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)

It has been shown that NAD(P)H dehydrogenase (EC 1.6.99.2) reduces vitamin K1 and can support the [vitamin K1 + NADH]-dependent carboxylation reaction in rat liver microsomes (Wallin, R., Gebhardt, O., and Prydz, H. (1978) Biochem. J. 169, 95-101). Antibodies were raised in rabbits against the purified enzyme from liver cytosol and used to study the importance of NAD(P)H dehydrogenase in the vitamin K-dependent carboxylation reaction. The antibodies neutralized the warfarin-sensitive NAD(P)H dehydrogenase activity in Triton X-100-solubilized microsomes; however, they neutralized only 45% of the total [vitamin K1 + NADH]-dependent carboxylation activity. Chromatography on protein A-sepharose showed that the remaining carboxylase activity was not the result of soluble antigen-antibody complexes. The data presented support the conclusion that the microsomal preparation also contains a non-warfarin-sensitive dehydrogenase(s) that, in addition to NAD(P)H dehydrogenase, can reduce vitamin K1 to support the carboxylation reaction.
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PMID:Vitamin K-dependent carboxylation. Evidence that at least two microsomal dehydrogenases reduce vitamin K1 to support carboxylation. 679 8

Passage of a Triton X-100-solubilized microsomal systems in vitro that are used to study these reactions is the warfarin-sensitive NAD(P)H dehydrogenase.
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PMID:Vitamin K-dependent carboxylation and vitamin K epoxidation. Evidence that the warfarin-sensitive microsomal NAD(P)H dehydrogenase reduces vitamin K1 in these reactions. 730 37

The activity of reduced nicotinamide adenine dinucleotide phosphate-diaphorase (NADPH-d) was examined histochemically in the rat cerebellar cortex at the light and electron microscopical level. Different staining patterns were observed depending on the technique used. Electron dense reaction product was seen on distinct membrane portions of the endoplasmic reticulum including the nuclear envelope in most of the neurons and in endothelial cells. Electron microscopically no activity staining was seen in glial cells, including Bergmann cells. The addition of the detergent Triton X-100, usually applied in the light microscopical diaphorase histochemistry, led to a striking diminution in membrane staining. In such preparations inspected electron microscopically formazan formed small granules which were evenly distributed over the cytoplasm.
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PMID:Localization of NADPH-diaphorase/nitric oxide synthase activity in the rat cerebellar cortex: a light and electron microscopical study. 753 9

A technique for NADH-diaphorase and glucose-6-phosphatase activity visualization at the light microscope level has been essentially modified by the use of a short pre-fixation of cryostat sections in a gluteraldehyde-containing fixative followed by a prolonged (18-20 h) incubation in the chilled (4-6 degrees C) standard media. Besides, for revealing NADH-diaphorase Triton X-100 is recommended to add to the incubation medium. The offered technical modifications secure a high staining intensity and specificity of both histochemical reactions tested without any substantial sophistication of the procedure.
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PMID:[Modernization of the methods for detecting NADH diaphorase and glucose-6-phosphatase at the light-optical level]. 949 May 15

We investigated the existence of an NADH-dependent paraquat (PQ) reduction system in rat liver mitochondria (Mt) in respect to the cytotoxic mechanisms of PQ. The outer membrane fractions, free from the contamination of inner membranes but with a few microsomes, catalyzed rotenone-insensitive NADH, but not NADPH, oxidation by menadione or PQ. Anti-NADH-cytochrome b5 reductase antibody and its inhibitor p-hydroxymercuribenzonate did not inhibit the NADH-PQ reduction activity. Therefore, the respiratory systems of the inner membranes and microsomal cytochrome P450 systems could not have been responsible for the reaction. Dicoumarol, an inhibitor of NAD(P)H-quinone oxidoreductase (NQO), dose dependently suppressed the NADH oxidation in the outer membrane via PQ as well as menadione, with I50 values of 190 (for menadione) and 150 microM (for PQ). Because of a lower sensitivity to NADPH and the higher doses of dicoumarol required for its inhibition, the activity in the outer membrane may be an "NADH-quinone oxidoreductase" which partly differs from the NQO previously reported. This outer membrane enzyme produced superoxide anions in the presence of both NADH and PQ and was too tightly membrane-bound to be extracted by Triton X-100 and deoxycholate. From these results, we concluded that the free radical-producing mitochondrial NADH-quinone oxidoreductase is a novel oxidation-reduction system participating in PQ toxicity. This is in good agreement with our previous results showing that PQ selectively damaged Mt in vivo and in vitro, resulting in cell death (K.-I. Hirai et al., 1992, Toxicology 72, 1-16).
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PMID:Mitochondrial NADH-quinone oxidoreductase of the outer membrane is responsible for paraquat cytotoxicity in rat livers. 950 Aug 51

The widely used NADPH-diaphorase reaction for demonstrating neuronal nitric oxide synthase is not as specific as previously thought, as it visualizes both a nitric oxide synthase-related activity and a nitric oxide synthase-unrelated diaphorase. In the present study, we used the rat olfactory bulb as a model to characterize the NADPH-diaphorase activity of neuronal nitric oxide synthase histochemically in comparison with neuronal nitric oxide-unrelated diaphorase activity. The NADPH-diaphorase activity of nitric oxide synthase peaked at pH 8 and at Triton X-100 concentrations of 1-2.5%. It was stable in an acidic environment but was reduced in the presence of Triton X-100 and was inactivated by the flavoprotein inhibitor, diphenyleneiodonium. It preferred beta-NADPH as the co-substrate to alpha-NADPH and alpha-NADH. In contrast, nitric oxide synthase-unrelated diaphorase peaked at pH 10, displayed a Triton X-100 optimum at a concentration of 1%, was unstable in an acidic environment and used beta-NADPH, alpha-NADPH and alpha-NADH to similar extents. Differences in the characteristics between neuronal nitric oxide synthase-related and nitric oxide synthase-unrelated NADPH-diaphorase can be used to increase the specificity of the histochemical nitric oxide synthase marker reaction.
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PMID:Histochemical differentiation between nitric oxide synthase-related and -unrelated diaphorase activity in the rat olfactory bulb. 953 6

The proton-translocating reduced nicotinamide adenine dinucleotide- (NADH-) quinone oxidoreductase (NDH-1) of Paracoccus denitrificans is composed of at least 14 different subunits (NQO1-14). In addition, this enzyme complex houses one flavin mononucleotide (FMN) and 7-8 iron-sulfur clusters as cofactors. The expression and partial characterization of the NQO7 subunit, one of the seven subunits that constitute the hydrophobic sector of the enzyme complex, have been performed and are reported here. Expression of the NQO7 subunit was achieved by use of the glutathione-S-transferase (GST) fusion system together with Escherichia coli strains BLR(DE3)pLysS and BL21(DE3)pLysS. The GST-fused NQO7 subunit was expressed in the membrane fraction of the host cells and was extracted from the membranes by nonionic detergents (Triton X-100, dodecyl maltoside). The extracted polypeptide was purified by glutathione affinity column chromatography and characterized. The isolated GST-fused NQO7 subunit (but not the GST alone) was determined to interact with phospholipid vesicles and suppress the membrane fluidity. Antibodies against both the N- and C-terminal regions of the deduced primary structure of the NQO7 subunit reacted with a single band (15 kDa) of the Paracoccus membranes. By use of immunochemical and cysteine residue modification techniques, the topology of the Paracoccus NQO7 subunit in the membranes has been examined. The data suggest that the Paracoccus NQO7 subunit contains three transmembrane segments and that its N- and C-terminal regions are directed toward the cytoplasmic and periplasmic phases of the membrane, respectively. The proposed topology of the GST-fused NQO7 subunit expressed in E. coli membranes is consistent with that of the NQO7 subunit in the Paracoccus membranes.
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PMID:Exploring the membrane domain of the reduced nicotinamide adenine dinucleotide-quinone oxidoreductase of Paracoccus denitrificans: characterization of the NQO7 subunit. 1092 36

Purpose: To clarify the function of ascorbate free radical (AFR) reductase in the lens antioxidation mechanism, we investigated the difference among species in AFR reductase activity in different vertebrate lenses.Materials and Methods: Soluble and insoluble fractions were prepared from the lenses of frogs, guinea pigs, rats, rabbits, pigs, and calves. AFR reductase and diaphorase activity of each fraction was determined.Results: AFR reductase activity in the lens soluble fraction was the highest in frogs. That of guinea pigs and rabbits was at the next level; there was only a little activity in rats and pigs, and none was detected in calves. Membrane-bound AFR reductase in the lens insoluble fraction was extracted by 0.3% Triton X-100. The membrane-bound enzyme activity was almost at the same level in frogs, rats, rabbits, and calves, and a little higher in guinea pigs and pigs. However, such species-specificity of AFR reductase activity as in the soluble fraction was not observed in 0.3% Triton X-100 extracts. Diaphorase activity was 3 to 9 times as much as AFR reductase activity in the soluble fractions of frogs, guinea pigs, and rabbits, but in 0.3% Triton X-100 extracts of all vertebrate species used, it was very high, 108 to 311 times the AFR reductase activity.Conclusion: These results suggest that the lens soluble and membrane-bound AFR reductases are individual enzyme molecules and have different anti-oxidative functions. The lenses of frogs, guinea pigs, and rabbits contain a near-ultraviolet (UV) light absorbing compound, reduced pyridine nucleotide at a high concentration. Therefore, the soluble AFR reductase activity may be high in the vertebrate lenses with a near-UV light filter, and enhance the antiphotoxidation of ascorbic acid.
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PMID:Ascorbate Free Radical Reductase Activity in Vertebrate Lenses of Some Species. 1109 3

Membranes prepared by low pressure disruption of cells exhibited no ATPase activity in the absence of Triton X-100, although 43% of the total menadione reductase activity was detected. Trypsin digestion reduced menadione reductase activity by 45% whereas ATPase activity was not affected. Disruption of the membrane fraction at higher pressure solubilized about 45% of the ATPase activity. The soluble activity was still enhanced by Triton X-100, suggesting that the detergent, besides disrupting membrane vesicles, also activated the ATPase. The discrepancy in localization of menadione reductase and ATPase activities raised questions regarding the reliability of using a single marker enzyme as an indicator of vesicle orientation.
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PMID:Trypsin digestion for determining orientation of ATPase in Halobacterium saccharovorum membrane vesicles. 1154 47

The catalytic properties of the rotenone-sensitive NADH:ubiquinone reductase (Complex I) in bovine heart submitochondrial particles and in inside-out vesicles derived from Paracoccus denitrificans and Rhodobacter capsulatus were compared. The prokaryotic enzymes catalyze the NADH oxidase and NADH:quinone reductase reactions with similar kinetic parameters as those for the mammalian Complex I, except for lower apparent affinities for the substrates--nucleotides. Unidirectional competitive inhibition of NADH oxidation by ADP-ribose, previously discovered for submitochondrial particles, was also evident for tightly coupled P. denitrificans vesicles, thus suggesting that a second, NAD(+)-specific site is present in the simpler prokaryotic enzyme. The inhibitor sensitivity of the forward and reverse electron transfer reactions was compared. In P. denitrificans and Bos taurus vesicles different sensitivities to rotenone and Triton X-100 for the forward and reverse electron transfer reactions were found. In bovine heart preparations, both reactions showed the same sensitivity to piericidin, and the inhibition was titrated as a straight line. In P. denitrificans, the forward and reverse reactions show different sensitivity to piericidin and the titrations of both activities were curvilinear with apparent I(50) (expressed as mole of inhibitor per mole of enzyme) independent of the enzyme concentration. This behavior is explained by a model involving two different sites rapidly interacting with piericidin within the hydrophobic phase.
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PMID:The mitochondrial and prokaryotic proton-translocating NADH:ubiquinone oxidoreductases: similarities and dissimilarities of the quinone-junction sites. 1467 May 98

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