Emerick A W
Mol Gen Genet. 1982;185(3):408-17. doi: 10.1007/BF00334132.
Mutations in the repressor encoded by the transposon Tn3 tnpR gene lead to increased levels of expression of two gene products: the mutant repressor (TnpR-) and the Tn3 encoded transposase, TnpA (Heffron et al. 1978; Chou et al. 1979a). Derivatives of the ColE1::Tn3 composite plasmid, RSF2124, with mutant Tn3 repressor exhibited the expected elevated levels of transposition. Unexpectedly, hosts containing these tnpR- derivatives produced enhanced levels of the ColE1 encoded toxin, colicin E1. The gene for colicin E1 maps far (0.23-0.98 MU) from the Tn3 insertion point (0.73 MU) (Fig. 1). The colicin E1 overproduction phenotype, designated Eop-, was complemented in trans by wild type repressor gene product (TnpR+) to the wild type phenotype, Eop+. Hosts with RSF2124 derivatives which expressed high levels of both mutant repressor and mutant transposase (TnpR-, TnpA-) were Eop-. Hosts containing plasmids deleted for both tnpA and tnpR promoters were Eop+, while hosts with plasmids carrying a lac promoter substitution for the tnpA promoter were Eop-. These data support the idea that a cis-acting effect of increased transcription from the tnpA promoter into adjacent ColE1 DNA was the cause of colicin overproduction. Increased transcription activated a putative colicin augmentation function (caf) whose presence was required for the Eop- phenotype. Deletion mapping established that one boundary of the caf locus lies within 52 bases of the junction of the left end of Tn3 and ColE1 DNA. ColE1 DNA in this area contains an open reading frame which could encode either a 74 or a 63 residue protein (B. Polisky, unpublished DNA sequence data). The presence of increased levels of an mRNA transcript from this region and/or the increased expression of protein(s) from this transcript could result in an Eop- phenotype. Expression of the Eop- phenotype requires the presence of the host recE gene. Evidence is presented which suggests that the recA repressor, lexA protein, controls expression of the recE gene product, ExoVIII.
转座子Tn3的tnpR基因编码的阻遏物发生突变,会导致两种基因产物的表达水平升高:突变型阻遏物(TnpR-)和Tn3编码的转座酶TnpA(赫夫伦等人,1978年;周等人,1979年a)。携带突变型Tn3阻遏物的ColE1::Tn3复合质粒RSF2124的衍生物表现出预期的转座水平升高。出乎意料的是,含有这些tnpR-衍生物的宿主产生的ColE1编码毒素大肠杆菌素E1水平增强。大肠杆菌素E1基因与Tn3插入点(0.73 MU)相距较远(0.23 - 0.98 MU)(图1)。大肠杆菌素E1过量生产表型,称为Eop-,可被野生型阻遏物基因产物(TnpR+)反式互补为野生型表型Eop+。携带同时高水平表达突变型阻遏物和突变型转座酶(TnpR-,TnpA-)的RSF2124衍生物的宿主为Eop-。含有缺失tnpA和tnpR启动子的质粒的宿主为Eop+,而携带用lac启动子替代tnpA启动子的质粒的宿主为Eop-。这些数据支持这样一种观点,即从tnpA启动子到相邻ColE1 DNA的转录增加的顺式作用效应是大肠杆菌素过量生产的原因。转录增加激活了一种假定的大肠杆菌素增强功能(caf),其存在是Eop-表型所必需的。缺失定位确定caf基因座的一个边界位于Tn3左端与ColE1 DNA连接处的52个碱基范围内。该区域的ColE1 DNA包含一个开放阅读框,其可编码一个74或63个残基的蛋白质(B. 波利斯基,未发表的DNA序列数据)。该区域mRNA转录物水平的增加和/或该转录物中蛋白质表达的增加可能导致Eop-表型。Eop-表型的表达需要宿主recE基因的存在。有证据表明recA阻遏物lexA蛋白控制recE基因产物ExoVIII的表达。
