Cytoskeleton,cell surface and the development of invasive plasmodial tapetum inTradescantia virginiana L. |
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Authors: | S. C. Tiwari B. E. S. Gunning |
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Affiliation: | (1) Department of Developmental Biology, Research School of Biological Sciences, The Australian National University, P.O.Box 4, 2601 Canberra City, A.C.T., Australia |
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Abstract: | Summary The anther tapetum inTradescantia virginiana L. is of the invasive plasmodial type: the cells lose their walls during early spore meiosis and develop long invasion processes which invade the loculus to penetrate spaces between the sporogenous cells. Fusion to form a syncytium is delayed and conventional ultra-thin sections and the Thiéry reaction reveal the presence of a loose fibrillar extracellular cell coat on the free surfaces of tapetal cells and their invasion processes. Cell fusion involves formation of apposition areas characterized by an absence of cell coat and the local appearance of microtubular arrays. Conspicuous membrane sacs, associated closely with microtubules, were found to migrate to and accumulate at the plasma membranes near the fusion sites and sporogenous cells. Microtubules are always present in the cortical regions of the tapetal cells and their invasion processes. It is surmised that microtubules are not responsible either for initiating or guiding tapetal invasion of the loculus; instead they may help to sustain the form of the invasion processes, help in the migration of membrane sacs, and participate in cell fusion. The cell coat disappears with syncytium formation towards the end of meiosis, and the developing spore cells become surrounded by a perispore membrane, which, derived from the original plasma membranes and augmented by membrane sacs, forms labyrinthine membrane reservoirs that are described further in the accompanying paper. |
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Keywords: | Cell coat Cell fusion Commelinaceae Microtubules Plasmodial tapetum Tradescantia virginiana |
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