Elsevier

Developmental Biology

Volume 49, Issue 1, March 1976, Pages 143-177
Developmental Biology

Full paper
The role of cleavage in the localization of developmental potential in the Ctenophore Mnemiopsis leidyi

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Abstract

This study defines the time period during which the cellular components that specify comb plates and photocytes become localized in different parts of blastomeres prior to their segregation to separate daughter cells. At the two-cell stage the factors which specify comb plates are localized at the aboral pole of the blastomeres. There is not a significant localization of the factors which specify comb plates and photocytes along the tentacular axis of the embryo. At the four-cell stage, the factors which specify comb plates become localized at one end of the tentacular axis of the blastomeres; however, the factors which specify photocytes have not yet become localized. At the eight-cell stage, the factors which specify these two cell types are segregated to different blastomeres.

The role of cleavage in setting up these localized regions of developmental potential has been studied by reversibly inhibiting selected cleavages. After the first division, the pattern of cleavage that follows a period of cleavage inhibition corresponds to the pattern occurring in untreated embryos that began development at the same time. This situation is similar to the “clock” system, which controls many aspects of the pattern of cleavage in sea urchin embryos. The extent to which the factors that specify comb plates and photocytes become localized in a given region of a blastomere is correlated with the kind of cleavage which occurs after a block. Most of the activity involved in localizing developmental potential takes place during cleavage.

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    This work was supported in part by Grant No. GM-20024 from the United States Public Health Service. Part of this work was done while the author was an instructor in the embryology course at the Marine Biological Laboratory.

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