Reddy M, Gowrishankar J
Centre for Cellular & Molecular Biology, Hyderabad, India.
J Bacteriol. 1997 May;179(9):2892-9. doi: 10.1128/jb.179.9.2892-2899.1997.
A Lac+ papillation assay was used to identify mutants (tex) of Escherichia coli that exhibit an increased frequency of precise excision of a lacZ::Tn10dKan insertion. Three tex strains had suffered mutations in the gene (ssb) encoding the essential single-stranded DNA-binding protein SSB, which resulted in the following alterations in the 177-residue protein: G4D; L10F, P24S; and V102M. The phenotypes of these ssb mutants indicated that they were largely unaffected in other functions mediated by SSB, such as DNA replication, recombination, and repair. Strains with multicopy ssb+ exhibited a decreased frequency of Tn10dKan precise excision. Three other tex mutants had insertion mutations in the locus designated uup at 21.75 min on the linkage map. The nucleotide sequence of uup was determined, and the gene was inferred to encode a 625-amino-acid hydrophilic protein that belongs to the superfamily of ABC-domain proteins (with two pairs of the Walker A and B motifs), which are postulated to be involved in coupling ATP hydrolysis with other biological processes. The uup gene product shares extensive homology with the deduced sequences of two proteins of Haemophilus influenzae. The uup gene is also situated immediately upstream of (and is transcribed in the same direction as) the paraquat-inducible SoxRS-regulated pqi-5 gene, two reported promoters for which are situated within the uup coding sequence.
采用乳糖阳性菌落形成试验来鉴定大肠杆菌的突变体(tex),这些突变体表现出lacZ::Tn10dKan插入片段精确切除频率增加。三个tex菌株在编码必需单链DNA结合蛋白SSB的基因(ssb)中发生了突变,导致该177个氨基酸的蛋白质出现以下改变:G4D;L10F、P24S;以及V102M。这些ssb突变体的表型表明,它们在由SSB介导的其他功能(如DNA复制、重组和修复)中基本未受影响。携带多拷贝ssb+的菌株表现出Tn10dKan精确切除频率降低。另外三个tex突变体在连锁图谱上21.75分钟处指定的uup位点发生了插入突变。测定了uup的核苷酸序列,推断该基因编码一种625个氨基酸的亲水性蛋白质,属于ABC结构域蛋白超家族(具有两对沃克A和B基序),推测其参与将ATP水解与其他生物过程偶联。uup基因产物与流感嗜血杆菌两种蛋白质的推导序列具有广泛的同源性。uup基因也位于百草枯诱导的SoxRS调节的pqi-5基因的紧邻上游(并与该基因同向转录),该基因的两个报道的启动子位于uup编码序列内。