大肠杆菌中脂肪酸降解的调控:fadR基因部分二倍体菌株的显性研究
Regulation of fatty acid degradation in Escherichia coli: dominance studies with strains merodiploid in gene fadR.
作者信息
Simons R W, Hughes K T, Nunn W D
出版信息
J Bacteriol. 1980 Aug;143(2):726-30. doi: 10.1128/jb.143.2.726-730.1980.
Abstract
Strains stably merodiploid in the 25-min region of the chromosome of Escherichia coli were constructed and used in dominance tests between various wild-type and mutant alleles of the fadR gene. Whereas the monoploid fadR+ and fadR strains were inducible and constitutive, respectively, for the enzymes involved in fatty acid degradation (fad), merodiploids with at least one fadR+ allele were inducible. This observation was true whether the fadR+ allele resided on the main chromosome or on the episome. These results show that fadR+ is trans dominant to fadR, and they are consistent with the proposal that the fadR gene product is a repressor protein. Complementation tests were also performed by constructing 24 merodiploids harboring fadR alleles on both the main chromosome and the episome. All of these fadR/fadR diploids were able to utilize the noninducing substrate decanoate as sole carbon source, suggesting that only one polypeptide is encoded by the fadR gene.
摘要
构建了在大肠杆菌染色体25分钟区域稳定存在部分二倍体的菌株,并将其用于fadR基因各种野生型和突变等位基因之间的显性测试。单倍体fadR⁺和fadR菌株分别对参与脂肪酸降解(fad)的酶具有诱导性和组成型,而至少有一个fadR⁺等位基因的部分二倍体是可诱导的。无论fadR⁺等位基因位于主染色体还是附加体上,这一观察结果都是正确的。这些结果表明,fadR⁺对fadR是反式显性的,并且与fadR基因产物是一种阻遏蛋白的提议一致。还通过构建在主染色体和附加体上都携带fadR等位基因的24个部分二倍体进行了互补测试。所有这些fadR/fadR二倍体都能够利用非诱导性底物癸酸作为唯一碳源,这表明fadR基因仅编码一种多肽。
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