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Meiosis-specific failure of cell cycle progression in fission yeast by mutation of a conserved beta-tubulin residue

The microtubule cytoskeleton is involved in regulation of cell morphology, differentiation, and cell cycle progression. Precisely controlled dynamic properties are required for these microtubule functions. To better understand how tubulin's dynamics are embedded in its primary sequence, we inve...

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Published in:	Molecular biology of the cell 2004-03, Vol.15 (3), p.1160-1171
Main Authors:	Paluh, Janet L, Killilea, Alison N, Detrich, 3rd, H William, Downing, Kenneth H
Format:	Article
Language:	English
Subjects:	Amino Acid Sequence Cell Cycle - physiology Meiosis - physiology Microtubules - metabolism Models, Molecular Molecular Sequence Data Mutation - genetics Phenylalanine - metabolism Schizosaccharomyces - genetics Schizosaccharomyces - metabolism Schizosaccharomyces pombe Schizosaccharomyces pombe Proteins - metabolism Spindle Apparatus - metabolism Tubulin - metabolism Tyrosine - metabolism
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container_title	Molecular biology of the cell
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creator	Paluh, Janet L Killilea, Alison N Detrich, 3rd, H William Downing, Kenneth H
description	The microtubule cytoskeleton is involved in regulation of cell morphology, differentiation, and cell cycle progression. Precisely controlled dynamic properties are required for these microtubule functions. To better understand how tubulin's dynamics are embedded in its primary sequence, we investigated in vivo the consequences of altering a single, highly conserved residue in beta-tubulin that lies at the interface between two structural domains. The residue differs between the cold-adapted Antarctic fish and temperate animals in a manner that suggests a role in microtubule stability. Fungi, like the Antarctic fish, have a phenylalanine in this position, whereas essentially all other animals have tyrosine. We mutated the corresponding residue in fission yeast to tyrosine. Temperature effects were subtle, but time-lapse microscopy of microtubule dynamics revealed reduced depolymerization rates and increased stability. Mitotic exit signaled by breakdown of the mitotic spindle was delayed. In meiosis, microtubules displayed prolonged contact to the cell cortex during horsetail movement, followed by completion of meiosis I but frequent asymmetric failure of meiosis II spindle formation. Our results indicate that depolymerization dynamics modulated through interdomain motion may be important for regulating a subset of plus-end microtubule complexes in Schizosaccharomyces pombe.
doi_str_mv	10.1091/mbc.E03-06-0389
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subjects	Amino Acid Sequence Cell Cycle - physiology Meiosis - physiology Microtubules - metabolism Models, Molecular Molecular Sequence Data Mutation - genetics Phenylalanine - metabolism Schizosaccharomyces - genetics Schizosaccharomyces - metabolism Schizosaccharomyces pombe Schizosaccharomyces pombe Proteins - metabolism Spindle Apparatus - metabolism Tubulin - metabolism Tyrosine - metabolism
title	Meiosis-specific failure of cell cycle progression in fission yeast by mutation of a conserved beta-tubulin residue
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