Abstract
Summary Cleavage inhibition experiments using cytochalasin B and hydrostatic pressure demonstrate the existence of a “clock mechanism” specifying cleavage time and form in Ilyanassa obsoleta embryos. Cytokinesis but not karyokinesis is inhibited during these treatments. When second cleavage is inhibited, the following cleavage occurs approximately on schedule with controls. Two micromeres are produced in this cleavage even though treated embryos consist of only two cells. When third cleavage is inhibited, the following micromere cleavage occurs in a counter clockwise direction, typical for the controls. Treatment with nocodazole, an antitubulin drug, inhibits both cytokinesis and karyokinesis but does not affect the cleavage clock mechanism. Treatment with 2,4-dinitrophenol stops both cleavage and the clock mechanism. These results indicate that the cleavage clock in Ilyanassa requires energy but does not depend on centrosomal behavior or on the form of previous cleavages. With regard to the production of...
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