酵母细胞子囊孢子形成过程中核糖体合成的时间:单倍体子代基因组早期功能的证据。
Timing of ribosome synthesis during ascosporogenesis of yeast cells: evidence for early function of haploid daughter genomes.
作者信息
Emanuel J R, Magee P T
出版信息
J Bacteriol. 1981 Mar;145(3):1342-50. doi: 10.1128/jb.145.3.1342-1350.1981.
Abstract
During meiosis and sporulation in Saccharomyces cerevisiae, the recessive genetic marker for cycloheximide resistance, believed to be due to an altered ribosomal protein (C. S. McLaughlin, p. 815-827, in M. Nomura et al., ed., Ribosomes, Cold Spring Harbor Laboratory, Cold Spring Harbor, N.Y.), is expressed as early as meiosis II. Ribosomal ribonucleic acid synthesis peaks near the time that cycloheximide resistance begins to appear. Less than 25% of the 17S and 25S ribonucleic acid of the vegetative cells persists in spores, but pulse-labeling studies indicate that greater than 90% of the stable ribonucleic acid made after 6 h survives in spores. These results indicate that the haploid daughter genomes begin to function near the time of meiosis II.
摘要
在酿酒酵母的减数分裂和孢子形成过程中,对环己酰亚胺抗性的隐性遗传标记,据信是由于核糖体蛋白改变所致(C.S.麦克劳克林,第815 - 827页,载于M.野村等人编著的《核糖体》,冷泉港实验室,纽约冷泉港),早在减数分裂II期就已表达。核糖体核糖核酸合成在环己酰亚胺抗性开始出现的时间附近达到峰值。营养细胞中17S和25S核糖核酸不到25%存在于孢子中,但脉冲标记研究表明,6小时后产生的稳定核糖核酸超过90%在孢子中存活。这些结果表明,单倍体子代基因组在减数分裂II期附近开始发挥功能。
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