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

Ferredoxin-NADP reductase from Euglena gracilis Klebs var. Bacillaris Cori purified to apparent homogeneity, yields a typical 36 kDa and an unusual 15 kDa polypeptide on sodium dodecyl sulfate-polyacrylamide gel electrophoresis, exhibits a typical flavoprotein spectrum, contains FAD, and catalyzes NADPH-dependent iodonitrotetrazolium-violet diaphorase, NADPH-specific ferredoxin-dependent cytochrome-c-550 reductase and NADPH-NAD transhydrogenase activities. Rabbit antibody to the purified FNR blocks these activities specifically and also blocks the iodonitrotetrazolium-violet diaphorase activity of Euglena chloroplast completely. The low iodonitrotetrazolium-violet diaphorase activity in the plastidless mutant, W10BSmL, is mitochondrial and is not specifically blocked by the ferredoxin-NADP reductase antibody. Dark-grown non-dividing (resting) wild-type Euglena cells show a 4-fold increase in ferredoxin-NADP reductase activity during greening at 970 lx. Half of the low ferredoxin-NADP reductase activity in dark-grown cells is initially soluble, but by the end of chloroplast development nearly all of the enzyme is membrane-bound. The binding of ferredoxin-NADP reductase on exposure to light correlates with the extent of thylakoid membrane formation. Immunoblots of wild-type extracts during greening indicate that the 15 kDa polypeptide increases in the same manner as the extent of reductase binding to thylakoid membranes.
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PMID:Purification, properties, and cellular localization of Euglena ferredoxin-NADP reductase. 312 Jul 72

The isolation and characterization of ferredoxin-NADP+ -oxidoreductase from Anabaena variabilis, a nitrogen-fixing, filamentous cyanobacterium, is described. Purified enzyme was obtained in four steps with a 55% yield and 300-fold purification utilizing chromatographic separations on DEAE-cellulose and Cibacron Blue-Sepharose columns. The enzyme is quite similar but not identical to the spinach enzyme as judged by isoelectric focusing, molecular weight determination, and amino acid composition. N-terminal sequence analysis allowed identification of 28 of the first 33 residues. Alignment with the corresponding sequences from spinach and Spirulina FNR preparations was possible. A higher degree of homology was found with the Spirulina enzyme than with the spinach enzyme. Small differences with the spinach enzyme were also shown by absorption and circular dichroism spectral measurements. Oxidation-reduction potential measurements of the bound FAD coenzyme show an Em = -320 mV at pH 7 for the two-electron process. Complex formation between the reductase and ferredoxin from the same organism was observed by difference absorption spectroscopy with a Kd = 4 microM. Similar Kd and difference absorption properties were observed on complex formation with spinach ferredoxin.
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PMID:Purification and properties of ferredoxin-NADP+ oxidoreductase from the nitrogen-fixing cyanobacteria Anabaena variabilis. 312 46

Time-resolved absorption spectra of the FAD-containing enzyme mercuric reductase were recorded during the catalytic reaction at 25 degrees C, pH 7.3. With an excess of NADPH over Hg2+ there was a rapid (k = 43 s-1) initial formation of a spectral species similar to that previously assigned to an NADPH complex of two-electron-reduced enzyme, EH2-NADPH. This spectrum persisted during the quasisteady-state phase of the reaction suggesting that EH2-NADPH is a true catalytic intermediate and that the rate of catalysis is limited by the oxidation of EH2-NADPH by Hg2+. Also with an excess of Hg2+ over NADPH a spectrum similar to that of EH2-NADPH was rapidly formed. As the NADPH was exhausted, the spectrum of oxidized enzyme, E, did not reappear but rather a spectrum similar to that previously assigned to an NADP+ complex of two-electron-reduced enzyme, EH2-NADP+. These results suggest that EH2-HADP+ cannot rapidly reduce the Hg2+ substrate. However, eventually all reducing equivalents from NADPH added to oxidized, activated enzyme are utilized for the reduction of Hg2+. A mechanism model is proposed that does not involve the free, oxidized enzyme in the catalytic cycle.
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PMID:Rapid-scan stopped-flow studies of the flavoenzyme mercuric reductase during catalytic turnover. 312 94

CO oxidoreductase was purified to 95% homogeneity from crude mycelial extracts of Streptomyces G26. The purified preparation has a specific activity of 25.7 units/mg, a 13-fold improvement on crude soluble mycelial extracts. The native enzyme (Mr 282,000) is composed of non-identical subunits of Mr 110,000 and 33,000. It is a molybdenum hydroxylase containing 1.6 mol of FAD, 7.3 mol of Fe, 8.3 mol of acid-labile sulphide and 1.3 mol of Mo per mol of enzyme. Purified CO oxidoreductase catalyses the reduction of benzyl viologen, confirming the previously reported ability of this enzyme to interact with low-potential acceptors. Cytochrome c reduction cannot be accounted for entirely by non-enzymic reduction by superoxide radicals. NAD+ and NADP+ are not reduced, nor is clostridial ferredoxin.
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PMID:CO oxidoreductase from Streptomyces strain G26 is a molybdenum hydroxylase. 335 39

A second form of the NADPH-flavin reductase with an isoelectric point of 6.1 was purified to homogeneity from human erythrocytes. The enzyme showed NADPH-specific flavin reductase activity when FAD, FMN or riboflavin was used as an electron acceptor. Analyses of the amino acid compositions and immunological reactivities of the enzyme and the other flavin reductase with an isoelectric point of 8.1 revealed that the proteins of these two enzymes are indistinguishable to each other. Tightly bound NADP+, which was reducible by a NADPH-generating system, was specifically found in the second form of the enzyme.
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PMID:Characterization of a second form of NADPH-flavin reductase purified from human erythrocytes. 345 80

The conformation of L-3-hydroxyacyl-CoA dehydrogenase (EC 1.1.1.35) has been derived from electron-density maps calculated at 2.8-A resolution with phases obtained from two heavy-atom derivatives and the bound coenzyme, NAD. Like other dehydrogenases, 3-hydroxyacyl-CoA dehydrogenase is a double-domain structure, but the bilobal nature of this enzyme is more pronounced than has been previously observed. The amino-terminal domain, which comprises approximately the first 200 residues, is responsible for binding the NAD cofactor and displays considerable structural homology with the dinucleotide binding domains observed in other NAD-, NADP-, and FAD-dependent enzymes. The carboxyl-terminal domain, comprising the remaining 107 residues, appears to be all alpha-helical and bears little homology to other known dehydrogenases. The subunit-subunit interface in the 3-hydroxyacyl-CoA dehydrogenase dimer is formed almost exclusively by residues in the smaller helical domain. A difference map between the apo and holo forms of the crystalline enzyme has been interpreted in terms of the NAD molecule being bound in a typically extended conformation. The location of the coenzyme binding site, along with the structural homology to other dehydrogenases, makes it possible to speculate about the location of the binding site for the fatty acyl-CoA substrate.
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PMID:Structure of L-3-hydroxyacyl-coenzyme A dehydrogenase: preliminary chain tracing at 2.8-A resolution. 347 90

Isolation and identification of a soil bacterium, Arthrobacter Cr-7, that grows with pyridoxine as a sole source of carbon and nitrogen are described. An inducible pyridoxine 5'-dehydrogenase (oxidase) (EC 1.1.99.9) that catalyzes conversion of pyridoxine to isopyridoxal, Pyridoxine + X----isopyridoxal + XH2, the first step in utilization of pyridoxine as a growth substrate by this organism, was purified about 520-fold to homogeneity. The enzyme (Mr = 112,000) is a dimer of probably identical subunits and requires FAD (KD(app) = 0.24 microM) as coenzyme. It oxidizes only pyridoxine (Km = 0.18 mM) and a few related compounds (4-deoxypyridoxine, pyridoxamine, pyridoxal) that contain a free 5-CH2OH group and utilizes oxygen (Km = 0.28 mM), 2,6-dichloroindophenol, or quinones, but not NAD+ or NADP+, as hydrogen acceptors (X in reaction above). With pyridoxine and oxygen as substrates, the enzyme has a broad pH optimum (from pH 7.0 to 8.3), a Vmax of 11.9 mumol X min-1 X mg-1, and a turnover number of 22 s-1 at 25 degrees C. The enzyme is strongly inhibited by sulfhydryl reagents. Except for its substrate specificity, these properties do not differ greatly from those of other flavin-dependent oxidases.
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PMID:Enzymes of vitamin B6 degradation. Purification and properties of pyridoxine 5'-dehydrogenase (oxidase). 353 35

The reactions of NADPH oxidation by quinones and inorganic complexes catalyzed by NADPH: adrenodoxin reductase were studied. The catalytic constant for the enzyme at pH 7.0 is 20-25 s-1; the oxidative constants for the quinones vary from 5 X 10(5) to 1.1 X 10(3) M-1 s-1 and show an increase with a rise in the one-electron acceptor reduction potential. The mode of adrenodoxin reductase interaction with oxyquinones differs from that of the enzyme interaction with alkyl-substituted quinones and inorganic complexes. NADPH competitively inhibits electron acceptors, whereas NADP+ is a competitive inhibitor of NADPH and a uncompetitive inhibitor of electron acceptors. (Ki = 25 microM). The depth of FAD incorporation into the enzyme molecule as calculated according to the outer sphere electron transfer theory is 6.1 A.
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PMID:[Kinetics of adrenodoxin reductase oxidation by non-physiologic electron acceptors]. 359 93

The nucleotide sequence of the 6-hydroxy-D-nicotine oxidase (6-HDNO) gene of Arthrobacter oxidans is presented. This covalently flavinylated enzyme specifically oxidizes 6-hydroxy-D-nicotine to 6-hydroxy-N-methylmyosmine. Coinduced in the presence of nicotine is a 6-hydroxy-L-nicotine-specific enzyme, 6-hydroxy-L-nicotine oxidase (6-HLNO), with FAD noncovalently bound to the apoprotein. A comparison of the nucleotide-derived amino acid sequence of the 6-HDNO with the amino acid sequence data obtained from the purified 6-HLNO polypeptide suggests that the two enantiozymes expressed within the same cell are genetically unrelated. This conclusion is supported by the finding that the FAD-binding sites of the two enzymes are different. 6-HLNO exhibits at the amino-terminus of the polypeptide chain a dinucleotide-binding site characteristic for many other FAD- and NAD(P)-dependent enzymes. No such sequence was found in the nucleotide-derived amino acid sequence of 6-HDNO.
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PMID:6-Hydroxy-D-nicotine oxidase of Arthrobacter oxidans. Gene structure of the flavoenzyme and its relationship to 6-hydroxy-L-nicotine oxidase. 362 16

1. The alpha-hydroxylation of [1-14C]phytanic acid was investigated in the postnuclear fraction of rat liver. 2. The reaction required ATP, Mg, Fe3+ and molecular oxygen. Fe3+ could be replaced by Fe2+. 3. The hydroxylase activity was optimal at pH 7.5 in phosphate buffer. 4. The activity increased with postnuclear protein (5-13 mg or protein), increased with the substrate concentration at low substrate concentration. 5. The amount of the hydroxyacid formed increased with time up to 10 min. 6. Coenzyme A (100 microM-2.5 mM) stimulated the activity. 7. The activity was further stimulated by NADP and NADPH slightly and by FAD and FMN strongly, all at 100 microM concentration. 8. While CO inhibited the reaction, phenobarbital inducible cytochrome P-450 did not appear to play a role in this reaction.
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PMID:Phytanic acid alpha oxidation in rat liver: studies on alpha hydroxylation. 362 98


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