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Selective killing of vegetative cells in sporulated yeast cultures by exposure to diethyl ether.

作者信息

Dawes I W, Hardie I D

出版信息

Mol Gen Genet. 1974;131(4):281-9. doi: 10.1007/BF00264859.

DOI:10.1007/BF00264859
PMID:4612332
Abstract
摘要

相似文献

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Selective killing of vegetative cells in sporulated yeast cultures by exposure to diethyl ether.通过暴露于乙醚选择性杀死产孢酵母培养物中的营养细胞。
Mol Gen Genet. 1974;131(4):281-9. doi: 10.1007/BF00264859.
2
Ether-zymolyase ascospore isolation procedure: an efficient protocol for ascospores isolation in Saccharomyces cerevisiae yeast.醚-酶解孢子分离程序:一种用于酿酒酵母中孢子分离的有效方案。
Yeast. 2010 Dec;27(12):999-1003. doi: 10.1002/yea.1808.
3
Procedure for mutagenizing spores of Saccharomyces cerevisiae.酿酒酵母孢子诱变程序。
J Bacteriol. 1983 Nov;156(2):907-8. doi: 10.1128/jb.156.2.907-908.1983.
4
Sensitivity of Saccharomyces cerevisiae vegetative cells and spores to antimicrobial compounds.酿酒酵母营养细胞和孢子对抗菌化合物的敏感性。
J Appl Bacteriol. 1985 Oct;59(4):299-302. doi: 10.1111/j.1365-2672.1985.tb03323.x.
5
Absolute glutathione requirement for sporulation of a yeast Saccharomyces cerevisiae.酿酒酵母孢子形成对谷胱甘肽的绝对需求
Biochem Biophys Res Commun. 1994 Dec 15;205(2):1151-4. doi: 10.1006/bbrc.1994.2786.
6
Sporulation in single-spore isolates from amitrole-induced multispored asci of Saccharomyces cerevisiae.来自于用杀草强诱导的酿酒酵母多孢子子囊的单孢子分离株中的孢子形成。
Can J Microbiol. 1978 Dec;24(12):1614-5. doi: 10.1139/m78-258.
7
Properties of glucose uptake in vegetative and sporulating cells of Saccharomyces cerevisiae.酿酒酵母营养细胞和孢子形成细胞中葡萄糖摄取的特性。
Microbios. 1986;48(194):17-26.
8
[Effect of gibberellic acid on sporulation in Saccharomyces cerevisiae].[赤霉素对酿酒酵母孢子形成的影响]
Experientia. 1974 Apr 15;30(4):363-4. doi: 10.1007/BF01921665.
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Inhibition of toluidine blue O stain for Pneumocystis carinii by additives in the diethyl ether.二乙醚中添加剂对卡氏肺孢子虫甲苯胺蓝O染色的抑制作用。
Am J Clin Pathol. 1979 Sep;72(3):493-4. doi: 10.1093/ajcp/72.3.493a.
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Tunicamycin inhibition of epispore formation in Saccharomyces cerevisiae.衣霉素对酿酒酵母中芽孢形成的抑制作用。
J Bacteriol. 1987 Sep;169(9):4384-7. doi: 10.1128/jb.169.9.4384-4387.1987.

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The B-type cyclin Clb4 prevents meiosis I sister centromere separation in budding yeast.B型细胞周期蛋白Clb4可阻止芽殖酵母减数分裂I中姐妹着丝粒的分离。
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Molecular and Biophysical Perspectives on Dormancy Breaking: Lessons from Yeast Spore.休眠打破的分子与生物物理视角:来自酵母孢子的经验教训
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Epistasis and cryptic QTL identified using modified bulk segregant analysis of copper resistance in budding yeast.使用改良的群体分离分析法在酿酒酵母中鉴定出的上位性和隐性数量性状基因座与铜抗性相关。

本文引用的文献

1
Different Rates of Spontaneous Mutation during Mitosis and Meiosis in Yeast.酵母有丝分裂和减数分裂过程中自发突变的不同速率。
Genetics. 1962 Aug;47(8):1097-108. doi: 10.1093/genetics/47.8.1097.
2
Use of snail digestive juice in isolation of yeast spore tetrads.蜗牛消化液在酵母孢子四分体分离中的应用。
J Bacteriol. 1959 Aug;78(2):292. doi: 10.1128/jb.78.2.292-292.1959.
3
Evidence for two types of allelic recombination in yeast.酵母中两种等位基因重组类型的证据。
Genetics. 2025 Apr 17;229(4). doi: 10.1093/genetics/iyaf026.
4
The B-type cyclin Clb4 prevents meiosis I sister centromere separation in budding yeast.B型细胞周期蛋白Clb4可防止芽殖酵母减数分裂I期姐妹着丝粒分离。
bioRxiv. 2024 Dec 19:2024.12.18.629243. doi: 10.1101/2024.12.18.629243.
5
Lineage-specific amino acids define functional attributes of the protomer-protomer interfaces for the Rad51 and Dmc1 recombinases.谱系特异性氨基酸决定了Rad51和Dmc1重组酶原聚体-原聚体界面的功能属性。
bioRxiv. 2024 Dec 4:2024.12.03.626531. doi: 10.1101/2024.12.03.626531.
6
Epistasis and cryptic QTL identified using modified bulk segregant analysis of copper resistance in budding yeast.使用改良的群体分离分析法在酿酒酵母中鉴定出的上位性和隐性数量性状基因座与铜抗性相关 。
bioRxiv. 2024 Nov 12:2024.10.28.620582. doi: 10.1101/2024.10.28.620582.
7
The MAPK homolog, Smk1, promotes assembly of the glucan layer of the spore wall in S. cerevisiae.MAPK 同源物 Smk1 促进了 S. cerevisiae 孢子壁葡聚糖层的组装。
Yeast. 2024 Jul;41(7):448-457. doi: 10.1002/yea.3967. Epub 2024 Jun 14.
8
Fusion of Hsp70 to GFP Impairs Its Function and Causes Formation of Misfolded Protein Deposits under Mild Stress in Yeast.Hsp70 与 GFP 的融合使其功能受损,并在酵母的轻度应激下导致错误折叠蛋白沉积物的形成。
Int J Mol Sci. 2023 Aug 14;24(16):12758. doi: 10.3390/ijms241612758.
9
Renewing Lost Genetic Variability with a Classical Yeast Genetics Approach.用经典酵母遗传学方法恢复丢失的遗传变异性。
J Fungi (Basel). 2023 Feb 16;9(2):264. doi: 10.3390/jof9020264.
10
A method for quantifying sporulation efficiency and isolating meiotic progeny in non-GMO strains of Saccharomyces cerevisiae.一种用于量化非转基因酿酒酵母菌株中孢子形成效率和分离减数分裂后代的方法。
Yeast. 2022 Jun;39(6-7):354-362. doi: 10.1002/yea.3802. Epub 2022 Jun 23.
Genetics. 1963 Feb;48(2):255-61. doi: 10.1093/genetics/48.2.255.
4
[A simple technic for the mass isolation of yeast spores].[一种大规模分离酵母孢子的简易技术]
Z Naturforsch B. 1958 Oct;13B(10):647-50.
5
[Physiologic and genetic studies of adenine-dependant mutants of Schizosaccharomyces pombe; a contribution to the problem of pseudoallele].粟酒裂殖酵母腺嘌呤依赖型突变体的生理学和遗传学研究;对拟等位基因问题的贡献
Schweiz Z Pathol Bakteriol. 1957;20(5):535-44.
6
Separation of spores from diploid cells of yeast by stable-flow free-boundary electrophoresis.通过稳定流自由边界电泳从酵母二倍体细胞中分离孢子。
Science. 1967 Nov 10;158(3802):803-4. doi: 10.1126/science.158.3802.803.
7
The genetic control of sporulation in Saccharomyces. I. The isolation of temperature-sensitive sporulation-deficient mutants.酿酒酵母中孢子形成的遗传控制。I. 温度敏感型孢子形成缺陷突变体的分离。
Genetics. 1969 Jan;61(1):79-89. doi: 10.1093/genetics/61.1.79.
8
Preparation and storage of single spores of Saccharomyces cerevisiae.酿酒酵母单孢子的制备与保存
J Bacteriol. 1969 Dec;100(3):1426-7. doi: 10.1128/jb.100.3.1426-1427.1969.
9
The genetic control of spore formation in bacilli.芽孢杆菌中孢子形成的遗传控制。
Curr Top Microbiol Immunol. 1971;56:99-192. doi: 10.1007/978-3-642-65241-7_4.
10
Sporulation in Bacillus subtilis. Correlation of biochemical events with morphological changes in asporogenous mutants.枯草芽孢杆菌中的芽孢形成。生化事件与无芽孢突变体形态变化的相关性。
Biochem J. 1970 Jul;118(4):667-76. doi: 10.1042/bj1180667.