紫外线诱导酵母辐射敏感菌株中cyc1等位基因的回复突变。III. rev3突变菌株
Ultraviolet-induced reversion of cyc1 alleles in radiation-sensitive strains of yeast. III. rev3 mutant strains.
作者信息
Lawrence C W, Christensen R B
出版信息
Genetics. 1979 Jun;92(2):397-408. doi: 10.1093/genetics/92.2.397.
Abstract
The role of the REV3 gene function in UV-induced mutagensis in the yeast Saccharomyces cerevisiae has been examined by determining the reversion of 12 well-defined cyc1 mutations in diploid strains homozygous for the rev3--1 or rev3--3 allele. The 12 cyc1 alleles include one ochre, one amber, four initiation, two proline missense, and four frameshift mutations. We find that the rev3 mutations reduce the frequency of UV-induced reversion of all of the cyc1 alleles, though different classes of alleles respond to a different extent. These results imply that the REV3 gene function is required for the production of a wide variety of mutational events, though probably not all, and show that each of the three REV loci have different mutational phenotypes. Such diverse phenotypes are not predicted by the unitary model for bacterial mutagenesis (CAILLET-FAUQUET, DEFAIS and RADMAN 1977; WITKIN 1976), suggesting that this is at best an incomplete description of eukaryotic mutagenesis.
摘要
通过测定在rev3--1或rev3--3等位基因纯合的二倍体菌株中12个明确的cyc1突变的回复突变,研究了酿酒酵母中REV3基因功能在紫外线诱导的诱变中的作用。这12个cyc1等位基因包括1个赭石型、1个琥珀型、4个起始密码子、2个脯氨酸错义突变和4个移码突变。我们发现,rev3突变降低了所有cyc1等位基因紫外线诱导的回复突变频率,尽管不同类别的等位基因反应程度不同。这些结果表明,REV3基因功能对于产生多种突变事件是必需的,尽管可能不是全部,并表明三个REV位点中的每一个都有不同的突变表型。细菌诱变的单一模型(CAILLET-FAUQUET、DEFAIS和RADMAN 1977;WITKIN 1976)并未预测到这种多样的表型,这表明这充其量只是对真核生物诱变的不完整描述。
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1
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Genetics. 1969 May;62(1):9-22. doi: 10.1093/genetics/62.1.9.
2
Demonstration of UAG as a nonsense codon in bakers' yeast by amino-acid replacements in iso-1-cytochrome c.通过对酵母异-1-细胞色素c进行氨基酸替换来证明UAG在酿酒酵母中作为无义密码子的作用。
J Mol Biol. 1972 Jul 28;68(3):429-43. doi: 10.1016/0022-2836(72)90097-6.
3
Lack of chemically induced mutation in repair-deficient mutants of yeast.酵母修复缺陷型突变体中缺乏化学诱导突变。
Genetics. 1974 Dec;78(4):1101-18. doi: 10.1093/genetics/78.4.1101.
4
Mutants of yeast defective in iso-1-cytochrome c.在异-1-细胞色素c方面存在缺陷的酵母突变体。
Genetics. 1974 Jun;77(2):255-84. doi: 10.1093/genetics/77.2.255.
5
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