Pubmed

Published: Mar 30, 1971

There are no references for this article.