Effects of microtubule-inhibitors on nuclear migration and rhizoid differentiation in germinating fern spores (Onoclea sensibilis) |
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Authors: | Th. C. Vogelmann A. R. Bassel J. H. Miller |
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Affiliation: | (1) Forestry Sciences Laboratory, North Central Forest Experiment Station, USDA-Forest Service, Rhinelander, Wisconsin, USA;(2) Department of Microbiology, State University of New York, Upstate Medical Center, Syracuse, N.Y., USA;(3) Biology Department, Biological Research Laboratory, Syracuse University, 130 College Place, 13210 Syracuse, N.Y., USA |
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Abstract: | Summary Germinating spores of the sensitive fern,Onoclea sensibilis L., undergo premitotic nuclear migration before a highly asymmetric cell division partitions each spore into a large protonemal cell and a small rhizoid initial. Nuclear movement and subsequent rhizoid formation were inhibited by the microtubule (MT) inhibitors, colchicine, isopropyl-N-3-chlorophenyl carbamate (CIPC) and griseofulvin. Colchicine prevented polar nuclear movement and cell division so that spores developed into enlarged, uninucleate single cells. CIPC and griseofulvin prevented nuclear migration, but not cell division, so that spores divided into daughter cells of approximately equal size. In colchicine-treated spores, MT were not observed at any time during germination. CIPC prevented MT formation at a time coincident with nuclear movement in the control and caused a disorientation of the spindle MT. Both colchicine and CIPC appeared to act at a time prior to the onset of normal nuclear movement. The effects of colchicine were reversible but those of CIPC were not. Cytochalasin b had no effect upon nuclear movement or rhizoid differentiation. These results suggests that MT mediate nuclear movement and that a highly asymmetric cell division is essential for rhizoid differentiation. |
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Keywords: | Cell polarity Differentiation Microtubules Nuclear migration Onoclea sensibilis Spore germination |
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