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Query: EC:3.5.1.5 (
urease
)
7,257
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The closely related Proteus mirabilis and Enterobacterlaceae plasmid-encoded
urease
genes are positively regulated by the AraC-like transcriptional activator UreR. In the presence of the effector molecule urea, UreR promotes transcription of ureD, the initial gene in the
urease
operon, and increases transcription of the divergently transcribed ureR. Here, we identify UreR-specific binding sites in the ureRp-ureDp intergenic regions. Recombinant UreR (rUreR) was expressed and purified, and gel shift and
DNase I
protection assays were performed with this protein. These analyses indicated that there are two distinct rUreR binding sites in both the plasmid-encoded and P. mirabilis ureRp-ureDp intergenic regions. A consensus binding site of TA/GT/CA/TT/GC/TTA/TT/AATTG was predicted from the
DNase I
protection assays. Although rUreR bound to the specific DNA binding site in both the presence and the absence of urea, the dissociation rate constant k-1 of the rUreR-DNA complex interaction was measurably different when urea was present. In the absence of urea, the dissociation of the protein-DNA complexes, for both ureRp and ureDp, was complete at the earliest time point, and it was not possible to determine a rate. In the presence of urea, dissociation was measurable with a k-1 for the rUreR-ureRp interaction of 1.2 +/- 0.2 x 10(-2) s-1 and a k-1 for the rUreR-ureDp interaction of 2.6 +/- 0.1 x 10(-3) s-1. This corresponds to a half-life of the ureRp-rUreR interaction of 58 s, and a half-life of the ureDp-rUreR interaction of 4 min 26 s. A model describing a potential role for urea in the activation of these promoters is proposed.
...
PMID:Identification of UreR binding sites in the Enterobacteriaceae plasmid-encoded and Proteus mirabilis urease gene operons. 1020 Sep 62
Two important metal-responsive regulators, NikR and Fur, are involved in nickel and iron homeostasis and controlling gene expression in Helicobacter pylori. To date, they have been implicated in the regulation of sets of overlapping genes. We have attempted here dissection of the molecular mechanisms involved in transcriptional regulation of the NikR and Fur proteins, and we investigated protein-promoter interactions of the regulators with known target genes. We show that H. pylori NikR is a tetrameric protein and, through
DNase I
footprinting analysis, we have identified operators for NikR to which it binds with different affinities in a metal-responsive way. Mapping of the NikR binding site upstream of the
urease
promoter established a direct role for NikR as a positive regulator of transcription and, through scanning mutagenesis of this binding site, we have determined two subsites that are important for the binding of the protein to its target sequence. Furthermore, by alignment of the operators for NikR, we have shown that the H. pylori protein recognizes a sequence that is distinct from its well-studied orthologue in Escherichia coli. Moreover, we show that NikR and Fur can bind independently at distinct operators and also compete for overlapping operators in some coregulated gene promoters, adding another dimension to the previous suggested link between iron and nickel regulation. Finally, the importance of an interconnection between metal-responsive gene networks for homeostasis is discussed.
...
PMID:In vitro analysis of protein-operator interactions of the NikR and fur metal-responsive regulators of coregulated genes in Helicobacter pylori. 1626 95
About 200 genes of the gastric pathogen Helicobacter pylori increase expression at medium pHs of 6.2, 5.5, and 4.5, an increase that is abolished or much reduced by the buffering action of
urease
. Genes up-regulated by a low pH include the two-component system HP0165-HP0166, suggesting a role in the regulation of some of the pH-sensitive genes. To identify targets of HP0165-HP0166, the promoter regions of genes up-regulated by a low pH were grouped based on sequence similarity. Probes for promoter sequences representing each group were subjected to electrophoretic mobility shift assays (EMSA) with recombinant HP0166-His(6) or a mutated response regulator, HP0166-D52N-His(6), that can specifically determine the role of phosphorylation of HP0166 in binding (including a control EMSA with in-vitro-phosphorylated HP0166-His(6)). Nineteen of 45 promoter-regulatory regions were found to interact with HP0166-His(6). Seven promoters for genes encoding alpha-carbonic anhydrase, omp11, fecD, lpp20, hypA, and two with unknown function (pHP1397-1396 and pHP0654-0675) were clustered in gene group A, which may respond to changes in the periplasmic pH at a constant cytoplasmic pH and showed phosphorylation-dependent binding in EMSA with HP0166-D52N-His(6). Twelve promoters were clustered in groups B and C whose up-regulation likely also depends on a reduction of the cytoplasmic pH at a medium pH of 5.5 or 4.5. Most of the target promoters in groups B and C showed phosphorylation-dependent binding with HP0166-D52N-His(6), but promoters for ompR (pHP0166-0162), pHP0682-0681, and pHP1288-1289 showed phosphorylation-independent binding. These findings, combined with
DNase I
footprinting, suggest that HP0165-0166 is an acid-responsive signaling system affecting the expression of pH-sensitive genes. Regulation of these genes responds either to a decrease in the periplasmic pH alone (HP0165 dependent) or also to a decrease in the cytoplasmic pH (HP0165 independent).
...
PMID:Involvement of the HP0165-HP0166 two-component system in expression of some acidic-pH-upregulated genes of Helicobacter pylori. 1648 86
NikR is a prokaryotic transcription factor that regulates the expression of Ni2+ enzymes and other proteins involved in Ni2+ trafficking. In the human pathogen Helicobacter pylori, NikR controls transcription of the Ni2+ enzyme
urease
, which allows survival of the bacterium in the acidic gastric niche. The in vitro affinity of NikR from H. pylori (HpNikR) for different metal ions and the metal-ion-dependent capability of HpNikR to bind PureA, the promoter of the
urease
operon, were the object of this study. Electrophoretic mobility shift and
DNase I
footprinting assays indicated that Ni2+ is necessary and sufficient to promote HpNikR binding to PureA, while the effect of other metal ions in identical conditions is significantly lower (Zn2+ and Co2+) or absent (Ca2+ and Mg2+). Isothermal titration calorimetry (ITC) demonstrated the absence of specific Ca2+ and Mg2+ binding to the protein. ITC also established the binding of Zn2+ and Co2+ to two sets of high-affinity sites on HpNikR, differing in stoichiometry (n1=2, n2=4) and dissociation constant (Kd1=6 nM, Kd2=90 nM for Zn2+; Kd1=0.3 microM, Kd2=2.7 microM for Co2+). Additional low-affinity binding sites were observed for Zn2+ (n=8, Kd=1.6 microM). Mobility shift assays and ITC proved that binding of stoichiometric Ni2+ (but not Zn2+ or Co2+) to the high-affinity sites (but not to the low-affinity sites) selectively activates HpNikR to bind its target operator with 1:1 stoichiometry and Kd=56 nM. A protein conformational rearrangement is selectively induced by Ni2+ and not by Zn2+, as indicated by fluorescence spectroscopy and microcalorimetry. Accordingly, competition experiments showed that stoichiometric Ni2+ outperforms Zn2+, as well as Co2+, in functionally activating HpNikR toward high affinity binding to PureA. A general scheme for the nickel-selective HpNikR-DNA interaction is proposed.
...
PMID:High-affinity Ni2+ binding selectively promotes binding of Helicobacter pylori NikR to its target urease promoter. 1879 Jun 98
Polymerase chain reaction (PCR) amplicons (approximately 2.5 kbp) encoding a cdt gene operon and two partial and putative open reading frames (ORFs) were identified in six
urease
-negative (UN) Campylobacter lari isolates using a new PCR primer pair constructed in silico. Three closely spaced and putative ORFs for cdtA, cdtB and cdtC, two putative promoters and a hypothetically intrinsic p-independent transcription terminator were found in the operon. Each ORF commenced with an ATG start codon and terminated with a TGA stop codon for cdtA and cdtB and a TAA for cdtC. Interestingly, an overlap of four nucleotides was detected between cdtA and cdtB and the non-coding region of six base pairs occurring between cdtB and cdtC. The start codons for the three cdt genes were preceded by Shine-Dalgarno sequences. Although nucleotide sequence differences were identified at seven loci in the cdtA gene, six in cdtB and two in cdtC among the seven isolates (including C. lari RM2100), no polymorphic sites occurred in the putative promoters, hypothetically intrinsic transcription terminator and the three ribosome binding sites among the seven isolates. All nine amino acid residues specific for both Escherichia coli cdtB and mammalian
DNase I
were completely conserved in the cdtB gene locus in the 26 C. lari isolates, as well as in C. jejuni and C. coli. No PCR amplicons were generated with
urease
-positive thermophilic campylobacters (UPTC; n=10) using the primer pair.
...
PMID:Cloning and structural analysis of the full-length cytolethal distending toxin (cdt) gene operon from Campylobacter lari. 1918 Oct 38
