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)

Nitrate reductase of Mitsuokella multiacidus (formerly Bacteroides multiacidus) was solublized from the membrane fraction with 1% sodium deoxycholate and purified 40-fold by immunoaffinity chromatography on the antibody-Affi-Gel 10 column. The preparation showed a major band (86% of total protein) with enzyme activity and a minor band on polyacrylamide gel after disc electrophoresis in the presence of 0.1% Triton X-100. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis gave a major band, the relative mobility of which corresponded to a molecular weight of 160,000, and two minor bands. The molecular weight of the enzyme was determined to be 160,000 by gel filtration on Bio-Gel A-1.5 m in the presence of 0.1% deoxycholate. Molybdenum cofactor was detected in the enzyme by fluorescence spectroscopy and by complementation of nitrate reductase from the nit-1 mutant of Neurospora crassa. The M. multiacidus enzyme catalyzed reduction of nitrate, chlorate, and bromate using methyl viologen as an electron donor. The maximal activity was found at pH 6.2-7.5 for nitrate reduction. Either methyl or benzyl viologen served well as the electron donor, but FAD, FMN, and horse heart cytochrome c were not effective. Ferredoxin from Clostridium pasteurianum supplied electron to the nitrate reductase. The purified enzyme had Km values of 0.13 mM, 0.12 mM, and 0.22 mM for nitrate, methyl viologen, and ferredoxin, respectively. The enzyme activity was inhibited by cyanide (85% at 1 mM), azide (88% at 0.1 mM), and thiocyanate (75% at 10 mM).
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PMID:Purification and properties of nitrate reductase from Mitsuokella multiacidus. 371 Oct 52

A two-step affinity chromatography procedure, using 2',5'-ADP-agarose and adrenodoxin-Sepharose 4B affinity supports, was used to purify mitochondrial ferredoxin:NADP+ oxidoreductase (EC 1.18.1.2, formerly EC 1.6.7.1) from pig kidney. The 450:270 nm absorbance ratio of the enzyme was 0.128, and it had a specific activity of 16,305 nmol/min/mg for the reduction of cytochrome c. The mitochondrial enzyme was a monomer which contained one molecule of FAD and had calculated molecular masses of 51,500 and 48,000 daltons when determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and high performance liquid chromatography gel exclusion chromatography, respectively. The porcine enzyme had a Km for NADPH of 0.94 microM and it expressed maximal activity when coupled with its homologous ferredoxin, although it was also active with the heterologous ferredoxin from bovine adrenal. The purified ferredoxin:NADP+ oxidoreductase supported the in vitro reduction of membrane-bound adrenal mitochondrial P-450, and it was demonstrated from immunologic studies that the enzyme shares some common epitopes with bovine adrenodoxin:NADP+ oxidoreductase.
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PMID:Isolation and characterization of pig kidney mitochondrial ferredoxin:NADP+ oxidoreductase. 374 5

NADPH-adrenodoxin oxidoreductase was titrated with NADPH under anaerobic conditions. As the amount of added NADPH was increased to a ratio to the reductase of 1 : 1, a broad absorbance band from approximately 500 to 900 nm, which is attributed to a charge transfer complex, increased and then sharply decreased after the 1 : 1 ratio was attained. Concomitant with the decrease in the charge transfer band, a peak at 575 nm with a shoulder at 635 nm increased, indicating the formation of a semiquinone. This showed clearly that a semiquinone was formed only when more than the stoichiometric amount of NADPH (It is meant by "the stoichiometric amount of NADPH" that the molar ratio of NADPH to adrenodoxin reductase is equal to one, that is, NADPH/FAD bound to the reductase = 1.) was added. The semiquinone band reached its maximum with an approximately 3-fold excess of NADPH over the reductase, and then gradually decreased. Concurrent with the decrease in absorbance of both the charge transfer complex and the semiquinone, the reaction mixture was bleached, indicating that a pale colored species was produced. 1H NMR studies suggested that the pale colored species was a complex of fully reduced adrenodoxin reductase and NADPH, and that the semiquinone also bound 1 mol of the pyridine nucleotide per mol of the reductase. These data suggest that the semiquinone state of the reductase is observable only when a complex between NADPH and the enzyme in the flavin semiquinone is formed.
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PMID:The semiquinone state of NADPH-adrenodoxin oxidoreductase in the course of anaerobic reduction with NADPH. 375 62

The kinetics of reduction of spinach ferredoxin (Fd), ferredoxin-NADP+ reductase (FNR), and the Fd-FNR complex have been investigated by the laser flash photolysis technique. 5-Deazariboflavin semiquinone (5-dRf), generated in situ by laser flash photolysis under anaerobic conditions, rapidly reduced both oxidized Fd (Fdox) (k = 2 X 10(8) M-1 s-1) and oxidized FNR (FNRox) (K = 6.3 X 10(8) M-1 s-1) at low ionic strength (10 mM) at pH 7.0, leading to the formation of reduced Fd (Fdred) and FNR semiquinone (FNR.), respectively. At higher ionic strengths (310 and 460 mM), the rate constant for the reduction of the free Fdox increased about 3-fold (k = 6.7 X 10(8) M-1 s-1 at 310 mM and 6.4 X 10(8) M-1 s-1 at 460 mM). No change in the second-order rate constant for reduction of the free FNRox was observed at high ionic strength. At low ionic strength (10 mM), 5-dRf. reacted only with the FAD center of the preformed 1:1 Fdox-FNRox complex (k = 5.6 X 10(8) M-1 s-1), leading to the formation of FNR.. No direct reduction of Fdox in the complex was observed. No change in the kinetics occurred in the presence of excess NADP+. The second-order rate constant for reduction of Fdox by 5-dRf. in the presence of a stoichiometric amount of fully reduced FNR at low ionic strength was 7 X 10(6) M-1 s-1, i.e., about one-thirtieth the rate constant for reduction of free Fdox.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Reduction kinetics of the ferredoxin-ferredoxin-NADP+ reductase complex: a laser flash photolysis study. 376 4

Resonance Raman spectroscopy has been used to study milk xanthine oxidase, an enzyme containing molybdenum, binuclear iron-sulfur clusters, and FAD as cofactors. The contribution of FAD dominates the resonance Raman spectrum at frequencies above 500 cm-1. As expected, no bands assignable to FAD are observed in deflavo xanthine oxidase. The resonance Raman spectrum below 500 cm-1 reveals the contribution of the Fe2S2(Cys)4 groups with frequencies similar to those of adrenodoxin and putidaredoxin. Resonance enhancement profiles of the Fe2S2(Cys)4 clusters indicate intensity variations among the Fe2S2(Cys)4 peaks that are attributed to different excitation wavelength maxima of their bridging and terminal iron-sulfur vibrations. No evidence for Mo-ligand vibrations could be obtained by using excitation wavelengths between 363.8 and 514.5 nm.
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PMID:Resonance Raman studies of the flavin and iron-sulfur centers of milk xanthine oxidase. 383 80

The intrinsic isotope effect on the reduction of the FAD-containing dehydrogenase electron transferase, adrenodoxin reductase, by (4S)-[2H]NADPH has been determined to be 7.1 to 7.7. The replacement of FAD by a series of FAD analogs at the active site of adrenodoxin reductase with oxidation-reduction potentials which vary over a range of 212 mV has made it possible to extrapolate to this limiting value from the variation in the observed isotope effect on Vmax with flavin midpoint potential. Stop-flow studies which allow the direct determination of the intrinsic isotope effect on the reductive half-reaction corroborate this result. During the steady state reduction of ferricyanide by the native enzyme under conditions of Vmax, this isotope effect is almost fully expressed (VH/VD = 6.7 to 6.8). In contrast, we observe a dramatic attenuation of the intrinsic isotope effect (due to hydride transfer to flavin) when the oxidative half-reaction is mediated by the natural acceptor protein, the 2Fe/2S ferredoxin, adrenodoxin. In a coupled three-protein system, the adrenodoxin-mediated reductions of both the artificial electron acceptor, cytochrome c, and the physiological electron acceptor, cytochrome P-450scc, by adrenodoxin reductase occur at similar rates and with similar kinetic isotope effects (1.9 to 2.0) when (4S)-[2H]NADPH is the reductant. We infer similar mechanisms for the reduction of both cytochromes. These results are in agreement with previous studies (Lambeth, J.D., and Kamin, H. (1979) J. Biol. Chem. 254, 2766-2774) which show that the reductive half-reaction is not solely rate-determining in adrenodoxin-mediated processes. The observation of a linear free energy relationship between Vmax and the flavin midpoint potential during steady state reduction of ferricyanide confirms that the reductive half-reaction is rate-determining in this assay. The relationship between Vmax and flavin midpoint potential in reactions which require adrenodoxin suggests that the midpoint potential of native adrenodoxin reductase has been optimized. Thus, the apoenzyme of adrenodoxin reductase tailors the midpoint potential of bound FAD in order to balance the activation energies of the reductive and oxidative half-reactions.
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PMID:Flavin analogs as mechanistic probes of adrenodoxin reductase-dependent electron transfer to the cholesterol side chain cleavage cytochrome P-450 of the adrenal cortex. 624 17

Methylenetetrahydrofolate reductase in Clostridium formicoaceticum has been purified to a specific activity of 140 mumol min-1 mg-1 when assayed at 37 degrees C, pH 7.2, in the direction of oxidation of 5-methyltetrahydrofolate with benzyl viologen as electron acceptor. The purified enzyme is judged to be homogeneous by polyacrylamide disc-gel electrophoresis and gel filtration. The enzyme which is an octamer has a molecular weight of about 237,000 and consists of four each of two different subunits having the molecular weights 26,000 and 35,000. The octameric enzyme contains per mol 15.2 +/- 0.3 iron, 2.3 +/- 0.2 zinc, 19.5 +/- 1.3 acid-labile sulfur, and 1.7 FAD. The UV-visible absorbance spectrum has a peak at 385 nm and a shoulder at 430 nm and is that of a flavoprotein containing iron-sulfur centers. The reductase, which is sensitive to oxygen, must be handled anaerobically and is stabilized by 2 mM dithionite. It catalyzes the reduction of methylene blue, menadione, benzyl viologen, rubredoxin, and FAD with 5-methyltetrahydrofolate and the oxidation of reduced ferredoxin and FADH2 with 5,10-methylenetetrahydrofolate. No activity was observed with pyridine nucleotides. It is suggested that the physiologically important reaction catalyzed by the enzyme is the reduced ferredoxin-dependent reduction of 5,10-methylenetetrahydrofolate to 5-methyltetrahydrofolate.
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PMID:Purification and properties of 5,10-methylenetetrahydrofolate reductase, an iron-sulfur flavoprotein from Clostridium formicoaceticum. 638 90

The amino acid sequence of ferredoxin-NADP+ oxidoreductase [EC 1.18.1.2, FNR] from Spirulina sp., a blue-green alga, was determined. Spirulina ferredoxin-NADP+ oxidoreductase was composed of 294 amino acid residues and the molecular weight of the holoenzyme was 34,135. An apparent homology of the amino(N)-terminal region was found between ferredoxin-NADP+ reductases from Spirulina and spinach. We also found some sequence similarities in human erythrocyte glutathione reductase and p-hydroxybenzoate hydroxylase from Pseudomonas fluorescens, both of which are NADPH-dependent FAD enzymes.
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PMID:Spirulina ferredoxin-NADP+ reductase. The complete amino acid sequence. 643 Aug 89

Diethyl pyrocarbonate inhibited diaphorase activity of ferredoxin-NADP+ oxidoreductase with a second-order rate constant of 2 mM-1 X min-1 at pH 7.0 and 20 degrees C, showing a concomitant increase in absorbance at 242 nm due to formation of carbethoxyhistidyl derivatives. Activity could be restored by hydroxylamine, and the pH curve of inactivation indicated the involvement of a residue having a pKa of 6.8. Derivatization of tyrosyl residues was also evident, although with no effect on the diaphorase activity. Both NADP+ and NADPH protected the enzyme against inactivation, suggesting that the modification occurred at or near the nucleotide binding domain. The reductase lost all of its diaphorase activity after about two histidine residues had been blocked by the reagent. In differential-labeling experiments with NADP+ as protective agent, it was shown that diaphorase inactivation resulted from blocking of only one histidyl residue per mole of enzyme. Modified reductase did not bind pyridine nucleotides. Modification of the flavoprotein in the presence of NADP+, i.e., with full preservation of diaphorase activity, resulted in a significant impairment of cytochrome c reductase activity, with a second-order rate constant for inactivation of about 0.5 mM-1 X min-1. Reversal by hydroxylamine and spectroscopic data indicated that this second residue was also a histidine. Ferredoxin afforded only slight protection against this inhibition. Conversely, carbethoxylation of the enzyme did not affect complex formation with the ferrosulfoprotein. Redox titration of the modified reductase with NADPH and with reduced ferredoxin suggested that the second histidine might be located in the electron pathway between FAD and ferredoxin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Essential histidyl residues of ferredoxin-NADP+ oxidoreductase revealed by diethyl pyrocarbonate inactivation. 668 70

Ferredoxin-dependent glutamate synthase (native enzyme) [EC 1.4.7.1] of spinach has been purified to homogeneity in the presence of 2-oxoglutarate and sodium chloride and the properties of the enzyme have been studied. The molecular weight of the enzyme was estimated to be 140,000 by gel filtration. Subunit analysis by SDS-gel electrophoresis yielded a single protein band whose molecular weight was about 170,000. This purified enzyme showed a flavo-protein-like absorption spectrum having maxima at 279 and 438 nm with shoulders at 415 and 460 nm and a broad band around 360 nm. Fluorometric data indicated the presence of 2 mol of flavin per mol of the enzyme. Preliminary paper chromatography results indicated the presence of FAD and FMN in the purified enzyme. The enzyme also contained 4 mol of acid-labile sulfide and 4 g-atoms iron per mol of enzyme. In the absence of 2-oxoglutarate and/or sodium chloride, the purified enzyme was separated by either DE-52 cellulose chromatography or gel filtration with Ultrogel AcA 34 into two molecular forms (modified enzymes) with considerable inactivation. When reduced methyl viologen plus ferredoxin was used as the electron donor, the purified (native) enzyme showed high ferredoxin-dependent activity with a specific activity of 100 units/mg protein. Methyl viologen-dependent activity was negligible in the absence of ferredoxin. Kinetic properties and results of ESR studies were described. The results indicate that ferredoxin-linked glutamate synthase of spinach leaves is an iron-sulfur flavoprotein.
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PMID:Flavin and iron-sulfur containing ferredoxin-linked glutamate synthase from spinach leaves. 674 4

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