Confocal laser scanning microscopy of microtubule organizational changes in isolated generative cells of Allemanda neriifolia during mitosis

Summary Organizational changes in the microtubules of isolated generative cells of Allemanda neriifolia during mitosis were examined using anti--tubulin and confocal laser scanning microscopy. Due to an improved resolution and a lack of out-of-focus interference, the images of the mitotic cytoskeleton obtained using the confocal microscope are much clearer than those obtained using the non-confocal fluorescence systems. In the confocal microscope one can see clearly that the spindle-shaped interphase cells contain a cage-like cytoskeleton consisting of numerous longitudinally oriented microtubule bundles and some associated smaller bundles. At prophase, the shape of the cells invariably becomes spherical. The microtubule cytoskeleton inside the cells concomitantly changes into a less organized form — consisting of thick bundles, patches, and dots. This structural form is not very stable, and soon afterwards the cytoskeleton changes into a reticulate network. Then the nuclear envelope breaks down, and the microtubules become randomly dispersed throughout the cell. Afterwards, the microtubules reorganize themselves into a number of half-spindle-like structures, each possessing a microtubule-nucleating center. The locations of these centres mark out the positions of the presumptive spindle poles. Numerous microtubules radiate from these centres toward the opposite pole. At metaphase, the microtubules form a number of bipolar spindles. Each spindle has two half-spindles, and each half-spindle has a sharply focused microtubule centre at the pole region. From the centres, kinetochore and non-kinetochore microtubules radiate toward the opposite half-spindle. At anaphase A, sister chromatids separate, the cells elongate, and the kinetochore microtubules disappear; the non-kinetochore microtubules, however, remain, and a new array of microtubules, in the form of a cage, appears. The peripheral cage bundles and the non-kinetochore bundles coverge into a sharp point at the pole region. Later, at anaphase B the microtubule cytoskeleton undergoes reorganization giving rise to a new array of longitudinally oriented microtubule bundles in the cell centre and a cage-like cytoskeleton in the periphery. At telophase, some of the cells elongate further, but some become spherical. The microtubules in the central region of the elongated cell become partially disrupted due to the formation of a phragmoplast-junction-like structure in the mid-interzone region. The microtubule bundles at the periphery are spirally organized, and they appear not to be disrupted by the phragmoplast-like junction. The microtubules in the spherical telophase cells (unlike those seen in the elongated telophase cells) are arranged differently, and no phragmoplast-junction-like structure forms in the spherical cells. The structural and functional significances of some of these new features of the organization of the microtubule cytoskeleton as revealed by the confocal microscope are discussed.