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)

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

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

Carbon monoxide dehydrogenase from acetate-grown cells of Methanosarcina barkeri exists in a high molecular weight form (approximately 3 X 10(6)) under conditions of high ionic strength but is converted to a much smaller form by dialysis. The enzyme was purified by a procedure which exploits isolation of the aggregated form by gel filtration and subsequent dissociation. Following this, the enzyme was purified to within 92% of homogeneity by chromatography on phenyl-Sepharose and finally on hydroxylapatite. Due to the extreme oxygen lability of the enzyme, the entire procedure was carried out within the anaerobic laboratory at the National Institutes of Health. The enzyme has an alpha 2 beta 2 oligomeric structure composed of subunits with molecular weights of 19,700 and 84,500. The amino acid compositions of the individual subunits were determined. Analysis of the metal content by plasma emission spectroscopy indicated 1.3 +/- 0.3 (n = 4) nickel and 15.6 +/- 5.6 (n = 5) iron per mol of alpha 2 beta 2. The enzyme did not contain significant amounts of cobalt or molybdenum. Ferredoxin, FAD, FMN, 2,3,5-triphenyltetrazolium chloride, methyl viologen, and phenazine methosulfate served as electron acceptors; however, the enzyme failed to reduce NAD+, NADP+, or the 8-hydroxy-5-deazaflavin factor F420. The optimum pH was between 7 and 9. The apparent Km for methyl viologen was 7.1 mM, whereas the value for 2,3,5-triphenyltetrazolium chloride was below 0.5 mM. Strong inhibition was observed by oxygen and cyanide. Inactivation by glyoxaldehyde required enzymatic turnover which suggested that a reactive group was formed, or exposed, on an enzyme intermediate in catalysis. A high degree of thermostability was noted. Carbon monoxide, however, rendered the enzyme more susceptible to temperature inactivation.
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PMID:Carbon monoxide dehydrogenase from Methanosarcina barkeri. Disaggregation, purification, and physicochemical properties of the enzyme. 381 61

Beef liver and human erythrocyte catalases (EC 1.11.1.6) bind NADP tenaciously [Kirkman, H. N. & Gaetani, G. F. (1984) Proc. Natl. Acad. Sci. USA 81, 4343-4348]. The position of NADP on beef liver catalase corresponds to the carboxyl-terminal polypeptide hinge in Penicillium vitale fungal catalase, which connects the common catalase structure to the additional flavodoxin-like domain. In contrast to nearly all other known structures of protein-bound NADP, NAD, and FAD, the NADP molecule of beef liver catalase is folded into a right-handed helix and bound, in part, in the vicinity of the carboxyl end of two alpha-helices. A water molecule (W7) occupies a pseudosubstrate site close to the C4 position of the nicotinamide and is hydrogen bonded to His-304. Although the NADP and heme groups approach each other to within 13.7 A, there is no direct interaction. The function of the NADP remains a mystery.
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PMID:The NADPH binding site on beef liver catalase. 385 39

A flavin-containing monooxygenase has been purified to apparent homogeneity from lung microsomes of pregnant rabbits and characterized with respect to a number of physical and catalytic parameters. The apparent molecular weight, as determined on sodium dodecyl sulfate-polyacrylamide gel electrophoresis, was 59,000, and the lung microsomal flavoprotein was shown to contain 14 nmol of FAD/mg of protein. Addition of NADP+ to the oxidized flavoprotein produced a shift in the spectrum characteristic of the flavin-containing monooxygenase from porcine liver, and addition of small amounts of NADPH to the oxidized rabbit lung enzyme produced a stable spectral intermediate consistent with that of a 4a-peroxyflavin. Rabbit lung flavin-containing monooxygenase differed markedly from the porcine liver enzyme in exhibiting a broader pH optimum from 8.5-10.5, by not being inhibited by concentrations of sodium cholate as high as 1% and by withstanding, in the absence of NADPH, incubation at 45 degrees for at least 10 min with no significant loss of activity. Unlike the pig liver enzyme, purified rabbit lung enzyme was not activated by n-octylamine and, in fact, n-octylamine stimulated NADPH oxidation. A number of compounds known to be substrates of the pig liver enzyme, including benzphetamine, chlorpromazine, and imipramine, are not substrates for the rabbit lung enzyme, whereas prochlorperazine and trifluoperazine are excellent substrates. Antibodies to rabbit lung flavin-containing monooxygenase were raised in guinea pig and utilized for the immunoquantitation of this enzyme throughout gestation. The activity (as determined by N,N-dimethylaniline-N-oxidation) and amount of rabbit lung flavin-containing monooxygenase were maximally induced (5-fold) on the 28th day of gestation. Liver microsomes from rabbit did not contain any of the lung form of flavin-containing monooxygenase at any time during gestation, as evidenced by results from Western blotting. These results demonstrate that, at least in rabbit, flavin-containing monooxygenase can exist as more than a single form. The physiological significance of the induction of this enzyme during pregnancy is not known.
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PMID:Rabbit lung flavin-containing monooxygenase. Purification, characterization, and induction during pregnancy. 390 72

We examined the activity of heme synthesis when ferrochelatase purified from rat liver mitochondria was incubated with ferric chloride and mesoporphyrin IX as substrates in the absence of reducing reagents. In the presence of the NADH dehydrogenase-rich fraction and NAD(P)H, mesoheme was synthesized; the addition of FMN or FAD markedly enhanced the activity. These results indicate that the NAD(P) H-oxidizing system reduces ferric ion to ferrous ion. This ferrous ion is then utilized for heme synthesis by ferrochelatase. The effect of lead on NAD(P)H-dependent heme synthesis was also examined. Lead reduced NAD(P)H-dependent heme synthesis by 50% at 10(-5) M, but had no effect when ferrous ion was used as substrate. Zn-Porphyrin synthesis was not changed in the presence of Pb2+ at 10(-5) M. Thus, heme synthesis from ferric ion was more susceptible to Pb2+ than heme synthesis from ferrous ion.
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PMID:Reconstitution of heme-synthesizing activity from ferric ion and porphyrins, and the effect of lead on the activity. 393 55

Human glutathione reductase (NADPH + GSSG + H+ in equilibrium with NADP+ + 2 GSH) is a suitable enzyme for correlating spectroscopic properties and chemical reactivities of protein-bound FAD analogues with structural data. FAD, the prosthetic group of the enzyme, was replaced by FAD analogues, which were modified at the positions 8, 1, 2, 4, 5 and 6, respectively, of the isoalloxazine ring. When compared with a value of 100% for native glutathione reductase, the specific activities of most enzyme species ranged from 40% to 17%, in the order of the prosthetic groups 8-mercapto-FAD greater than 8-azido-FAD = 8-F-FAD = 8-C1-FAD greater than 4-thio-FAD = 1-deaza-FAD greater than 2-thio-FAD. The enzymic activities indicate a correct orientation of the bound analogues. The enzyme species containing 5-deaza-FAD and 6-OH-FAD, respectively, had no more glutathione reductase activity than the FAD-free apoenzyme. 5-Deaza-FAD X glutathione reductase was crystallized for X-ray diffraction analysis. Detailed studies were focussed on position 8 of the flavin. 8-Cl-FAD X glutathione reductase and 8-F-FAD X glutathione reductase reacted only poorly with HS- to give 8-mercapto-FAD X glutathione reductase, which suggests that the region around Val61 hinders the halogen anion from leaving the tetrahedral intermediate. Other experiments showed that position 8 is accessible to certain solvent-borne reagents. 8-Mercapto-FAD X glutathione reductase, for instance, reacted readily and stoichiometrically with the thiol reagent methylmethanethiosulfonate. 8-Mercapto-FAD X glutathione reductase does not exhibit a long wavelength charge transfer absorption band upon reduction, as it is the case for the 2-electron-reduced FAD-containing enzyme. This behaviour indicates that the charge transfer interaction between flavin and the thiolate of Cys63 in the native enzyme is not per se essential for catalysis. The absorption spectrum of the blue anionic 8-mercapto-FAD bound to glutathione reductase suggests that the protein concurs to the stabilization of a negative charge in the pyrimidine subnucleus. In light of the protein structure this effect is attributed to the dipole moment of alpha-helix 338-354 which starts out close to the N(1)/C(2)/O(2 alpha) region of the flavin. 1-Deaza-FAD binds as tightly as FAD to the apoenzyme. The resulting holoenzyme was found to be enzymically active but structurally unstable. In this respect 1-deaza-FAD . glutathione reductase mimics the properties of the enzyme species found in inborn glutathione reductase deficiency.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:FAD analogues as prosthetic groups of human glutathione reductase. Properties of the modified enzyme species and comparisons with the active site structure. 398 92

Covalent modification of glutathione reductase (GR) from yeast with 1-fluoro-2,4-dinitrobenzene (FDNB) inhibited the NADPH-GSSG reductase activity completely. This modification also decreased the NADPH-thio-NADP+ transhydrogenase activity, stimulated the NADPH-oxidase activity, and induced the NADPH-cytochrome c reductase activity. Spectrophotometric titration showed that one tyrosine residue per FAD was modified with a dinitrophenyl group. The modified enzyme showed conversion of the two-electron reduced form (EH2) to the four-electron reduced form (EH4) in anaerobic conditions and conversion of EH2 to the oxidized form (E) in aerobic conditions. These results indicate that the modification of one tyrosine residue of the active site induces the instability of EH2.
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PMID:Effect of dinitrophenyl modification on oxidation-reduction of glutathione reductase from yeast. 403 Jul 49

Acid nucleotide pyrophosphatase was isolated from the cell-free extracts of Pichia guilliermondii Wickerham ATCC 9058. The enzyme was 25-fold purified by saturation with ammonium sulphate, gel-filtration on Sephadex G-150 column and ion-exchange chromatography on DEAE-Sephadex A-50 column. The pH optimum was 5.9, temperature optimum--45 degrees C. The enzyme catalyzed the hydrolysis of FAD, NAD+ and NADH, displaying the highest activity with NAD+. The Km, values for FAD, NAD+ and NADH were 1.3 x 10(-5) and 2.9 x 10(-4) M, respectively. The hydrolysis of FAD was inhibited by AMP, ATP, GTP, NAD+ and NADP+. The K1 for AMP was 6.6 x 10(-5) M, for ATP--2.0 X 10(-5) M, for GTP--2.3 X 10(-6) M, for NAD+--1.7 X 10(-4) M. The molecular weight of the enzyme was 136 000 as estimated by gel-filtration on Sephadex G-150 and 142 000 as estimated by thin-layer gel-filtration chromatography on Sephadex G-200 (superfine). Protein-bound FAD of glucose oxidase was not hydrolyzed by acid nucleotide pyrophosphatase. The enzyme was stable at 2 degrees C in 0.05 M tris-maleate buffer, pH 6.2. Alkaline nucleotide pyrophosphatase hydrolyzing FAD was also detected in the cells of P. guilliermondii.
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PMID:[Purification and properties of the Pichia guilliermondii acid nucleotide pyrophosphatase hydrolyzing flavin adeninine dinucleotide]. 610 93

Alkaline nucleotide pyrophosphatase was isolated from the Pichia guilliermondii Wickerham ATCC 9058 cell-free extracts. The enzyme was 740-fold purified by saturation of ammonium sulphate, gel-chromatography on Sephadex G-150 and ion-exchange chromatography on DEAE-cellulose. Nucleotide pyrophosphatase is the most active at pH 8.3 and 49 degrees C. The enzyme catalyzes the hydrolysis of FAD, NAD+, NADH, NADPH, GTP. The Km value for FAD is 2.4 x 10(-4) M and for NAD+--5.7 x 10(-6) M. The hydrolysis of FAD was inhibited by NAD+, NADP+, ATP, AMP, GTP, PPi and Pi. The Ki for NAD+, AMP and Na4P2O7 was 1.7 x 10(-4) M, 1.1 x 10(-4) M and 5 x 10(-5) M, respectively. Metal chelating compounds, 8-oxyquinoline, o-phenanthroline and EDTA, inhibited completely the enzyme activity. The EDTA effect was irreversible. The molecular weight of the enzyme determined by gel-filtration on Sephadex G-150 and thin-layer gel-filtration chromatography was 78000 dalton. Protein-bound FAD of glucose oxidase is not hydrolyzed by the alkaline nucleotide pyrophosphatase. The enzyme is stable at 2 degrees C in 0.01 M tris-HCl-buffer (pH 7.5).
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PMID:[Purification and properties of Pichia guilliermondii yeast alkaline nucleotide pyrophosphatase hydrolyzing flavin adenine dinucleotide]. 611 Nov 46

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