Abstract
Changes in microtubule (MT) arrangement were studied in endosperm of Haemanthus katherinae. Individual cells were selected in the light microscope and sectioned perpendicular or parallel to the long axis of the spindle. The following data and conclusions were drawn: During anaphase kinetochore fibers (bundles of kinetochore MTs) always intermingle with non-kinetochore (continuous) fibers (bundles of non-kinetochore MTs). The latter often branch and some “free” ends are present. Often one non-kinetochore fiber is connected with more than one kinetochore fiber, explaining why chromosomes may lose their ability for independent movement. During anaphase kinetochore fibers move to the poles, the number of kinetochore MTs decreases by one-half and the MTs tend to become more splayed out. At the same time the number of MTs between trailing chromosome arms increases, probably representing segments of kinetochore MTs which break during anaphase. The number of non-kinetochore MTs in the equatorial region at anaphase is twice the number of non-kinetochore MTs in metaphase. The above data agree perfectly with those in polarized light and indicate that a simple sliding system does not exist in the spindle of Haemanthus.
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Jensen, C., Bajer, A. Spindle dynamics and arrangement of microtubules. Chromosoma 44, 73–89 (1973). https://doi.org/10.1007/BF00372574
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DOI: https://doi.org/10.1007/BF00372574