The blastocoel probably serves two major functions in frog embryos: (1) it permits cell migration during gastrulation, and (2) it prevents the cells beneath it from interacting prematurely with the cells above it. (B) 8-cell embryo showing a small blastocoel (arrow) at the junction of the three cleavagefurrows. (A) First cleavage furrow, showing a small cleft, which later develops into the blastocoel. As cleavage progresses, the animal region becomes packed with numerous small cells, while the vegetal region contains only a relatively small number of large, yolk-laden macromeres.įormation of the blastocoel in a frog egg. This unequal holoblastic cleavage establishes two major embryonic regions: a rapidly dividing region of micromeres near the animal pole and a more slowly dividing vegetal macromere area ( Figure 10.2C Figure 2.2E). It divides the frog embryo into four small animal blastomeres (micromeres) and four large blastomeres (macromeres) in the vegetal region. However, because of the vegetally placed yolk, this cleavage furrow in amphibian eggs is not actually at the equator, but is displaced toward the animal pole. The third cleavage, as expected, is equatorial. This cleavage is at right angles to the first one and is also meridional. Figure 10.2B shows that while the first cleavage furrow is still cleaving the yolky cytoplasm of the vegetal hemisphere, the second cleavage has already started near the animal pole. One can see the difference in the furrow between the animal and the vegetal hemispheres. (A, B) Because the vegetal yolk impedes cleavage, the second division begins in the animal region of the egg before the first division has divided (more.)įigure 10.2A is a scanning electron micrograph showing the first cleavage in a frog egg. Cleavage furrows, designated by Roman numerals, are numbered in order of appearance.
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