The organization of cortical microtubule arrays in the radish root hair |
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Authors: | R W Seagull I B Heath |
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Institution: | (1) Department of Biology, York University, M3J 1P3 Downsview, Ontario, Canada;(2) Present address: Department of Developmental Biology, Research School of Biological Sciences, Australian National University, P.O. Box 475, 2601 Canberra City, A.C.T., Australia |
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Abstract: | Summary Cortical microtubule arrays in the radish root hair were analyzed from reconstructions of serial ultra-thin sections in order to test extant hypotheses concerning the role of microtubules in the deposition of oriented microfibrils of cellulose. Passing away from the tip, root hairs exhibit a transition from random to oriented deposition of microfibrils at approximately 25 m. Along the root hair, passing back from the tip, the microtubules: a) increase in number to a plateau at 25 m; b) change their length profiles from approximately 60% less than 1 m long in the hair tip to approximately 40% less than 1 m long at 60 m; c) maintain a constant pattern of angular deviation from the long axis, which is similar to the deviation pattern of the oriented wall fibrils; d) maintain a constant (approximately 70% of tubules) close (within 50 nm) proximity to the plasma membrane (PM); e) maintain a low (approximately 20%) degree of inter-microtubule proximity (i.e., within 50 nm of one another); f) show evidence for some variable long range (>50 nm) association. Fixation with glutaraldehyde in a complete microtubule polymerization medium (MTPM), or pretreatment with cytochalasin B cause an approximate twofold increase in 1. the proportion of long microtubules in the tip region and 2. microtubules within 50 nm of one another. Fixation in incomplete MTPM (without GTP) produces results similar to phosphate buffer controls. Alternative explanations for these results are examined. A new hypothesis accounting for microtubule involvement in oriented microfibril deposition is described. |
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Keywords: | Cell wall Cytochalasin B Microfibril orientation Microtubules |
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