CELL CLEAVAGE - ULTRASTRUCTURAL EVIDENCE AGAINST EQUATORIAL STIMULATION BY ASTER MICROTUBULES

Cell cleavage is spatially and temporally coordinated with karyokinesis. In astral division, as occurs in sea urchin eggs, coordination is accomplished by the mitotic asters. We have explored the following hypotheses: 1. 1. That microtubules of the two asters cross at the cell's equator. 2. 2. That because they cross, or by some other configuration, more microtubules interact with the equatorial cortex than with the polar cortex. 3. 3. That the microtubule component of astral rays differentially stimulates the equatorial cortex for cleavage contraction. Using a fixation procedure which enhances visibility of microtubules, we have determined that aster microtubules do not cross at the equatorial cortex at any stage of mitosis relevant to cleavage stimulation, contrary to the first hypothesis. Aster microtubules extend progressively farther during anaphase, but the two arrays occupy mutually exclusive hemispheres in the egg. Using another fixation procedure which results in more conventional microtubule morphology, we have systematically counted microtubules penetrating the cortex at both the equator and the poles in sections cut parallel and perpendicular to the axis of the mitotic apparatus, respectively, at all stages of mitosis. We did not observe any microtubules in the cortex of the equator during prometaphase, metaphase, early anaphase or mid-anaphase. In comparison, small numbers of microtubules were observed in the polar cortex during this time. By late anaphase there are some microtubules in the equatorial cortex but many more are observed in the polar cortex. These findings are contrary to the second hypothesis and therefore do not establish the morphological basis for the third hypothesis. We conclude that there is no positive correlation between microtubule numbers at the egg equator and the timing of cleavage stimulation. Therefore, coordination between karyokinesis and cell cleavage is achieved by some process other than the simple numerical increase of microtubules at the equatorial cortex. © 1979.