Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:6.3.4.6 (urease)
7,490 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A sensitive and specific serological diagnostic test for Helicobacter pylori infection has been developed and validated in 120 patients with dyspeptic symptoms undergoing endoscopy. This test is to use urease, a protein unique to H. pylori, as the basis for the enzyme linked immunosorbent assay (ELISA) that detects serum H. pylori urease antibodies. The ELISA mean optical density (OD) in H. pylori-positive group is higher than that in H. pylori-negative group (0.57 +/- 0.23 vs 0.24 +/- 0.15, P < 0.001), a cut-off 0.3 OD yields a sensitivity of 95% and a specificity of 93%. Serum absorption test showed that Escherichia coli, Klebsiella pneumonia, Proteus mirabilis, Yersinia enterocolotica, Pseudomonas aeruginosa cell lysate do not influence serum H. pylori urease antibody level, though they all have urease except E. coli. The result implied that H. pylori urease can be a good antigen to detect serum H. pylori antibody and it would be useful for epidemiological survey and routine diagnostic approach. Nearly half of the blood donors showed positive result with H. pylori urease antibody. It is suggested that H. pylori infection is quite common in the asymptomatic population.
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PMID:[An urease enzyme linked immunosorbent assay for detection of Helicobacter pylori infection]. 826 56

The urease of thermophilic Bacillus sp. strain TB-90 is composed of three subunits with molecular masses of 61, 12, and 11 kDa. By using synthetic oligonucleotide probes based on N-terminal amino acid sequences of each subunit, we cloned a 3.2-kb EcoRI fragment of TB-90 genomic DNA. Moreover, we cloned two other DNA fragments by gene walking starting from this fragment. Finally, we reconstructed in vitro a 6.2-kb DNA fragment which expressed catalytically active urease in Escherichia coli by combining these three DNA fragments. Nucleotide sequencing analysis revealed that the urease gene complex consists of nine genes, which were designed ureA, ureB, ureC, ureE, ureF, ureG, ureD, ureH, and ureI in order of arrangement. The structural genes ureA, ureB, and ureC encode the 11-, 12-, and 61-kDa subunits, respectively. The deduced amino acid sequences of UreD, UreE, UreF, and UreG, the gene products of four accessory genes, are homologous to those of the corresponding Ure proteins of Klebsiella aerogenes. UreD, UreF, and UreG were essential for expression of urease activity in E. coli and are suggested to play important roles in the maturation step of the urease in a co- and/or posttranslational manner. On the other hand, UreH and UreI exhibited no significant similarity to the known accessory proteins of other bacteria. However, UreH showed 23% amino acid identity to the Alcaligenes eutrophus HoxN protein, a high-affinity nickel transporter.
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PMID:Cloning, sequencing, and expression of thermophilic Bacillus sp. strain TB-90 urease gene complex in Escherichia coli. 828 39

Comparison of six urease sequences revealed the presence of 10 conserved histidine residues (H96 in the gamma subunit, H39 and H41 in beta, and H134, H136, H219, H246, H312, H320, and H321 in the alpha subunit of the Klebsiella aerogenes enzyme). Each of these residues in K. aerogenes urease was substituted with alanine by site-directed mutagenesis, and the mutant proteins were purified and characterized in order to identify essential histidine residues and assign their roles. The gamma H96A, beta H39A, beta H41A, alpha H312A, and alpha H321A mutant proteins possess activities and nickel contents similar to wild-type enzyme, suggesting that these residues are not essential for substrate binding, catalysis, or metal binding. In contrast, the alpha H134A, alpha H136A, and alpha H246A proteins exhibit no detectable activity and possess 53%, 6%, and 21% of the nickel content of wild-type enzyme. These results are consistent with alpha H134, alpha H136, and alpha H246 functioning as nickel ligands. The alpha H219A protein is active and has nickel (approximately 1.9% and approximately 80%, respectively, when compared to wild-type protein) but exhibits a very high Km value (1,100 +/- 40 mM compared to 2.3 +/- 0.2 mM for the wild-type enzyme). These results are compatible with alpha H219 having some role in facilitating substrate binding. Finally, the alpha H320A protein (Km = 8.3 +/- 0.2 mM) only displays approximately 0.003% of the wild-type enzyme activity, despite having a normal nickel content.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Site-directed mutagenesis of Klebsiella aerogenes urease: identification of histidine residues that appear to function in nickel ligation, substrate binding, and catalysis. 831 88

The Klebsiella aerogenes ureE gene product was previously shown to facilitate assembly of the urease metallocenter (Lee, M.H., et al., 1992, J. Bacteriol. 174, 4324-4330). UreE protein has now been purified and characterized. Although it behaves as a soluble protein, UreE is predicted to possess an amphipathic beta-strand and exhibits unusually tight binding to phenyl-Sepharose resin. Immunogold electron microscopic studies confirm that UreE is a cytoplasmic protein. Each dimeric UreE molecule (M(r) = 35,000) binds 6.05 + 0.25 nickel ions (Kd of 9.6 +/- 1.3 microM) with high specificity according to equilibrium dialysis measurements. The nickel site in UreE was probed by X-ray absorption and variable-temperature magnetic circular dichroism spectroscopies. The data are most consistent with the presence of Ni(II) in pseudo-octahedral geometry with 3-5 histidyl imidazole ligands. The remaining ligands are nitrogen or oxygen donors. UreE apoprotein has been crystallized and analyzed by X-ray diffraction methods. Addition of nickel ion to apoprotein crystals leads to the development of fractures, consistent with a conformational change upon binding nickel ion. We hypothesize that UreE binds intracellular nickel ion and functions as a nickel donor during metallocenter assembly into the urease apoprotein.
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PMID:Purification and characterization of Klebsiella aerogenes UreE protein: a nickel-binding protein that functions in urease metallocenter assembly. 831 89

We report the sequence of ureG, an accessory gene that is a part of the ure gene cluster of uropathogenic Proteus mirabilis and required for full enzymatic activity of urease. The 615-bp open reading frame predicts a M(r) 22,374 polypeptide, which contains a consensus amino acid (aa) sequence for ATP-binding. The polypeptide shares sequence homology with UreG of Escherichia coli (93% of identical aa), Klebsiella aerogenes (59%) and Helicobacter pylori (59%).
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PMID:Sequence of the Proteus mirabilis urease accessory gene ureG. 833 48

Reaction of Klebsiella aerogenes urease with diethylpyrocarbonate (DEP) led to a pseudo-first-order loss of enzyme activity by a reaction that exhibited saturation kinetics. The rate of urease inactivation by DEP decreased in the presence of active site ligands (urea, phosphate, and boric acid), consistent with the essential reactive residue being located proximal to the catalytic center. The pH dependence for the rate of inactivation indicated that the reactive residue possessed a pKa of 6.5, identical to that of a group that must be deprotonated for catalysis. Full activity was restored when the inactivated enzyme was treated with hydroxylamine, compatible with histidinyl or tyrosinyl reactivity. Spectrophotometric studies were consistent with DEP derivatization of 12 mol of histidine/mol of native enzyme. In the presence of active site ligands, however, approximately 4 mol of histidine/mol of protein were protected from reaction. Each protein molecule is known to possess two catalytic units; hence, we propose that urease possesses at least one essential histidine per catalytic unit.
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PMID:Diethylpyrocarbonate reactivity of Klebsiella aerogenes urease: effect of pH and active site ligands on the rate of inactivation. 842 33

In Klebsiella aerogenes, the formation of a large number of enzymes responds to the quality and quantity of the nitrogen source provided in the growth medium, and this regulation requires the action of the nitrogen regulatory (NTR) system in every case known. Nitrogen regulation of several operons requires not only the NTR system, but also NAC, the product of the nac gene, raising the question of whether the role of NAC is to activate operons directly or by modifying the specificity of the NTR system. We isolated an insertion of the transposon Tn5tac1 which puts nac gene expression under the control of the IPTG-inducible tac promoter rather than the nitrogen-responsive nac promoter. When IPTG was present, cells carrying the tac-nac fusion activated NAC-dependent operons and repressed NAC-repressible operons independent of the nitrogen supply and even in the absence of an active NTR system. Thus, NAC is sufficient to regulate operons like hut (encoding histidase) and gdh (encoding glutamate dehydrogenase), confirming the model that the NTR system activates nac expression and NAC activates hut and represses gdh. Activation of urease formation occurred at a lower level of NAC than that required for glutamate dehydrogenase repression, and activation of histidase formation required still more NAC.
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PMID:The product of the Klebsiella aerogenes nac (nitrogen assimilation control) gene is sufficient for activation of the hut operons and repression of the gdh operon. 845 54

Synthesis of urease by Klebsiella species is known to be induced when the nitrogen source of the growth medium is limiting, suggesting that urease gene expression is controlled by the nitrogen regulatory (ntr) system. This study showed that K. pneumoniae with mutations in either ntrA or ntrC, two integral components of the ntr system, were phenotypically urease-negative. These mutants could be complemented back to a urease positive phenotype with recombinant plasmids encoding the corresponding ntr gene. A series of ure-lacZYA transcriptional fusions, in conjunction with primer extension analysis, identified a DNA region that encoded a nitrogen-regulated promoter. This promoter region controlled transcription of ureD, the first gene in the Klebsiella pneumoniae urease gene cluster, and ureA, a gene that resides immediately downstream of ureD. A high level of transcription from the ureD promoter required NAC, a recently characterized member of the nitrogen regulatory cascade. NAC is a Lys R-like transcriptional regulator that can act at sigma 70 promoters; expression from nac itself is dependent upon NTRA. Therefore, expression of K. pneumoniae urease was dependent upon the nitrogen regulatory cascade, and transcription of at least two urease genes was from a promoter that was positively regulated by NAC.
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PMID:Identification of a nitrogen-regulated promoter controlling expression of Klebsiella pneumoniae urease genes. 849 92

Crystalline Klebsiella aerogenes urease was found to have less than 0.05% of the activity observed for the soluble enzyme under standard assay conditions. Li2SO4, present in the crystal storage buffer at 2 M concentration, was shown to inhibit soluble urease by a mixed inhibition mechanism (Ki's of 0.38 +/- 0.05 M for the free enzyme and 0.13 +/- 0.02 M for the enzyme-urea complex). However, the activity of crystals was less than 0.5% of the expected value, suggesting that salt inhibition does not account for the near absence of crystalline activity. Dissolution of crystals resulted in approximately 43% recovery of the soluble enzyme activity, demonstrating that protein denaturation during crystal growth does not cause the dramatic diminishment in the catalytic rate. Finally, crushed crystals exhibited only a three-fold increase in activity over that of intact crystals, indicating that the rate of substrate diffusion into the crystals does not significantly limit the enzyme activity. We conclude that urease is effectively inactive in this crystal form, possibly due to conformational restrictions associated with a lid covering the active site, and propose that the small amounts of activity observed arise from limited enzyme activity at the crystal surfaces or trace levels of enzyme dissolution into the crystal storage buffer.
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PMID:Urease activity in the crystalline state. 853 59

Klebsiella aerogenes urease in a Ni-containing enzyme (two Ni per alpha beta gamma unit) that is purified as an apoprotein from cells grown in Ni-free medium. Partial activation of urease and UreD-urease apoproteins is achieved in vitro by incubation in the presence of Ni(II) and CO2, whereas incubation of these proteins with Ni alone leads to the formation of inactive species [Park, I.-S., & Hausinger, R. P. (1995) Science 267, 1156-1158]. Here we determined the kinetics of these inhibitory reactions and demonstrated the presence of two Ni ions per alpha beta gamma unit in the inactive proteins. Although metal-substituted urease has never been purified from Ni-deprived cell, several other metal ions were shown to bind to the urease apoproteins. Divalent Zn, C, Co, and Mn all inhibited Ni- and Co2-promoted urease activation at concentrations below that of Ni, whereas Mg and Ca ions did not inhibit this process. Ni-inhibited species recovered their ability to be partially activated after EDTA treatment. In contrast, samples that were exposed to Co or Cu ions were irreversibly inactivated, and EDTA treatment of Zn- or Mn-inhibited samples led to reduced levels of activation competence. Mn-substituted urease, generated from urease apoprotein samples in a Mn- and Co2-dependent manner, was shown to be active, whereas other metal-substituted forms if urease lacked activity. The Mn-protein possessed only 2% of the activity of Ni-activated apoprotein [ approximately 8.0 vs approximately 400 mumol min-1 (mg protein)-1], but its KM value was only moderately altered from that of the native enzyme (3.86 +/- 0.15 mM vs 0.2 mM). Unlike the Ni-containing enzyme, Mn-urease was inhibited by EDTA. Given the evidence that urease apoprotein binds numerous metal ions, we speculate on possible roles for the UreD, UreF, and UreG accessory proteins in urease activation.
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PMID:Metal ion interaction with urease and UreD-urease apoproteins. 861 23


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