Patzer S I, Hantke K
Mikrobiologie/Membranphysiologie, Universität Tübingen, Germany.
Mol Microbiol. 1998 Jun;28(6):1199-210. doi: 10.1046/j.1365-2958.1998.00883.x.
In Escherichia coli, lacZ operon fusions were isolated that were derepressed under iron repletion and repressed under iron depletion. Two fusions were localized in genes that formed an operon whose gene products had characteristics of a binding protein-dependent transport system. The growth defect of these mutants on TY medium containing 5mM EGTA was compensated for by the addition of Zn2+. In the presence of 0.5mM EGTA, only the parental strain was able to take up 65Zn2+. This high-affinity transport was energized by ATP. The genes were named znuACB (for zinc uptake; former name yebLMI) and localized at 42 min on the genetic map of E. coli. At high Zn2+ concentrations, the znu mutants took up more 65Zn2+ than the parental strain. The high-affinity 65Zn2+ uptake was repressed by growth in the presence of 10 microM Zn2+. A znuA-lacZ operon fusion was repressed by 5 microM Zn2+ and showed a more than 20-fold increase in beta-galactosidase activity when Zn2+ was bound to 1.5 microM TPEN [tetrakis-(2-pyridylmethyl) ethylenediamine]. To identify the Zn2+-dependent regulator, constitutive mutants were isolated and tested for complementation by a gene bank of E. coli. A complementing gene, yjbK of the E. coli genome, was identified and named zur (for zinc uptake regulation). The Zur protein showed 27% sequence identity with the iron regulator Fur. High-affinity 65Zn2+ transport of the constitutive zur mutant was 10-fold higher than that of the uninduced parental strain. An in vivo titration assay suggested that Zur binds to the bidirectional promoter region of znuA and znuCB.
在大肠杆菌中,分离得到了一些乳糖Z操纵子融合体,它们在铁充足时去阻遏,在铁缺乏时被阻遏。两个融合体定位于形成一个操纵子的基因中,该操纵子的基因产物具有依赖结合蛋白的转运系统的特征。这些突变体在含有5mM乙二醇双四乙酸(EGTA)的TY培养基上的生长缺陷可通过添加Zn2+得到补偿。在0.5mM EGTA存在的情况下,只有亲本菌株能够摄取65Zn2+。这种高亲和力转运由ATP提供能量。这些基因被命名为znuACB(用于锌摄取;原名yebLMI),位于大肠杆菌遗传图谱的42分钟处。在高Zn2+浓度下,znu突变体比亲本菌株摄取更多的65Zn2+。在10 microM Zn2+存在下生长会抑制高亲和力的65Zn2+摄取。一个znuA-乳糖Z操纵子融合体被5 microM Zn2+阻遏,当Zn2+与1.5 microM三(2-吡啶甲基)乙二胺(TPEN)结合时,β-半乳糖苷酶活性增加了20多倍。为了鉴定Zn2+依赖性调节因子,分离了组成型突变体并用大肠杆菌基因文库进行互补测试。鉴定出一个互补基因,即大肠杆菌基因组中的yjbK,并将其命名为zur(用于锌摄取调节)。Zur蛋白与铁调节因子Fur的序列同一性为27%。组成型zur突变体的高亲和力65Zn2+转运比未诱导的亲本菌株高10倍。体内滴定试验表明,Zur与znuA和znuCB的双向启动子区域结合。
