酵母中核糖核酸合成对持续蛋白质合成的依赖性。
Dependence of ribonucleic acid synthesis on continuous protein synthesis in yeast.
作者信息
Roth R M, Dampier C
出版信息
J Bacteriol. 1972 Feb;109(2):773-9. doi: 10.1128/jb.109.2.773-779.1972.
Abstract
Using an auxotrophic strain of Saccharomyces cerevisiae, we examined the kinetics of ribonucleic acid (RNA) synthesis following inhibition of protein synthesis caused by amino acid starvation or cycloheximide. Removal of a required amino acid immediately stopped net protein synthesis. After a brief lag, RNA synthesis also ceased. Cycloheximide, a ribosome-inhibiting drug, also immediately halted net protein synthesis. Again RNA synthesis stopped after a brief lag. Although cycloheximide and amino acid starvation affect different steps in protein biosynthesis, both inhibited RNA synthesis in identical fashion. This indicates that amino acids do not play a unique role in the control of RNA production in rapidly growing yeast; rather, it suggests that RNA synthesis is responsive to the overall rate of protein synthesis itself.
摘要
利用酵母的一种营养缺陷型菌株,我们研究了在氨基酸饥饿或环己酰亚胺导致蛋白质合成受抑制后核糖核酸(RNA)合成的动力学。去除必需氨基酸会立即停止净蛋白质合成。经过短暂延迟后,RNA合成也会停止。环己酰亚胺是一种核糖体抑制药物,同样会立即停止净蛋白质合成。同样,RNA合成在短暂延迟后也会停止。尽管环己酰亚胺和氨基酸饥饿影响蛋白质生物合成的不同步骤,但两者以相同方式抑制RNA合成。这表明氨基酸在快速生长的酵母中对RNA产生的控制中并不起独特作用;相反,这表明RNA合成对蛋白质合成本身的总体速率有反应。
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