EC:1.6.5.2 - FACTA Search

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Query: EC:1.6.5.2 (NQO1)
6,196 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

NAD(P)H:quinone oxidoreductase (NQOR; EC 1.6.99.2) is a homodimeric enzyme which catalyzes the reduction of quinones, azo dyes, and other electron acceptors by NADPH or NADH. To pursue subunit functional studies, we expressed a wild-type/mutant heterodimer of NQOR in Escherichia coli. The wild-type subunit of the heterodimer was tagged with polyhistidine and the other subunit contained a His-194-->Ala mutation (H194A), a change known to dramatically increase the Km for NADPH. This approach enabled us to efficiently purify the heterodimer (H194A/HNQOR) from the homodimers by stepwise elution with imidazole from a nickel nitrilotriacetate column under nondenaturing conditions. The composition of the purified heterodimer was confirmed by SDS and nondenaturing polyacrylamide gel electrophoresis and immunoblot analysis. The enzyme kinetics of the purified heterodimer were studied with two two-electron acceptors, 2,6-dichloroindophenol and menadione, and a four-electron acceptor, methyl red, as the substrates. With two-electron acceptors, the Km(NADPH) and Km(NADH) values of the heterodimer H194A/HNQOR were virtually identical to those of the wild-type homodimer, but the kcat-(NADPH) and kcat(NADH) values were only about 50% those of the wild-type homodimer. With the four-electron acceptor, the Km and kcat values of H194A/HNQOR for NADPH and NADH were similar to those of the low-efficiency mutant homodimer. These results suggest that the subunits of NQOR function independently with two-electron acceptors, but dependently with a four-electron acceptor. This heterodimer approach may have general applications for studying the functional and structural relationships of subunits in dimeric or oligomeric proteins.
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PMID:Subunit functional studies of NAD(P)H:quinone oxidoreductase with a heterodimer approach. 786 30

Using non-denaturing gel electrophoresis and staining with nitro-blue tetrazolium, we reveal the presence of two NAD(P)H oxidoreductase activity bands within thylakoids membranes of Solanum tuberosum L. Second dimension SDS-PAGE and Western analysis show that one of the activity bands contains several polypeptides, two of them being recognized by antibodies directed against peptides corresponding to conserved domains of chloroplastic genes products NDH B and NDH J (at 32 and 18 kDa, respectively). Both activity bands also contain a polypeptide (around 36 kDa) recognized by an antibody directed against ferredoxin-NADP(+)-reductase (FNR). We conclude from these results that both chloroplastic ndh B and ndh J gene products are components of a thylakoid NAD(P)H dehydrogenase complex. The association with FNR is suggested to allow the complex to use NADPH instead of NADH as a preferential substrate.
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PMID:Evidence for an association of ndh B, ndh J gene products and ferredoxin-NADP-reductase as components of a chloroplastic NAD(P)H dehydrogenase complex. 855 17

2-Methylene-4-butyrolactone (MBL), an inducer of NAD(P)H:(quinone acceptor) oxidoreductase (EC 1.699.2) in animal cells, was found to induce NADPH-specific quinone reductase about 25-fold in Escherichia coli. MBL induced NADPH-quinone reductases with relative mobilities (Rm) of 0.70, 0.76 and 0.91 on polyacrylamide gel electrophoresis (PAGE). These three enzymes were found to be charge isomers with the same molecular size of 42 kDA. Two NADPH-quinone reductases (A and B) were purified to single proteins both with an apparent mass of 21 kDa on SDS-PAGE. Enzyme A corresponded to the activity of the band at Rm 0.76 with a minor active band at Rm 0.70, and enzyme B to the activity of band Rm 0.91. Both enzymes reacted exclusively with NADPH and were most active toward quinone derivatives and ferricyanide with the optimum pH at 7.0. The reaction followed a ping-pong mechanism with Km values for NADPH and menadione of 10.5 microM and 6 microM, respectively. The sequences of 20 amino acids at the N-terminal of enzymes A and B were identical, and furthermore coincided with that of the E. coli modulator of drug activity (mda66) submitted under the accession number U18656.
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PMID:NADPH-specific quinone reductase is induced by 2-methylene-4-butyrolactone in Escherichia coli. 861 90

Major and minor ascorbate free radical (AFR) reductases, with diaphorase activity, and three other diaphorases were separated from the human lens soluble fraction by DEAE-cellulose ion-exchange column chromatography. They were characterized for adsorptivity to ion-exchange and 5'AMP-Sepharose 4B affinity columns, kinetic properties, and substrate specificity. The latter diaphorases were closely correlated with NADH-cytochrome beta 5 reductase. The major and minor AFR reductases were regarded as a major diaphorase group different from two ubiquitous diaphorases, i.e., NADH-cytochrome beta 5 reductase and DT-diaphorase. A major AFR reductase was partially purified approximately 50 fold over the lens soluble fraction by ion-exchange, affinity, and gel filtration (Sephacryl S-200 HR) column chromatography. From the partially purified enzyme, 2 bands, one sharp and one diffuse, were obtained by native polyacrylamide gel electrophoresis. Two proteins, of 20 and 24 kDa, were identified in the active enzyme bands by SDS-polyacrylamide gel electrophoresis. This suggests that the 20 and/or 24 kDa proteins may be components of the major AFR reductase.
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PMID:Ascorbate free radical reductases and diaphorases in soluble fractions of the human lens. 895 63

A mammalian cytosolic FAD-dependent enzyme that catalyzes the reduction of quinones by N-ribosyl- and N-alkyldihydronicotinamides, but not by NADH, NADPH, or NMNH (reduced nicotinamide mononucleotide), was isolated from bovine kidney more than 30 years ago [S. Liao, J. T. Dulaney and H. G. Williams-Ashman (1962) J. Biol. Chem. 237, 2981-2987]. This enzyme is designated here as quinone reductase type 2 (QR2). Bovine QR2 is a homodimer that migrates on SDS/PAGE at approximately 22 kDa. Three tryptic peptides of bovine QR2 (representing 39 amino acids) showed 43% identity to human NAD(P)H:quinone reductase (DT-diaphorase; EC 1.6.99.2), here designated QR1 and 82% identity to a related human cDNA clone [called hNQO2 by A. K. Jaiswal, P. Burnett, M. Adesnik and O. W. McBride (1990) Biochemistry 29, 1899-1906], and designated here as hQR2. The protein encoded by the latter cDNA did not show QR activity when tested with conventional nicotinamide nucleotides. The unexpected high homology between the old flavoenzyme and hQR2 prompted us to clone and overexpress hQR2. The properties of hQR2 were identical to those of the flavoenzyme described by S. Liao and H. G. Williams-Ashman, thus establishing their genetic identity. Recombinant human QR2: (i) reacts with N-ribosyl- and N-alkyldihydronicotinamides, but not with NADH, NADPH, or NMNH; (ii) is very weakly inhibited by dicumarol or Cibacron blue; (iii) is very potently inhibited by benzo[a]pyrene. The x-ray crystal structure of rat QR1 shows that the 43 amino acid C-terminal tail of QR1 provides the binding site for the hydrophilic portions of NADH and NADPH. In the absence of this binding site in QR2, the enzyme retains the essential catalytic machinery, including affinity for FAD, but cannot bind phosphorylated hydride donors.
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PMID:Unexpected genetic and structural relationships of a long-forgotten flavoenzyme to NAD(P)H:quinone reductase (DT-diaphorase) 905 Aug 36

The leukocyte iodonitrotetrazolium violet (INT) reductase activity of disrupted bovine polymorphonuclear neutrophils is closely associated with the activation of the O2(-)-generating NADPH oxidase in a cell-free system. It is dependent upon NADPH, cytosolic factors, and amphiphiles (such as arachidonate), the same factors required for O2- generation. Both O2- generation and INT reductase activity are inhibited by phenylarsine oxide, an inhibitor of the activation of the NADPH oxidase [Li, J., & Guillory, R. J. (1997) J. Biochem. Mol. Biol. Biophys. (in press)]. In this report, the INT diaphorase activity of disrupted bovine polymorphonuclear neutrophils is shown to be resolved by DEAE-Sepharose chromatography into two fractions: an NADPH-cytochrome c reductase-containing fraction and a cytochrome b558-associated fraction. The diaphorase activity in the NADPH-cytochrome c reductase-containing portion is not dependent upon the presence of an amphiphile or phospholipid and is not associated with O2- generation. Upon incorporation into liposomes, the cytochrome b558-containing fraction demonstrates high O2- and INT reductase activities in the presence of cytosolic factors. Both O2- generation and INT reductase activities are SDS and FAD dependent and further stimulated by GTPgammaS. Phenylarsine oxide inhibits both O2- generation and INT reductase activities when added prior to activation by SDS. With the cytochrome b-containing liposomes, the Km values (O2- formation) for NADPH and NADH are 27.2 microM and 810 microM, and for INT reductase the Km values are 27.5 microM and 1017 microM, respectively. Under anaerobic conditions and thus in the absence of O2- formation, the NADPH-dependent INT reductase activity does not change, indicating that the dye reduction is not due to its direct reduction by O2 anion but is an intrinsic property of the superoxide-generating NADPH oxidase. Cytochrome b558 is the essential component of the NADPH oxidase and contains all the redox centers necessary for electron flow between NADPH and oxygen. The correlation of the activation and inhibition patterns for O2- generation and INT reduction by cytochrome b558 incorporated into artificial liposomes strongly indicates that the two activities are associated with the same membrane protein, cytochrome b558.
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PMID:Purified leukocyte cytochrome b558 incorporated into liposomes catalyzes a cytosolic factor dependent diaphorase activity. 915 36

Quinone reductases in sea bream, Pagrus major, were investigated using menadione as a model quinone. Both NADPH-linked and NADH-linked quinone reductase activities were detected, in varying degrees, in all tissues examined. In the liver, these activities resided in its microsomal and cytosolic fractions. The cytosolic activity was markedly inhibited by cupric sulfate and p-chloromercuribenzoate. However, little effect was observed with dicoumarol, a potent inhibitor of DT-diaphorase. The NADH-linked activity was more resistant to heat inactivation than the NADPH-linked activity. The NADPH-linked quinone reductase was purified from the liver cytosol by chromatography with DEAE-cellulose, hydroxyapatite and AF-Blue Toyopearl. The molecular weight of the enzyme was estimated to be 68,000 by gel filtration and 32,000 by SDS-PAGE. The NADH-linked quinone reductase was purified from the liver cytosol by heat treatment, fractionation with ammonium sulfate and chromatography with phenyl-Toyopearl, hydroxyapatite, DEAE-cellulose and hydroxyapatite. The molecular weight of the enzyme was estimated to be 124,000 by SDS-PAGE and 126,000 by gel filtration.
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PMID:Purification of NADPH-linked and NADH-linked quinone reductases from liver cytosol of sea bream, Pagrus major. 946 79

We previously reported that the purified Na+-translocating NADH-quinone reductase (NQR) from the marine Vibrio alginolyticus is composed of three major subunits, alpha, beta and gamma. NQR operon was sequenced and was found to be composed of 6 structural genes. Among these genes, nqr1, nqr3 and nqr6 were identified to code for alpha-, gamma- and beta-subunits, respectively. The protein products from nqr2, nqr4 and nqr5, however, were not reported. The sequence data predicted that these three proteins are very hydrophobic and may be unusual in mobility and staining on SDS-PAGE. By modifying the detection method of proteins on SDS-PAGE, we could detect all six subunits encoded by NQR operon in the purified NQR complex. The open reading frame of each subunit was identified from its N-terminal amino acid sequence.
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PMID:Identification of six subunits constituting Na+-translocating NADH-quinone reductase from the marine Vibrio alginolyticus. 949 15

A specific dehydrogenase, different from nicotinic acid hydroxylase, was induced during growth of Eubacterium barkeri on xanthine. The protein designated as xanthine dehydrogenase was enriched 39-fold to apparent homogeneity using a three-step purification scheme. It exhibited an NADP-dependent specific activity of 164 micromol xanthine oxidized per min and per mg of protein. In addition it showed an NADPH-dependent oxidase and diaphorase activity. A molecular mass of 530 kDa was determined for the native enzyme and SDS/PAGE revealed three types of subunits with molecular masses of 17.5, 30 and 81 kDa indicating a dodecameric native structure. Molybdopterin was identified as the molybdenum-complexing cofactor using activity reconstitution experiments and fluorescence measurements after KI/I2 oxidation. The molecular mass of the cofactor indicated that it is of the dinucleotide type. The enzyme contained iron, acid-labile sulfur, molybdenum, tungsten, selenium and FAD at molar ratios of 17.5, 18.4, 2.3, 1.1, 0.95 and 2.8 per mol of native enzyme. Xanthine dehydrogenase was inactivated upon incubation with arsenite, cyanide and different purine analogs. Reconstitution experiments of xanthine dehydrogenase activity by addition of selenide and selenite performed with cyanide-inactivated enzyme and with chloramphenicol-treated cells, respectively, indicated that selenium is not attached to the protein in a covalently bound form such as selenocysteine.
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PMID:Selenium-containing xanthine dehydrogenase from Eubacterium barkeri. 1049 Nov 34

The cytosolic supernatant of bream (Abramis brama L.) liver homogenates inhibits the 7-ethoxyresorufin-O-deethylase (EROD) activity of pike (Esox lucius) microsomal fractions. The inhibitor shows no activity against 7-ethoxycoumarin-O-deethylase and benzo(a)pyrene hydroxylase indicating a high isoenzyme specificity. The inhibiting component is a heat-sensitive substance (56 degrees C for 5') which is not self regenerating after subsequent cooling. It can be isolated from the cytosolic fraction using two combined steps of ion exchange chromatography. The purification factor is 500-fold with a recovery rate of 70%. SDS-PAGE of the purified fractions indicate that electrophoretic purity was not achieved. However, a prominent band at about 97 kDa was present in all fractions in a close intensity activity relationship. The molecular weight of the native form of the purified protein was determined to be 175 +/- 35 kDa using gel filtration on a Sephacryl S 300 HR column. So far the inhibitor can be characterized as a protein. It shows strong tendencies to aggregate due to lipophilic interactions. These interactions can be repressed by the addition of 1% sodium cholate. The inhibitor has an optimum activity at 25 degrees C and pH 8.0. The inhibitor does not correspond to any of the known cytosolic, endogenous inhibitors of EROD activities in fish, including proteases, cytosolic phosphatases, kinases and resorufin reductase (e.g. DT-diaphorase), although a non-dicoumarol (10 microM)-inhibited menadione oxidoreductase activity of up to 46.7 +/- 0.4 nmol/min per mg inhibitory protein was measured. Kinetic studies using Michaelis-Menten kinetics with purified inhibitor fractions prove a non-competitive mode of inhibition. As this kind of inhibitor is not described yet it is named CERODIP (cytosolic, EROD-inhibiting protein).
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PMID:A novel, endogenous inhibitor of 7-ethoxyresorufin-O-deethylase activity isolated from liver cytosolic fractions of bream (Abramis brama L.). 1058 24

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