EC:1.6.5.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

The Co- and Ru-substituted derivatives of adrenal iron-sulfur protein (adrenodoxin) were prepared from its apoprotein in the presence of urea, dithiothreitol, Na2S, and metal ions. Both metal-substituted proteins had 2 g-atoms each of metal and labile sulfur per mole of protein. The Co derivative had optical absorption maxima at 257, 264, 470, and 1430 nm with shoulders at 275, 280, 300, and 380 nm. The molar extinction coefficient per Co atom was 2.200 M-1 cm-1 at 470 nm. The Ru derivative had a broad maximum at 500 nm with a molar extinction coefficient of approximately 100 M-1 cm-1 per Ru atom. The visible chromophore of the Co- and Ru-substituted proteins with mercurials revealed that the saturation levels are 8.6 and 8.4 mol of mercurial/mol of protein. The values agree with that of the native protein within experimental errors. The tyrosyl residue at position 82 displayed a broad anomalous emission at 335 and 331 nm for the Co- and Ru-substituted proteins, respectively, as well as in the case of the native protein. There was no electron paramagnetic resonance signal of the Co derivative in a wide magnetic field at 77 degrees K. Additionally, the Co and Ru derivatives had no enzymatic activity toward NADPH-cytochrome c reduction in the presence of adrenal diaphorase (adrenodoxin reductase). There was no indication that Mn, Ni, Cu, and Os are incorporated into the apoprotein in the presence of urea. Incorporation of Fe into the protein was examined in the presence of Co or Ru. In a system containing both Fe and Ru, Fe was exclusively incorporated into the protein. In contrast to this, the reaction products from a system containing both Fe and Co were found to consist of both Fe and Co derivatives at approximately equimolar quantity.
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PMID:Cobalt and ruthenium replacement for iron in adrenal iron-sulfur protein (adrenodoxin). Preparation and some properties. 23 19

The distribution of the urea cycle enzyme, argininosuccinate synthetase, in the rat brain was determined using immunohistochemistry. This enzyme participates in the only known metabolic pathway for citrulline, its condensation with aspartate to form argininosuccinate, which can then be cleaved to fumarate and arginine. It may thus provide a mechanism to recycle citrulline, formed in the nervous system via nitric oxide synthase activity, back to the nitric oxide precursor, L-arginine. Argininosuccinate synthetase immunoreactivity was detected in discrete populations of neurons throughout the brain. Double-staining with nicotinamide adenine dinucleotide phosphate (reduced form)-diaphorase histochemistry for the localization of nitric oxide synthase demonstrated that argininosuccinate synthetase coexists with nitric oxide synthase in some brain regions. However, many neurons were found that contained one of these two enzymes, but not the other. Thus some nitric oxide synthase-containing neurons appear able to recycle citrulline via argininosuccinate, while others do not. Additional roles for argininosuccinate synthetase in the brain are discussed.
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PMID:Immunohistochemical localization of argininosuccinate synthetase in the rat brain in relation to nitric oxide synthase-containing neurons. 128 10

The activity of ferredoxin: NADP+ reductase (FNR) was found to decline to approximately 20% maximal levels with little or no loss in enzyme levels when cultures of the cyanobacterium Anabaena variabilis were maintained in the stationary phase of growth. Re-activation of enzyme activity occurred when cells were diluted into either fresh or re-utilized media and illuminated. This reversible de-activation/re-activation process was found, in vivo, to be dependent on the intensity of light illuminating the cells. The de-activated form of FNR was purified to homogeneity and exhibited the same molecular mass, isoelectric-focusing pattern and N-terminal amino acid sequence as the native form. Both de-activated and native FNR preparations each exhibited three reactive thiol groups on denaturation in urea; however, the rate of reaction with Ellman's reagent was much faster with the de-activated form than with the native form. Both preparations contain a single disulphide bond. Upon reduction of the disulphide bond in either form of the enzyme, the five reactive thiol groups exhibited identical reactivities in the presence of urea. Steady-state kinetic analysis of the de-activated form showed a marked increase in Km values for NADPH in diaphorase assays and an increase in Km for ferredoxin in the ferredoxin-mediated reduction of cytochrome c. No significant difference in kcat. was observed in comparison of the de-activated with the native form in any of the above assays; however, the de-activated form did exhibit a lower kcat. value in the transhydrogenase assay. The de-activated form of FNR bound ferredoxin with a 16-fold lower affinity than the native enzyme. These data suggest that the de-activation of FNR in vivo in response to low light intensity involves an alteration in protein structure, possibly via an intramolecular thiol disulphide interchange, which influences the interaction of the enzyme with its substrates.
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PMID:Light-dependent de-activation/re-activation of Anabaena variabilis ferredoxin: NADP+ reductase. 190 89

The flavoprotein lipoamide dehydrogenase was purified, by an improved method, from commercial baker's yeast about 700-fold to apparent homogeneity with 50-80% yield. The enzyme had a specific activity of 730-900 U/mg (about twice the value of preparations described previously). The holoenzyme, but not the apoenzyme, possessed very high stability against proteolysis, heat, and urea treatment and could be reassociated, with fair yield, with the other components of yeast pyruvate dehydrogenase complex to give the active multienzyme complex. The apoenzyme was reactivated when incubated with FAD but not FMN. As other lipoamide dehydrogenases, the yeast enzyme was found to possess diaphorase activity catalysing the oxidation of NADH with various artificial electron acceptors. Km values were 0.48 mM for dihydrolipoamide and 0.15 mM for NAD. NADH was a competitive inhibitor with respect to NAD (Ki 31 microM). The native enzyme (Mr 117000) was composed of two apparently identical subunits (Mr 56000), each containing 0.96 FAD residues and one cystine bridge. The amino acid composition differed from bacterial and mammalian lipoamide dehydrogenases with respect to the content of Asx, Glx, Gly, Val, and Cys. The lipoamide dehydrogenases of baker's and brewer's yeast were immunologically identical but no cross-reaction with mammalian lipoamide dehydrogenases was found.
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PMID:Lipoamide dehydrogenase from baker's yeast. Improved purification and some molecular, kinetic, and immunochemical properties. 640 48

A membrane-associated b-type cytochrome (a proposed component in the neutrophil microbicidal superoxide generating system) has been partially purified from nonactivated beef granulocytes to a specific heme content of 20 nmol of heme/mg of protein, a value about 10-fold higher than those previously reported. The hemoprotein was solubilized at low temperature (4 degrees C) from mixed granule (30,000 X g) cell fractions using Triton X-114 detergent. Warming the extract to 25 degrees C allowed separation into detergent and aqueous phases; cytochrome b558 partitioned exclusively into the detergent phase, allowing separation from other visible-absorbing species (e.g. myeloperoxidase) and indicated an intrinsic membrane localization (Bordier, C. (1981) J. Biol. Chem. 256, 1604-1607). The partitioned cytochrome was chromatographed on hydroxylapatite and a hydrophobic affinity matrix, allowing a 185-fold (heme content) purification from the granule extract. The cytochrome preparation revealed three equal-staining protein bands by sodium dodecyl sulfate-urea polyacrylamide gel electrophoresis; apparent molecular weights were 14,000, 12,000, and 11,000. The question of heterogeneity of the preparation versus subunit structure is not resolved at present. The hemoprotein binds carbon monoxide, consistent with a proposed role as a terminal oxidase, and has an unusually negative oxidation-reduction potential (-225 mV) similar to that observed in granulocyte membranes. The preparation is devoid of NAD(P)H-diaphorase and cytochrome c reductase activities.
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PMID:Cytochrome b558 from (bovine) granulocytes. Partial purification from Triton X-114 extracts and properties of the isolated cytochrome. 643 85

Oxygen-insensitive nitrofuran reductase in Escherichia coli B/r was clearly resolved by DEAE-cellulose column chromatography into two components, one NADPH-linked, and the other both NADPH- and NADH-linked. It is known that the strain requires resistance to nitrofurazone in two mutational steps. It is known that the the first step mutants had no NADPH-linked component and the second step ones had neither this component nor the NAD(P)-H-linked one. The NADPH- and NADH-linked activities of the latter component were similarly inactivated by heat or urea treatment. In addition, it was found that these activities were significantly inhibited by dicoumarol, an NAD(P)H dehydrogenase inhibitor, to similar extents. These results suggest that the activities of the NAD(P)H-linked component originate from a single enzyme. On the other hand, the NADPH-linked component was less sensitive to heat, urea and dicoumarol.
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PMID:Studies on oxygen-insensitive nitrofuran reductase in Escherichia coli B/r. 702 44

The proton-translocating NADH-quinone oxidoreductase (NDH-1) of Paracoccus denitrificans is composed of at least 14 unlike subunits and contains one FMN and at least five EPR-detectable iron-sulfur clusters. The 14 subunits are designated NQO1 through NQO14. The expression and partial characterization of the NQO4, -5, and -6 subunits have been performed. The NQO4, -5, and -6 subunits were individually expressed in Escherichia coli. The NQO4 subunit was expressed in both the cytoplasmic phase and membrane fraction, the NQO5 subunit in the cytoplasmic phase only, and the NQO6 subunit in the membrane fraction only. The NQO4 and NQO5 subunits were purified from cytoplasmic phase. Neither subunit contains non-heme iron or acid-labile sulfide, suggesting that the NQO4 or NQO5 subunit is not an iron-sulfur subunit. The antibodies against the NQO4, -5, and -6 subunits cross-reacted with their counterpart subunits in bovine heart complex I. The NQO4, -5, and -6 subunits in membrane-bound P. denitrificans NDH-1 were extracted by treatment at alkaline pH ( > or = 10) or with chaotropes (NaBr, Nal, and urea), suggesting that these subunits are localized in the peripheral part (not in the membrane sector) of the enzyme complex similar to the NQO1, -2, and -3 subunits. In addition, the subunit stoichiometry of NQO1 through -6 of the membrane-bound P. denitrificans NDH-1 has been determined by radioimmunoassays. There is 1 mol each of the NQO1 through -6 subunits per mol of the P. denitrificans NDH-1.
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PMID:Structural studies of the proton-translocating NADH-quinone oxidoreductase (NDH-1) of Paracoccus denitrificans: identity, property, and stoichiometry of the peripheral subunits. 870 16

The proton-translocating NADH-quinone oxidoreductase (NDH-1) of Paracoccus denitrificans is composed of at least 14 subunits (NQO1-14) and is located in the cytoplasmic membrane. In the present study, topological properties and stoichiometry of the 7 subunits (NQO1-6 and NQO9) of the P. denitrificans NDH-1 in the membranes were investigated using immunological techniques. Treatments with chaotropic reagents (urea, NaI, or NaBr) or with alkaline buffer (pH 10-12) resulted in partial or complete extraction of all the subunits from the membranes. Of interest is that when NaBr or urea were used, the NQO6 and NQO9 subunits remained in the membranes, whereas the other subunits were completely extracted, suggesting their direct association with the membrane part of the enzyme complex. Both deletion study and homologous expression study of the NQO9 subunit provided a clue that its hydrophobic N-terminal stretch plays an important role in such an association. In light of this observation and others, topological properties of the subunits in the NDH-1 enzyme complex are discussed. In addition, determination of stoichiometry of the peripheral subunits of the P. denitrificans NDH-1 was completed by radioimmunological methods. All the peripheral subunits are present as one molecule each in the enzyme complex. These results estimated the total number of cofactors in the P. denitrificans NDH-1; the enzyme complex contains one molecule of FMN and up to eight iron-sulfur clusters, 2x[2Fe-2S] and 6x[4Fe-4S], provided that the NQO6 subunit bears one [4Fe-4S] cluster.
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PMID:H(+)-translocating NADH-quinone oxidoreductase (NDH-1) of Paracoccus denitrificans. Studies on topology and stoichiometry of the peripheral subunits. 1049 27

The nitric oxide cycle consists of nitric oxide synthase, argininosuccinate synthetase and argininosuccinate lyase to form nitric oxide. We have examined the colocalization of nitric oxide synthase and the cytosolic urea cycle enzymes (argininosuccinate synthetase, argininosuccinate lyase and arginase) in the accessory olfactory bulb of the rat by using a double labeling procedure combining reduced-nicotinamide-adenine-dinucleotide-phosphate-diaphorase (NADPH-d) reaction with fluorescent immunocytochemistry. Each glomerulus showed a different NADPH-d activity, and those with the strongest NADPH-d activities were assembled in the caudomedial part of the accessory olfactory bulb. Argininosuccinate synthetase-like immunoreactive glomeruli were distributed in the caudomedial part of the accessory olfactory bulb, and most of them were also strongly NADPH-d positive. The mitral or tufted cells were argininosuccinate synthetase-, argininosuccinate lyase- and arginase-like immunoreactive, but were not NADPH-d positive. The granule cells were NADPH-d positive or argininosuccinate lyase-like immunoreactive, but were not argininosuccinate synthetase- or arginase-like immunoreactive. Some granule cells were both NADPH-d positive and argininosuccinate lyase-like immunoreactive. The results indicate the heterogeneity of glomeruli of the accessory olfactory bulb with respect to the distribution of these enzymes. The granule cells have nitric oxide synthase and argininosuccinate lyase, and thus may efficiently produce nitric oxide.
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PMID:NADPH-diaphorase and cytosolic urea cycle enzymes in the rat accessory olfactory bulb. 1058 62

In an earlier communication, we have shown that Tephrosia purpurea ameliorates benzoyl peroxide-induced oxidative stress in murine skin (Saleem et al. 1999). The present study was designed to investigate a chemopreventive efficacy of T purpurea against N-diethylnitrosamine-initiated and potassium bromate-mediated oxidative stress and toxicity in rat kidney. A single intraperitoneal dose of N-diethylnitrosamine (200 mg/kg body weight) one hr prior to the dose of KBrO3 (125 mg/kg body weight) increases microsomal lipid peroxidation and the activity of xanthine oxidase and decreases the activities of renal antioxidant enzymes viz., catalase, glutathione peroxidase, glutathione reductase and glucose-6-phosphate dehydrogenase, phase II metabolizing enzymes such as glutathione-S-transferase and quinone reductase and causes depletion in the level of renal glutathione content. A sharp increase in blood urea nitrogen and serum creatinine has also been observed. Prophylactic treatment of rats with T. purpurea at doses of 5 mg/kg body weight and 10 mg/kg body weight prevented N-diethylnitrosamine-initiated and KBrO3 promoted renal oxidative stress and toxicity. The susceptibility of renal microsomal membrane for iron ascorbate-induced lipid peroxidation and xanthine oxidase activities were significantly reduced (P<0.01). The depleted levels of glutathione, the inhibited activities of antioxidant enzymes, phase II metabolizing enzymes and the enhanced levels of serum creatinine and blood urea nitrogen were recovered to a significant level (P<0.01). All the antioxidant enzymes were recovered dose-dependently. Our data indicate that T purpurea besides a skin antioxidant can be a potent chemopreventive agent against renal oxidative stress and carcinogenesis induced by N-diethylnitrosamine and KBrO3.
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PMID:Tephrosia purpurea ameliorates N-diethylnitrosamine and potassium bromate-mediated renal oxidative stress and toxicity in Wistar rats. 1145 68

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