酿酒酵母中的移码突变和移码抑制因子

Frameshifts and frameshift suppressors in Saccharomyces cerevisiae.

作者信息

Culbertson M R, Charnas L, Johnson M T, Fink G R

出版信息

Genetics. 1977 Aug;86(4):745-64. doi: 10.1093/genetics/86.4.745.

DOI:10.1093/genetics/86.4.745

PMID:72702

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1213708/

Abstract

Using ICR-170 as a mutagen, we have induced a set of mutations in yeast which exhibit behavior similar to that shown for bacterial frameshift mutations. Our genetic study shows that these mutations are polar; the polarity can be relieved by internal suppressors; they revert with acridine half-mustards and are not suppressed by known nonsense suppressors. However, they are suppressed by other dominant external suppressors, which fall into two mutually exclusive groups. Five genetically distinct suppressors were obtained for one of these groups, using co-reversion of two frameshift markers. Three of these are lethal in combination with each other and show a reduction in the GLY3 tRNA peak on a Sepharose 4B column. A fourth suppressor shows an altered chromatographic profile for GLY1 tRNA. We suggest that this group of suppressors represent mutations in the structural genes for the isoaccepting glycyl-tRNA's. Two other suppressors (one linked to the centromere of chromosome III) were found to suppress a second group of frameshifts. Genetic and biochemical studies show that the nonMendelian factor (PSI+) increases the efficiency of some frameshift suppressors.

摘要

以ICR - 170作为诱变剂，我们在酵母中诱导出了一组突变，这些突变表现出与细菌移码突变相似的行为。我们的遗传学研究表明，这些突变具有极性；极性可被内部抑制基因缓解；它们能被吖啶半芥子气回复突变，且不被已知的无义抑制基因所抑制。然而，它们能被其他显性外部抑制基因所抑制，这些抑制基因分为两个相互排斥的组。利用两个移码标记的共回复突变，为其中一组获得了五个遗传上不同的抑制基因。其中三个相互组合时是致死的，并且在琼脂糖4B柱上显示出GLY3 tRNA峰的降低。第四个抑制基因显示出GLY1 tRNA的色谱图谱发生了改变。我们认为这组抑制基因代表了同功接受甘氨酰 - tRNA结构基因中的突变。另外两个抑制基因（一个与第三条染色体的着丝粒连锁）被发现可抑制第二组移码突变。遗传学和生物化学研究表明，非孟德尔因子（PSI +）提高了一些移码抑制基因的效率。

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本文引用的文献

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