Proper microtubule structure is vital for timely progression through meiosis in fission yeast

Cells of the fission yeast Schizosaccharomyces pombe normally reproduce by mitotic division in the haploid state. When subjected to nutrient starvation, two haploid cells fuse and undergo karyogamy, forming a diploid cell that initiates meiosis to form four haploid spores. Here, we show that deletio...

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Veröffentlicht in:	PloS one 2013-06, Vol.8 (6), p.e65082
Hauptverfasser:	Yamashita, Akira, Fujita, Yoshihiro, Yamamoto, Masayuki
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Sprache:	eng
Schlagworte:	Aberration Asci Biochemistry Biology Biophysics Cell cycle Cell Nucleus - physiology Chromosome Segregation Clonal deletion Defects Deletion mutant Deoxyribonucleic acid DNA Drugs Experiments Fission Gene Deletion Gene Knockout Techniques Genes Homology Kinases Laboratories Meiosis Microtubule-Associated Proteins - genetics Microtubule-Associated Proteins - metabolism Microtubules - metabolism Microtubules - ultrastructure Mutants Phenotype Ploidy Proteins Schizosaccharomyces - physiology Schizosaccharomyces - ultrastructure Schizosaccharomyces pombe Proteins - genetics Schizosaccharomyces pombe Proteins - metabolism Spores Spores, Fungal - metabolism Spores, Fungal - ultrastructure Standard deviation Stress, Physiological Yeast
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description	Cells of the fission yeast Schizosaccharomyces pombe normally reproduce by mitotic division in the haploid state. When subjected to nutrient starvation, two haploid cells fuse and undergo karyogamy, forming a diploid cell that initiates meiosis to form four haploid spores. Here, we show that deletion of the mal3 gene, which encodes a homolog of microtubule regulator EB1, produces aberrant asci carrying more than four spores. The mal3 deletion mutant cells have a disordered cytoplasmic microtubule structure during karyogamy and initiate meiosis before completion of karyogamy, resulting in twin haploid meiosis in the zygote. Treatment with anti-microtubule drugs mimics this phenotype. Mutants defective in karyogamy or mutants prone to initiate haploid meiosis exaggerate the phenotype of the mal3 deletion mutant. Our results indicate that proper microtubule structure is required for ordered progression through the meiotic cycle. Furthermore, the results of our study suggest that fission yeast do not monitor ploidy during meiosis.
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This is an open-access article distributed under the terms of the Creative Commons Attribution License: https://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. 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When subjected to nutrient starvation, two haploid cells fuse and undergo karyogamy, forming a diploid cell that initiates meiosis to form four haploid spores. Here, we show that deletion of the mal3 gene, which encodes a homolog of microtubule regulator EB1, produces aberrant asci carrying more than four spores. The mal3 deletion mutant cells have a disordered cytoplasmic microtubule structure during karyogamy and initiate meiosis before completion of karyogamy, resulting in twin haploid meiosis in the zygote. Treatment with anti-microtubule drugs mimics this phenotype. Mutants defective in karyogamy or mutants prone to initiate haploid meiosis exaggerate the phenotype of the mal3 deletion mutant. Our results indicate that proper microtubule structure is required for ordered progression through the meiotic cycle. 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When subjected to nutrient starvation, two haploid cells fuse and undergo karyogamy, forming a diploid cell that initiates meiosis to form four haploid spores. Here, we show that deletion of the mal3 gene, which encodes a homolog of microtubule regulator EB1, produces aberrant asci carrying more than four spores. The mal3 deletion mutant cells have a disordered cytoplasmic microtubule structure during karyogamy and initiate meiosis before completion of karyogamy, resulting in twin haploid meiosis in the zygote. Treatment with anti-microtubule drugs mimics this phenotype. Mutants defective in karyogamy or mutants prone to initiate haploid meiosis exaggerate the phenotype of the mal3 deletion mutant. Our results indicate that proper microtubule structure is required for ordered progression through the meiotic cycle. 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subjects	Aberration Asci Biochemistry Biology Biophysics Cell cycle Cell Nucleus - physiology Chromosome Segregation Clonal deletion Defects Deletion mutant Deoxyribonucleic acid DNA Drugs Experiments Fission Gene Deletion Gene Knockout Techniques Genes Homology Kinases Laboratories Meiosis Microtubule-Associated Proteins - genetics Microtubule-Associated Proteins - metabolism Microtubules - metabolism Microtubules - ultrastructure Mutants Phenotype Ploidy Proteins Schizosaccharomyces - physiology Schizosaccharomyces - ultrastructure Schizosaccharomyces pombe Proteins - genetics Schizosaccharomyces pombe Proteins - metabolism Spores Spores, Fungal - metabolism Spores, Fungal - ultrastructure Standard deviation Stress, Physiological Yeast
title	Proper microtubule structure is vital for timely progression through meiosis in fission yeast
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