EC:1.6.99.3 - FACTA Search

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Query: EC:1.6.99.3 (diaphorase)
5,903 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The chemical and enzymatic pathways of vitamin K1 epoxide and quinone reduction have been investigated. The reduction of the epoxide by thiols is known to involve a thiol-adduct and a hydroxy vitamin K enolate intermediate which eliminates water to yield the quinone. Sodium borohydride treatment resulted in carbonyl reduction generating relatively stable compounds that did not proceed to quinone in the presence of base. NAD(P)H:quinone oxidoreductase (DT-diaphorase, E.C. 1.6.99.2) reduction of vitamin K to the hydroquinone was a significant process in intact microsomes, but 1/5th the rate of the dithiothreitol (DTT)-dependent reduction. No evidence was found for DT-diaphorase catalyzed reduction of vitamin K1 epoxide, nor was it capable of mediating transfer of electrons from NADH to the microsomal epoxide reducing enzyme. Purified diaphorase reduced detergent- solubilized vitamin K1 10(-5) as rapidly as it reduced dichlorophenylindophenol (DCPIP). Reduction of 10 microM vitamin K1 by 200 microM NADH was not inhibited by 10 microM dicoumarol, whereas DCPIP reduction was fully inhibited. In contrast to vitamin K3 (menadione), vitamin K1 (phylloquinone) did not stimulate microsomal NADPH consumption in the presence or absence of dicoumarol. DTT-dependent vitamin K epoxide reduction and vitamin K reduction were shown to be mutually inhibitory reactions, suggesting that both occur at the same enzymatic site. On this basis, a mechanism for reduction of the quinone by thiols is proposed. Both the DTT-dependent reduction of vitamin K1 epoxide and quinone, and the reduction of DCPIP by purified DT-diaphorase were inhibited by dicoumarol, warfarin, lapachol, and sulphaquinoxaline.
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PMID:Vitamin K1 2,3-epoxide and quinone reduction: mechanism and inhibition. 211 31

A flavin-linked NADPH cytochrome c oxido-reductase of molecular mass 77-kDa was extracted from membranes of rabbit peritoneal neutrophils and purified in the presence of Triton X-100. The redox properties of this enzyme were examined. By some criteria including its high sensitivity to mersalyl, and its relatively high specificity for NADPH compared to NADH, the rabbit neutrophil NADPH cytochrome c reductase resembled NADPH-cytochrome P-450 reductase. Limited proteolysis generated water soluble fragments, with molecular masses of 67-kDa and 57-kDa, which were still endowed with a substantial reductase activity. When added to a lysate of neutrophil membranes in octylglucoside, in the presence of an oxidase activation medium consisting of rabbit neutrophil cytosol, GTP-gamma-S, arachidonic acid and Mg2+, the purified reductase enhanced the production of O2-., suggesting that it forms part of the O2-. generating oxidase.
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PMID:Properties of the NADPH dehydrogenase component of the oxidase complex from rabbit peritoneal neutrophils: reconstitution of an oxidase activity with the dehydrogenase component and a membrane extract. 215 16

The isolated and water-soluble complex of subunits I and II (core proteins) of ubiquinone:cytochrome c reductase from Neurospora mitochondria forms filaments below pH 6.0. Three independent helical reconstructions of single filaments were compared with the 3-D reconstruction of the native enzyme. A model for the helix is proposed in which the core complex dimers are arranged radially with the face which is proximal to the membrane in the native enzyme on the outside of the helix. The dimension of the core complex dimer perpendicular to the helix axis (70 A) provides an independent estimate of the height of the core complex to that obtained previously from cytochrome reductase crystals. The results of STEM mass measurement and the helical model give a mass per repeating unit of 90 kDa, which would indicate that the monomeric core complex consists of one 45-kDa and one 50-kDa subunit.
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PMID:Electron microscopic characterization of helical filaments formed by subunits I and II (core proteins) of ubiquinol: cytochrome c reductase from Neurospora mitochondria. 216 25

Mitochondria isolated from minute amounts (100-500 mg) of human skeletal muscle displayed a very high rotenone-resistant NADH cytochrome c reductase activity. Moreover, compared to succinate cytochrome c reductase activity, a low rate of rotenone-sensitive NADH cytochrome c reductase activity was measured when using standard procedures to disrupt mitochondrial membranes. Only a drastic osmotic shock in distillated water as a mean to disrupt mitochondrial membrane was found to strongly increase the actual rate of the rotenone-sensitive activity. This was accompanied by a decrease in the rotenone-insensitive activity. Using such a simple procedure, the NADH cytochrome c reductase was found 70-80% inhibited by rotenone and roughly equivalent to 70-85% of the activity of the succinate cytochrome c reductase.
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PMID:The measurement of the rotenone-sensitive NADH cytochrome c reductase activity in mitochondria isolated from minute amount of human skeletal muscle. 225 18

An enzymatic assay method for the determination of urinary formic acid is described. Formic acid in urine was cleaved to carbon dioxide and water by formic acid dehydrogenase, whereby NAD+ was converted to NADH, which reacted with INT (p-iodonitrotetrazolium violet) in the presence of NAD-diaphorase. The color thus produced was determined at 500 nm. In addition, a simple gas chromatographic method of urinary formic acid is described, in which head space gas of formic acid methylester was applied into the wide bore column. The urinary formic acid concentrations by the enzymatic method agreed well with that by the gas chromatographic method. A simple gas chromatographic method for urinary methanol assay is also described. Acetonitrile was added to an equal volume of urine containing methanol. After centrifugation, the supernatant was injected into gas chromatography (GC). The peaks of urinary methanol and ethanol were separated by GC. Formic acid and methanol in urine of unexposed healthy subjects and workers exposed to methanol were analyzed by the colorimetric and gas chromatographic methods. Geometric mean concentrations of urinary formic acid and methanol in the healthy subjects were 7.82 mg/g creatinine and 1.34 mg/l, respectively. The concentration ratio of formic acid to methanol in the urine of the workers exposed to methanol was calculated to be 3.67 +/- 2.10, which agreed with the ratio under a controlled exposure experiment. A slower excretion of formic acid than that of methanol in the urine of a volunteer was also observed.
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PMID:Enzymatic assay of formic acid and gas chromatography of methanol for urinary biological monitoring of exposure to methanol. 234 46

Carcinomas of the ethmoidal region of the nose are observed relatively frequently in cattle in several countries in tropical and subtropical latitudes. Viruses have been implicated as causative agents, but it has been observed that affected animals sometimes suffer from aflatoxicosis, and a role of aflatoxin B1 (AFB1) in the aetiology has also been proposed. We have examined whether the bovine nasal olfactory mucosa has a capacity to metabolize AFB1. The contents of cytochrome P-450 and cytochrome b5, and the NADPH cytochrome c reductase activity in the nasal olfactory mucosa have also been determined. Comparative experiments have been performed with the liver. Incubations with 3H-labelled AFB1 showed that the nasal olfactory mucosa has a much higher capacity than the liver to form lipid-soluble, water-soluble and tissue-bound AFB1-metabolites. High-resolution microautoradiography showed a strong localization of tissue-bound metabolites in the sustentacular cells in the apical portion of the olfactory surface epithelium and in Bowman's glands in the olfactory lamina propria mucosae. Especially in the sustentacular cells the labelling was preferentially located in the nuclei of the cells. Liquid chromatography of chloroform extracts of the nasal olfactory mucosa and the liver incubated with 3H-AFB1 showed formation of several metabolites. The dominating peak in both tissues was aflatoxin M1 (AFM1). However, the amount of AFM1 was higher in the nasal olfactory mucosa than in the liver, and the amounts and proportions of several other metabolites also differed markedly between the two tissues. The level of cytochrome P-450 in the nasal olfactory mucosa was found to be about one quarter of that in the liver, but the NADPH cytochrome c reductase activity was much higher in the nasal olfactory mucosa than in the liver. In addition, the cytochrome b5: cytochrome P-450 ratio was higher in the nasal olfactory mucosa than in the liver. The higher metabolism of AFB1 in the nasal olfactory mucosa than in the liver may be related to differences in the cytochrome P-450 isoenzyme profile. In addition, the microsomal electron transport to cytochrome P-450 may be facilitated by the high reductase: cytochrome P-450 ratio and the high cytochrome b5: cytochrome P-450 ratio in the nasal olfactory mucosa.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Metabolism of aflatoxin B1 in the bovine olfactory mucosa. 249

Bloodstream forms of Trypanosoma brucei brucei (EATRO 110) were cultured with 100 microM difluoromethylornithine (DFMO). After 48 hr, intracellular putrescine was depleted and cells were positive when histochemically stained for the mitochondrial marker enzyme, NAD diaphorase, and exhibited mitochondrial proliferation and cristae development when examined by electron microscopy. This suggested that the mitochondrion was undergoing the physiological transformation necessary for successful transmission of the bloodstream form to the vector, namely the initiation of development of a TCA cycle and cytochrome system. The short stumpy forms that appeared by day 4 of culture, although physiologically transformed, were not viable in so far as they were not capable of transforming to procyclic trypomastigotes when introduced into SDM-79 medium. When rats infected with T. b. brucei were given 4% (w/v) DFMO in their drinking water, they were cured within 72 hr. Trypanosomes removed from animals and stained for NAD diaphorase showed mitochondrial transformation, as well as an intermediate and short stumpy morphology, at 36 and 60 hr, respectively. Data from this study on the growth and transformation characteristics of the DFMO induced intermediate and short stumpy form trypanosomes supports the observation that the intermediate form, and not the short stumpy form, is able to successfully transform to procyclic trypomastigotes.
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PMID:Physiological activation of the mitochondrion and the transformation capacity of DFMO induced intermediate and short stumpy bloodstream form trypanosomes. 249 2

The inhibition of NADH dehydrogenase by 1-methyl-4-phenylpyridinium (MPP+) leading to ATP depletion has been proposed to explain cell death in the expression of the neurotoxicity of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP). Electron paramagnetic resonance studies show no effect of MPP+ on the reduction of the iron-sulfur clusters of NADH dehydrogenase. Mitochondria inhibited by MPP+ were sonicated and both the NADH oxidase and the NADH-Q reductase activities were measured. NADH oxidase activity was not fully restored to control levels, but NADH-Q reductase activity was the same as that of the control. Neither succinate-oxidase nor succinate-Q reductase activities were inhibited. These data indicate that MPP+ interaction with NADH dehydrogenase interferes with the passage of electrons from the iron-sulfur cluster of highest potential to endogenous Q10 but that the inhibition can be relieved by the addition of a small, water-soluble Q analog. Inhibition at this site is sufficient to explain the inhibition of respiration and no inhibition of other mitochondrial functions was observed.
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PMID:The inhibition site of MPP+, the neurotoxic bioactivation product of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine is near the Q-binding site of NADH dehydrogenase. 282 83

We have devised a method to determine the true Km of membrane enzymes for hydrophobic substrates dissolved in lipid bilayers, and the lipid/water partition coefficients, by simple steady-state kinetic measurements at varying membrane phospholipid fractional volumes in the assay medium. The method has been applied to mitochondrial ubiquinol cytochrome c reductase, using short-chain ubiquinols as reductants at saturating cytochrome c. The partition coefficients of the quinols, as obtained by this method, are in good agreement with those determined directly by other procedures; Km values obtained by this method, when expressed as concentrations in the lipid bilayer, are in the millimolar range. The kinetics of the ubiquinol analog duroquinol are independent of phospholipid concentration, as expected from its partition coefficient close to unity.
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PMID:A simple method for the determination of the kinetic constants of membrane enzymes utilizing hydrophobic substrates: ubiquinol cytochrome c reductase. 282 62

The steady-state kinetics of ubiquinol cytochrome c reductase was investigated in submitochondrial particles using ubiquinol-1 as electron donor in media of increasing viscosities obtained by water-polyethylene glycol mixtures. The minimum association rate constant, kmin = kcat/km, for cytochrome c was strongly viscosity dependent, whereas kmin for ubiquinol-1 was only weakly affected by viscosity. It is concluded that the interaction of cytochrome c with the membranous reductase is largely under diffusion control, whereas the oxidation of ubiquinol by the enzyme is not significantly controlled by diffusion in either the aqueous medium or the membrane. The results are compatible with the presence of a diffusion limited step in cytochrome c but not in ubiquinone in mitochondrial electron transfer.
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PMID:Diffusional effects in the steady state kinetics of ubiquinol cytochrome c reductase in bovine heart submitochondrial particles. 284 65

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