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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)
Syntheses of metal-containing enzymes often require the participation of accessory proteins. The roles played by many of these accessory proteins are poorly characterized. Klebsiella aerogenes
urease
, a
nickel
-containing enzyme, provides an ideal system to study metallocenter assembly. Here, we describe a method for isolating a complex containing
urease
apoprotein and the UreD, UreF, and UreG accessory proteins. We demonstrate that
urease
apoprotein in this complex is activated to near wild-type enzyme levels when incubated with
nickel
ions and high (approximately 100 mM) concentrations of bicarbonate. Significantly, we also observed
nickel
-dependent activation at physiologically relevant (approximately 100 microM) bicarbonate levels, but only in the presence of GTP. Based on studies involving a nonhydrolyzable analog of GTP, we conclude that nucleotide hydrolysis, not just binding, is required for this process. The critical nucleotide-binding site was localized to UreG on the basis of experiments using a variant complex. These studies highlight the relevance of the UreD-UreF-UreG-
urease
apoprotein complex to
nickel
metallocenter assembly and explain the previously identified in vivo energy requirement for
urease
activation.
...
PMID:GTP-dependent activation of urease apoprotein in complex with the UreD, UreF, and UreG accessory proteins. 1050 Jan 43
Mutation in Eu3 eliminates activity of both soybean ureases, the embryo-specific (encoded by Eu1) and the tissue-ubiquitous (encoded by Eu4). eu3-e1 is a completely recessive null allele. Eu3-e3 is a semi-dominant specifying 0.1% wild-type
urease
activity in the homozygous state and 5-10% as a heterozygote (Meyer-Bothling et al. 1987). Antibodies to plant UreG, a homologue of the bacterial
urease
accessory protein, revealed a 32 kDa protein (p32) in embryos of the Eu3/Eu3 precursor genotype. p32 is identical to UreG by the criteria of size, antigenicity, and its ability to bind
Ni2+
, a trait expected from the deduced histidine-rich N-terminus of UreG. UreG was absent in eu3-e1/eu3-e1, and lack of UreG co-segregated with eu3-e1. Eu3-e3 specified a UreG transcript which coded valine in place of alanine at residue 142 (A142V) confirming thatEu3 encodes UreG, which is renamed Eu3. Eu3 (A142V) retained Ni-binding ability. Eu3 is directly involved in
urease
activation, since anti-Eu3 (UreG) antibodies inhibited the in vitro activation of
urease
. Eu1 (embryo
urease
) and Eu3 accumulated in parallel in the developing embryo. The presence of Eu1 was not necessary for the high embryonic level of Eu3. However, the presence of Eu3 appeared to be important for accumulation of Eu1, perhaps by stabilizing it by Ni insertion. At the level of sensitivity employed Eu3 was detected in crude extracts of embryos but not non-embryonic tissues which have 1/500th the embryo
urease
activity. Functional Eu3, however, is necessary for activation of the ubiquitous
urease
in non-embryonic tissues.
...
PMID:The soybean Eu3 gene encodes an Ni-binding protein necessary for urease activity. 1065 50
NixA, the high-affinity cytoplasmic membrane
nickel
transport protein of Helicobacter pylori, imports Ni(2+) into the cell for insertion into the active site of the
urease
metalloenzyme, which is required for gastric colonization. NixA fractionates with the cytoplasmic membrane, and protein cross-linking studies suggest that NixA functions as a monomer. A preliminary topological model of NixA with seven transmembrane domains was previously proposed based on hydropathy, charge dispersion, and homology to other transporters. To test the proposed topology of NixA and relate critical residues to specific structural elements, a series of 21 NixA-LacZ and 21 NixA-PhoA fusions were created along the entire length of the protein. Expression of reporter fusions was confirmed by Western blotting with beta-galactosidase- and alkaline phosphatase-specific antisera. The activities of reporter fusions near to and upstream of the predicted translational initiation demonstrated the presence of an additional amino-terminal transmembrane domain including a membrane localization signal. Activities of fusions immediately adjacent to motifs which have been shown to be requisite for Ni(2+) transport localized these motifs entirely within transmembrane domains II and III. Fusion activities localized six additional Asp and Glu residues which reduced Ni(2+) transport by >90% when mutated within or immediately adjacent to transmembrane domains II, V, VI, and VII. All fusions strongly support a model of NixA in which the amino and carboxy termini are located in the cytoplasm and the protein possesses eight transmembrane domains.
...
PMID:Membrane topology of the NixA nickel transporter of Helicobacter pylori: two nickel transport-specific motifs within transmembrane helices II and III. 1069 79
The Schizosaccharomyces pombe genome sequencing project identified an open reading frame (O74869 and O74912, named Nic1p in the present study) with significant similarity to members of a family of bacterial transition metal permeases. These uptake systems transport Ni(2+) ion with extremely high affinity across the bacterial cytoplasmic membrane, but they differ in selectivity toward divalent transition metal cations. An S. pombe mutant harboring an interrupted nic1 allele (nic1-1) was strongly impaired in (63)Ni(2+) uptake in the presence of a high molar ratio of Mg(2+) relative to Ni(2+), conditions that reflect the natural situation. Under these conditions, the nic1-1 mutant contained only background activities of the
nickel
-dependent cytoplasmic enzyme
urease
and could not catabolize urea. Among a series of divalent transition metal cations tested (Cd(2+), Co(2+), Cu(2+), Mn(2+), and Zn(2+)), only Co(2+) caused considerable inhibition of Nic1p-mediated Ni(2+) uptake. On the other hand, experiments with (57)Co(2+) (at nm concentrations) did not show significant differences in Co(2+) uptake between the nic1-1 mutant and the parental strain. Our data suggest that Nic1p acts as a plasma-membrane
nickel
transporter in fission yeast, a finding that invites searches for isologous counterparts in higher eukaryotes.
...
PMID:Nic1p, a relative of bacterial transition metal permeases in Schizosaccharomyces pombe, provides nickel ion for urease biosynthesis. 1074 59
Klebsiella aerogenes
urease
uses a dinuclear
nickel
active site to catalyze the hydrolysis of urea. Here, we describe the steady-state and pre-steady-state kinetics of
urease
inhibition by fluoride. Urease is slowly inhibited by fluoride in both the presence and absence of substrate. Steady-state rate studies yield parallel double-reciprocal plots; however, we show that fluoride interaction with
urease
is not compatible with classical uncompetitive inhibition. Rather, we propose that fluoride binds to an enzyme state (E) that is in equilibrium with resting enzyme (E) and produced during catalysis. Fluoride binding rates are directly proportional to inhibitor concentration. Substrate reduces both the rate of fluoride binding to
urease
and the rate of fluoride dissociation from the complex, consistent with urea binding to E and E.F in addition to E. Fluoride inhibition is pH-dependent due to a protonation event linked to fluoride dissociation. Fluoride binding is pH-independent, suggesting that fluoride anion, not HF, is the actual inhibitor. We assess the kinetic results in terms of the known protein crystal structure and evaluate possible molecular interpretations for the structure of the E state, the site of fluoride binding, and the factors associated with fluoride release. Finally, we note that the apparent uncompetitive inhibition by fluoride as reported for several other metalloenzymes may need to be reinterpreted in terms of fluoride interaction with the corresponding E states.
...
PMID:Fluoride inhibition of Klebsiella aerogenes urease: mechanistic implications of a pseudo-uncompetitive, slow-binding inhibitor. 1082 10
We investigated the transcription of the
urease
gene cluster ureABIEFGH in Helicobacter pylori to determine the regulation of gene expression of the highly produced enzyme
urease
. Northern blot hybridization analysis demonstrated that cells of the wild-type strain grown in an ordinary broth had transcripts of ureAB, ureABI, ureI, ureIE' and ure'FGH, but cells of a ureI-disrupted mutant had only the ureAB transcript. When the wild-type cells were exposed to pH 8 for 30 min, very little mRNA was detected. However, when exposed to pH 6, a large amount of the ureIE" transcript, which was longer than the ureIE' transcript, together with the additional transcripts ureABIEFGH and ure'EFGH were detected. Rifampicin addition experiments demonstrated that
urease
mRNAs, and the ureIE' transcripts in particular, are more stable at pH 5.5 than at pH 7. In accord with these results,
urease
activity in the crude cell extract of the pH 5.5 culture was twice as much as that of the pH 7 culture, although the amounts of UreA and UreB detected by immunoblot analysis were similar. The transcription start point of ureI was identified by primer extension using a ureA promoter-deleted mutant, and a consensus sequence of RpoD-RNA polymerase was found in the ureI promoter. The 3' end of the ureIE" mRNA, determined using S1 nuclease mapping, revealed that the transcript is able to cover the majority of the ureE open reading frame (ORF) that might be sufficient for UreE activity. Based on the above results, we conclude that the
urease
gene cluster of H. pylori consists of two operons, ureAB and ureIEFGH, and that primary transcripts of the latter as well as the read-through transcript, ureABIEFGH, are cleaved to produce several species of mRNA. It has been suggested that the ureIEFGH operon is regulated post-transcriptionally by mRNA decay in response to environmental pH. We are tempted to speculate that the ureE" transcript present in acidic pH may contribute to produce an active product that can proceed the
nickel
incorporation to the active centre, the final step of
urease
biosynthesis.
...
PMID:Identification of the urease operon in Helicobacter pylori and its control by mRNA decay in response to pH. 1084 92
Klebsiella aerogenes
urease
uses a dinuclear
nickel
active site to catalyze urea hydrolysis at >10(14)-fold the spontaneous rate. To better define the enzyme mechanism, we examined the kinetics and structures for a suite of site-directed variants involving four residues at the active site: His320, His219, Asp221, and Arg336. Compared to wild-type
urease
, the H320A, H320N, and H320Q variants exhibit similar approximately 10(-)(5)-fold deficiencies in rates, modest K(m) changes, and disorders in the peptide flap covering their active sites. The pH profiles for these mutant enzymes are anomalous with optima near 6 and shoulders that extend to pH 9. H219A
urease
exhibits 10(3)-fold increased K(m) over that of native enzyme, whereas the increase is less marked ( approximately 10(2)-fold) in the H219N and H219Q variants that retain hydrogen bonding capability. Structures for these variants show clearly resolved active site water molecules covered by well-ordered peptide flaps. Whereas the D221N variant is only moderately affected compared to wild-type enzyme, D221A
urease
possesses low activity ( approximately 10(-)(3) that of native enzyme), a small increase in K(m), and a pH 5 optimum. The crystal structure for D221A
urease
is reminiscent of the His320 variants. The R336Q enzyme has a approximately 10(-)(4)-fold decreased catalytic rate with near-normal pH dependence and an unaffected K(m). Phenylglyoxal inactivates the R336Q variant at over half the rate observed for native enzyme, demonstrating that modification of non-active-site arginines can eliminate activity, perhaps by affecting the peptide flap. Our data favor a mechanism in which His219 helps to polarize the substrate carbonyl group, a metal-bound terminal hydroxide or bridging oxo-dianion attacks urea to form a tetrahedral intermediate, and protonation occurs via the general acid His320 with Asp221 and Arg336 orienting and influencing the acidity of this residue. Furthermore, we conclude that the simple bell-shaped pH dependence of k(cat) and k(cat)/K(m) for the native enzyme masks a more complex underlying pH dependence involving at least four pK(a)s.
...
PMID:Kinetic and structural characterization of urease active site variants. 1091 64
The contribution of
urease
activity to the pathogenesis of Actinobacillus pleuropneumoniae was investigated using 2 different
urease
-negative transposon mutants of the virulent serotype 1 strain, CM5 Nalr. One mutant, cbiK::Tn10, is deficient in the uptake of
nickel
, a cofactor required for
urease
activity. The other mutant, ureG::Tn10, is unable to produce active
urease
due to mutation of the
urease
accessory gene, ureG. In aerosol challenge experiments, pigs developed acute pleuropneumonia following exposure to high doses (10(6) cfu/mL) of the parental strain, CM5 Nalr, and to the cbiK::Tn10 mutant. When low dose (10(3) cfu/mL) challenges were used, neither
urease
-negative mutant was able to establish infection, whereas the parental strain was able to colonize and cause lesions consistent with acute pleuropneumonia in 8 of the 20 pigs challenged. These findings suggest that
urease
activity may be needed for A. pleuropneumoniae to establish infection in the respiratory tract of pigs.
...
PMID:Urease activity may contribute to the ability of Actinobacillus pleuropneumoniae to establish infection. 1093 79
We have demonstrated that possession of the gene for thermostable direct hemolysin-related hemolysin (trh) coincides with the presence of the
urease
gene among clinical Vibrio parahaemolyticus strains and that the location of the two genes are in close proximity on the chromosome. Here, we cloned and sequenced the 15,754-bp DNA region containing the trh gene and the gene cluster for
urease
production from the chromosome of clinical V. parahaemolyticus (TH3996). We found 16 open reading frames (ORFs) and a lower G+C content (41%) compared with the total genome of this bacterium (46 to 47%). The ure cluster consisted of eight genes, namely, ureDABCEFG and ureR. ureR was located 5.2 kb upstream of the other seven genes in the opposite direction. The genetic organization and sequences of the ure genes resembled those found in Proteus mirabilis. Between ureR and the other ure genes, there were five ORFs, which are homologous with the
nickel
transport operon (nik) of Escherichia coli. We disrupted each of the ureR, ureC, and nikD genes in TH3996 by homologous recombination and analyzed the phenotype of the mutants. In the presence of urea these mutant strains had dramatically less
urease
activity than the strain they were derived from. Disruption of ureR, nikD, or ureC, however, had no effect on TRH production. The DNA region containing the trh, nik, and ure genes was found in only trh-positive strains and not in Kanagawa phenomenon-positive and environmental V. parahaemolyticus strains. At the end of the region, an insertion sequence-like element existed. These results suggest that the DNA region was introduced into V. parahaemolyticus in the past through a mechanism mediated by insertion sequences. This is the first reported case that the genes for an ATP-binding cassette-type
nickel
transport system, which may play a role in
nickel
transport through bacterial cytoplasmic membrane, are located adjacent to the ure cluster on the genome of an organism.
...
PMID:Genetic characterization of DNA region containing the trh and ure genes of Vibrio parahaemolyticus. 1099 80
The activation of metal-containing enzymes often requires the participation of accessory proteins whose roles are poorly understood. In the case of Klebsiella aerogenes
urease
, a
nickel
-containing enzyme, metallocenter assembly requires UreD, UreF, and UreG acting as a protein chaperone complex and UreE serving as a
nickel
metallochaperone. Urease apoprotein within the UreD-UreF-UreG-
urease
apoprotein complex is activated to wild-type enzyme activity levels under physiologically relevant conditions (100 microM bicarbonate and 20 microM
Ni2+
) in a process that requires GTP and UreE. The GTP concentration needed for optimal activation is greatly reduced in the presence of UreE compared to that required in its absence. The amount of UreE provided is critical, with maximal activation observed at a concentration equal to that of
Ni2+
. On the basis of its ability to facilitate
urease
activation in the presence of chelators, UreE is proposed to play an active role in transferring
Ni2+
to
urease
apoprotein. Studies involving site-directed variants of UreE provide evidence that His96 has a direct role in metal transfer. The results presented here parallel those obtained from previous in vivo studies, demonstrating the relevance of this in vitro system to the cellular metallocenter assembly process.
...
PMID:UreE stimulation of GTP-dependent urease activation in the UreD-UreF-UreG-urease apoprotein complex. 1101 24
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