酿酒酵母中抑制基因3位点的遗传精细结构分析。
A genetic fine structure analysis of the suppressor 3 locus in Saccharomyces.
作者信息
Rothstein R J
出版信息
Genetics. 1977 Jan;85(1):55-64. doi: 10.1093/genetics/85.1.55.
Abstract
A meiotic fine structure map of a yeast tyrosine-inserting ochre suppressor, SUP3-omicron, was constructed. This was accomplished by examining ten intragenic suppressor-inactive revertants for their relationship to each other and to the original SUP3-omicron mutation. The second-site revertants map on both sides of the SUP3-omicron mutation. The meiotic map length based on the summation of short intervals is 45+/10(5) asci.
摘要
构建了酵母酪氨酸插入赭石型抑制基因SUP3-omicron的减数分裂精细结构图。这是通过检查十个基因内抑制失活回复突变体之间以及它们与原始SUP3-omicron突变的关系来完成的。第二位点回复突变体位于SUP3-omicron突变的两侧。基于短间隔总和的减数分裂图谱长度为45±10(5)个孢子囊。
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本文引用的文献
1
Suppressor genes for nonsense mutations. I. The Su-1, Su-2 and Su-3 genes of Escherichia coli.无义突变的抑制基因。I. 大肠杆菌的Su-1、Su-2和Su-3基因。
J Mol Biol. 1965 Nov;14(1):167-78. doi: 10.1016/s0022-2836(65)80238-8.
2
Temperature-sensitive nonsense suppressors in yeast.酵母中的温度敏感型无义抑制基因
Genetics. 1973 Nov;75(3):459-64. doi: 10.1093/genetics/75.3.459.
3
Yeast suppressors of UAA and UAG nonsense codons work efficiently in vitro via tRNA.酵母中UAA和UAG无义密码子的抑制子通过tRNA在体外高效发挥作用。
Cell. 1976 Mar;7(3):381-90. doi: 10.1016/0092-8674(76)90167-7.
4
Yeast super-suppressors are altered tRNAs capable of translating a nonsense codon in vitro.
Cell. 1975 Nov;6(3):269-77. doi: 10.1016/0092-8674(75)90178-6.
5
Nonsense suppressors of Saccharomyces cerevisiae can be generated by mutation of the tyrosine tRNA anticodon.酿酒酵母的无义抑制基因可通过酪氨酸tRNA反密码子的突变产生。
Nature. 1976 Aug 26;262(5571):757-61. doi: 10.1038/262757a0.
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