KEGG:D02011 - FACTA Search

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Query: KEGG:D02011 (FAD)
5,530 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

2-Nitropropane dioxygenase, purified to homogeneity from Hansenula mrakii (IFO 0895), has a molecular weight of approximately 62,000 and consists of two subunits nonidentical in molecular weight (39,000 and 25,000). Stoichiometrical studies and the results obtained with 18O2 showed that 2 atoms of molecular oxygen are incorporated into 2 molecules of acetone formed from 2-nitropropane. In addition to 2-nitropropane, nitroethane, 3-nitro-2-pentanol, and 1-nitropropane are oxidatively dentrified. The enzyme, which exhibits absorption maxima at 274, 370, 415, and 440 nm and a shoulder at 470 nm, contains 1 mol of FAD and 1 g atom of non-heme iron per mol of enzyme. The enzyme-bound FAD is reduced by 2-nitropropane under anaerogic conditions, but the enzyme-bound Fe3+ is not affected. The introduction of oxygen to the reduced form of enzyme causes reoxidation of the enzyme. The bound FAD and Fe3+ are reduced by the addition of nitromethane, which is not a substrate, under anaerobic conditions. The aerobic dialysis of the enzyme treated with nitromethane causes reoxidation of only the Fe2+. Sodium dithionite also reduces both the enzyme-bound FAD and Fe3+ under anaerobic conditions. When the enzyme is dialyzed against 10 mM potassium phosphate buffer (pH 7.0) immediately after reduction by dithionite, the absorption spectrum similar to that of the native enzyme appeared with concomitant restoration of approximately 80% of the activity. The enzyme activity is significantly inhibited by pyrocatechol-3,5-disulfonate disodium salt, 8-hydroxyquinoline, reducing agents such as 2-mercaptoethanol, and HgCl2. The Michaelis constants are as follows: 2-nitropropane (2.13 X 10(-2) M), nitroethane (2.43 X 10(-2) M), 3-nitro-2-pentanol (6.8 X 10(-3) M), 1-nitropropane (2.56 X 10(-2) M), and oxygen (3.03 X 10(-4) M, with 2-nitropropane).
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PMID:A new oxygenase, 2-nitropropane dioxygenase of Hansenula mrakii. Enzymologic and spectrophotometric properties. 1 Dec 14

Glutathione reductase (NAD(P)h:oxidized glutathione oxidoreductase, EC 1.6.4.2) has been purified 1000-fold from the cytoplasmic fraction of human platelets. Salts, including the heretofore unreported effect of sodium citrate, activate the NADPH-dependent reduction of oxidized glutathione. Sodium citrate and monovalent salt activation appears to involve multiple sites having different binding affinities. At sub-saturating sodium phosphate, non-linear double reciprocal plots indicative of substrate activation by oxidized glutathione were observed. Initial velocity double reciprocal plots at sub-saturating and saturating concentrations of phosphate generate a family of converging lines. NADP+ is a partial inhibitor, indicating that the reduction of oxidized glutathione can proceed by more than one pathway. FMN, FAD, and riboflavin inhibit platelet glutathione reductase by influencing only the V while nitrofurantoin inhibition is associated with an increase Koxidized glutathione and a decreased V.
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PMID:Characterization of human platelet glutathione reductase. 3 11

Significant dissociation of FMN from NADPH:cytochrome P-450 reductase resulted in loss of the activity for reduction of cytochrome b5 as well as cytochrome c and cytochrome P-450. However, the ability to reduce these electron acceptors was greatly restored upon incubation of FMN-depleted enzyme with added FMN. The reductions of cytochrome c and detergent-solubilized cytochrome b5 by NADPH:cytochrome P-450 reductase were greatly increased in the presence of high concentrations of KCl, although the stimulatory effect of the salt on cytochrome P-450 reduction was less significant. No apparent effect of superoxide dismutase could be seen on the rate or extent of cytochrome reduction in solutions containing high-salt concentrations. Complex formation of the flavoprotein with cytochrome c, which is known to be involved in the mechanism of non-physiological electron transfer, caused a perturbation in the absorption spectrum in the Soret-band region of cytochrome c, and its magnitude was enhanced by addition of KCl. Similarly, an appreciable increase in ellipticity in the Soret band of cytochrome c was observed upon binding with the flavoprotein. However, only small changes were found in absorption and circular dichroism spectra for the complex of NADPH:cytochrome P-450 reductase with either cytochrome b5 or cytochrome P-450. It is suggested that the high-salt concentration allows closer contact between the heme and flavin prosthetic groups through hydrophobic-hydrophobic interactions rather than electrostatic-charge pairing between the flavoprotein and the cytochrome which causes a faster rate of electron transfer. Neither alterations in the chemical shift nor in the line width of the bound FMN and FAD phosphate resonances were observed upon complex formation of NADPH:cytochrome P-450 reductase with the cytochrome.
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PMID:Effect of KCl on the interactions between NADPH:cytochrome P-450 reductase and either cytochrome c, cytochrome b5 or cytochrome P-450 in octyl glucoside micelles. 131 30

A high-abundance NADH-oxidizing enzyme (NADH: acceptor oxidoreductase, EC 1.6.99.3) has been identified and isolated from a range of anaerobic extreme thermophiles, including strains of Clostridium thermohydrosulfuricum and Thermoanaerobium brockii. By use of a pseudo-affinity salt-promoted adsorbent, a nearly pure sample was obtained in one step; remaining impurities were separated by ion-exchange. The fully active purified enzyme contains FAD (two molecules per subunit of 75-78 kDa) and iron-sulphur, and is hexameric in its most active form. The reaction with oxygen is a one- or two-electron transfer to produce superoxide radical and H2O2; other acceptors include tetrazolium salts, dichlorophenol-indophenol, menadione and ferricyanide. The role of the enzyme is not clear; it was found not to be NAD:ferredoxin oxidoreductase, which is a major NADH-utilizing enzyme in these organisms.
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PMID:A thermostable NADH oxidase from anaerobic extreme thermophiles. 159 37

8-Thiocyanatoflavins at the riboflavin, FMN, and FAD level were prepared via the diazonium salt of the corresponding 8-aminoflavin and some of the physical and chemical properties studied. 8-Thiocyanatoriboflavin has a UV-visible spectrum similar to that of the native flavin with absorbance maxima at 446 nm (epsilon = 14,900 M-1 cm-1) and 360 nm. Reaction with thiols such as dithiothreitol and mercaptoethanol gives rise to an 8-mercapto- and an 8-SR-flavin, whereas reaction with sulfide yields only the 8-mercaptoflavin. The 8-SCN-flavin binds to riboflavin-binding protein as the riboflavin derivative, to apoflavodoxin, apo-Old Yellow Enzyme, and apo-lactate oxidase as the FMN derivative, and to apo-D-amino acid oxidase, apo-p-hydroxybenzoate hydroxylase, apo-glucose oxidase, apo-anthranilate hydroxylase, and apo-general acyl-CoA dehydrogenase as the FAD derivative. In two cases, namely, with anthranilate hydroxylase and D-amino acid oxidase, the 8-SCN-FAD was spontaneously and completely converted to the 8-mercapto-FAD derivative, suggesting the presence of a nucleophile (most likely the thiol of a cysteine residue) in the vicinity of the 8-position. It was also found that flavodoxin stabilizes the neutral radical and Old Yellow Enzyme the anionic radical of 8-SCN-FMN. Further studies with Old Yellow Enzyme, established that fully (two electron) reduced 8-SCN-FMN undergoes photoelimination of cyanide.
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PMID:8-thiocyanatoflavins as active-site probes for flavoproteins. 167 Sep 91

Methylenetetrahydromethanopterin reductase from metanogenic archaebacteria catalyzes the reversible reduction of N5,N10-methylenetetrahydromethanopterin to N5-methyltetrahydromethanopterin with reduced coenzyme F420 as electron donor. The enzyme is involved in methane formation from CO2 and in methanol disproportionation to CO2 and CH4. We report here that the reductase from Methanobacterium thermoautotrophicum specifically binds to Blue Sepharose CL-6B. Binding was competitive with coenzyme F420 rather than with NAD, NADP, FAD, FMN, AMP, ADP and ATP. The reductase could also be desorbed with salt. Based on this property an affinity chromatographic procedure for the purification of the enzyme was developed.
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PMID:Single step purification of methylenetetrahydromethanopterin reductase from Methanobacterium thermoautotrophicum by specific binding to blue sepharose CL-6B. 169 53

2,4-Pentadienoyl-CoA reductase from Clostridium aminovalericum was purified to homogeneity (170-182 kDa). PAGE in the presence of SDS revealed a single band (44 kDa) indicating a homotetrameric structure. The native enzyme had a green colour and contained 0.4 mol FAD/subunit. Its unusual ultraviolet/visible-spectrum showed absorption maxima at 270, 402 and 715 nm as well as shoulders at 278, 360, 450 and 500 nm. Removal of the prosthetic group at pH 2 in the presence of salt and charcoal yielded a colourless and completely inactive apoenzyme, which could be reconstituted with FAD (not with FMN) to an active holoenzyme showing a normal flavoprotein spectrum (peaks at 369 nm and 436 nm). Thereby the FAD content increased to 0.9 mol/subunit with a concomitant rise in activity to 200% of the original value. Anaerobic reduction of the green enzyme by dithionite and reoxidation by air afforded a green preparation with a spectrum similar to that of the native enzyme. Addition of excess FAD to the green reductase also increased the activity by a factor of two. The green enzyme catalysed the oxidation of (E)-3-pentenoyl-CoA or (E)-3-hexenoyl-CoA to 2,4-pentadienoyl-CoA or 2,4-hexenoyl-CoA, respectively. 2-Pentenoyl-CoA or 4-pentenoyl-CoA were not oxidised. Meldola blue (8-dimethylamino-2,3-benzophenoxazine) and 2-(4-iodophenyl)-3-(4-nitrophenyl)-5-phenyltetrazolium chloride (V = 26 nkat/mg protein) or ferricenium hexafluorophosphate (V = 1900 nkat/mg), but not NAD(P), served as electron acceptors. Reduction of 2,4-pentadienoyl-CoA (V = 370 nkat/mg) was observed with reduced benzyl viologen, but not with NAD(P)H as an electron donor. Although the enzyme had some pentenoyl-CoA delta-isomerase activity (1.2 nkat/mg), the only product of the reduction was 3-pentenoyl-CoA rather than 2-pentenoyl-CoA.
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PMID:A green 2,4-pentadienoyl-CoA reductase from Clostridium aminovalericum. 204 Feb 89

Highly active superoxide (O2-)-forming NADPH oxidase was extracted from plasmamembranes of phorbol-12-myristate-13-acetate-activated pig neutrophils and was partially purified by gel filtration chromatography. Oxidase activity copurified with cytochrome b-245 in an aggregate containing phospholipids and was almost completely separated from FAD and NAD(P)H-cytochrome c reductase. A polypeptide with molecular weight of 31,500 strictly paralleled the purification of NADPH oxidase, suggesting that it is a major component of the enzyme. The enzyme complex was then dissociated by high detergent and salt concentration and cytochrome b-245 was isolated by a further gel filtration chromatography, with a 147 fold purification with respect to the initial preparation. The cytochrome b-245 showed a 31,500 molecular weight by SDS electrophoresis, indicating that it is actually the component previously identified in the partially purified enzyme. The 31,500 protein was phosphorylated in enzyme preparations from activated but not from resting neutrophils, suggesting that phosphorylation of cytochrome b-245 is involved in the activation mechanism of the O2(-) -forming enzyme responsible for the respiratory burst in phagocytes.
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PMID:Studies on the nature and activation of O2(-)-forming NADPH oxidase of leukocytes. Identification of a phosphorylated component of the active enzyme. 285 Feb 66

D-Amino acid oxidase (EC 1.4.3.3) has been purified from the yeast Trigonopsis variabilis by the application of ion-exchange chromatography on DEAE-cellulose, salt precipitation, gel filtration, and hydroxyapatite adsorption. Alternatively the last two steps can be substituted by a single fast protein liquid chromatographic ion-exchange step (Mono Q). The enzyme appeared homogeneous in PAGE, but small amounts of impurities (not exceeding 5% of total protein) appeared in sodium dodecyl sulfate (SDS)-PAGE. Its Mr in SDS-PAGE is 39,000; it exhibits an isoelectric point of 4.8 and contains 7% (w/v) covalently bound carbohydrate. Its absorption spectrum is similar to hog kidney D-amino acid oxidase, indicating the presence of bound FAD, which, however, could not be separated from the enzyme under non-denaturing conditions. The enzyme is inhibited by SH-oxidizing agents, but not by metal-chelate formers and not by benzoate or toluene. It uses O2 exclusively as the only H acceptor. Km and Vmax values were determined for 15 D-amino acids, which, among 23 tested, were substrates of the enzyme. The enzyme has highest affinity for D-phenylalanine and D-leucine, but maximal activity is obtained with D-citrulline and D-isoleucine. The specific activity of the purified preparation is even higher than that of the commercially available hog kidney enzyme (21.7 vs 16 U/mg). The yeast enzyme may be a useful analytical and preparative tool in view of the difference between its substrate specificity and that of the hog enzyme.
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PMID:D-amino acid oxidase from the yeast Trigonopsis variabilis. 286 42

gamma-Glutamylcysteine and bis-gamma-glutamylcystine reductase appear to function in the halobacteria in a fashion analogous to GSH and glutathione reductase in other cells. Bis-gamma-glutamylcystine reductase (GCR), a NADPH-dependent dimer of Mr 122,000 recently purified to homogeneity from Halobacterium halobium (Sundquist, A.R., and Fahey, R.C. (1988) J. Bacteriol., 170, 3459-3467), was found to be highly specific for bis-gamma-glutamylcystine and to be present in cell extract at a level sufficient to maintain gamma-glutamylcysteine predominantly in its thiol form [( thiol]/[disulfide] approximately 50). Bis-gamma-glutamylcystine reductase is similar to glutathione reductase in many respects; GCR demonstrated a FAD:subunit stoichiometry of 1, inhibition by heavy metal ions, and a pH optimum near neutrality. However, GCR exhibited no activity with GSSG and was most active at salt levels exceeding 2 M. A turnover number of 1,700 mumol min-1 mumol-1 FAD and apparent Km values of 0.8 mM for bis-gamma-glutamylcystine and 0.29 mM for NADPH were determined for GCR. The effect of salt on the autoxidation rates of gamma-glutamylcysteine, GSH, and Cys was also studied. In the absence of added salt, Cys oxidized more rapidly than gamma-glutamylcysteine, which in turn oxidized more rapidly than GSH. The presence of 4.3 M chloride (K+ and Na+) significantly slowed the autoxidation of all three thiols. The rate of autoxidation of gamma-glutamylcysteine in 4.3 M chloride proved slower than that of GSH in the absence of added chloride. Thus, gamma-glutamylcysteine is at least as stable under halophilic conditions as GSH is under nonhalophilic conditions, explaining why halobacteria utilize gamma-glutamylcysteine rather than GSH.
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PMID:The function of gamma-glutamylcysteine and bis-gamma-glutamylcystine reductase in Halobacterium halobium. 291 Aug 62

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