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核糖体对信使核糖核酸(mRNA)亲和力的增加导致酿酒酵母突变体对伊短菌素产生抗性。

Increased ribosomal affinity for mRNA causes resistance to edeine in a mutant of Saccharomyces cerevisiae.

作者信息

Herrera F, Moreno N, Martínez J A

出版信息

Eur J Biochem. 1984 Dec 3;145(2):339-44. doi: 10.1111/j.1432-1033.1984.tb08559.x.

Abstract

The effect of edeine on the translation of mRNA or poly(U)-directed polyphenylalanine synthesis has been studied in an edeine-resistant mutant of Saccharomyces cerevisiae under three different experimental conditions: in the whole lysate system, in a micrococcal-nuclease-treated lysate, and in a high-salt-treated lysate. The results indicate that translation of messenger is more resistant to edeine in the whole lysate than in the depleted lysates; these observations suggest that resistance to edeine is associated with the presence of endogenous mRNA. It is shown that 40S mutant subunits have a higher affinity for polysomal RNA than 40S wild-type subunits. Since the mRNA binding is inhibited by 7-methylguanosine 5'-monophosphate, the interaction between polysomal RNA and 40S ribosomes is specific for mRNA. The data demonstrate that in each of the depleted lysates, with edeine initially present, the formation of the 80S initiation complex is inhibited. However, edeine inhibition of [3H]methionine binding to 80S ribosomes is overcome completely in the mutant extract by preincubation of this lysate with polysomal RNA. The results indicate that the mutant may carry a specific change in a messenger-binding factor or in a ribosomal protein thereby permitting an increased stability of the messenger-ribosome complex which consequently results in an increased resistance of the mutant lysate to edeine.

摘要

在三种不同实验条件下,研究了伊短菌素对酿酒酵母伊短菌素抗性突变体中mRNA翻译或多聚尿苷指导的聚苯丙氨酸合成的影响:在完整裂解物系统中、在微球菌核酸酶处理的裂解物中以及在高盐处理的裂解物中。结果表明,与耗尽的裂解物相比,信使RNA的翻译在完整裂解物中对伊短菌素更具抗性;这些观察结果表明,对伊短菌素的抗性与内源性mRNA的存在有关。结果表明,40S突变亚基对多聚核糖体RNA的亲和力高于40S野生型亚基。由于7-甲基鸟苷5'-单磷酸抑制mRNA结合,多聚核糖体RNA与40S核糖体之间的相互作用对mRNA具有特异性。数据表明,在每种耗尽的裂解物中,最初存在伊短菌素时,80S起始复合物的形成受到抑制。然而,通过将该裂解物与多聚核糖体RNA预孵育,在突变体提取物中伊短菌素对[3H]甲硫氨酸与80S核糖体结合的抑制作用被完全克服。结果表明,该突变体可能在信使结合因子或核糖体蛋白中发生了特定变化,从而使信使-核糖体复合物的稳定性增加,进而导致突变体裂解物对伊短菌素的抗性增强。

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引用本文的文献

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An altered ribosomal protein in an edeine-resistant mutant of Saccharomyces cerevisiae.
Mol Gen Genet. 1986 Jan;202(1):120-4. doi: 10.1007/BF00330527.

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