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)

Alcohol oxidase was purified to homogeneity from membrane fractions obtained from alkane-grown Candida tropicalis. The enzyme appears to be a dimer of equal-sized subunits of Mr 70000. The purified enzyme is photosensitive and contains flavin-type material which is released by a combination of boiling and proteolytic digestion. The identity of the flavin material is not yet known, but it is not FMN, FAD or riboflavin. The enzyme is most active with dodecan-I-ol, but other long-chain alcohols are also attacked. The enzyme shows a weak, but significant activity towards long-chain aldehydes. Detailed kinetic studies with decan-1-ol as substrate suggest a group-transfer (Ping-Pong)-type mechanism of catalysis.
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PMID:Purification and some properties of alcohol oxidase from alkane-grown Candida tropicalis. 154 49

Microsomal P450s catalyze the monooxygenation of a large variety of hydrophobic compounds, including drugs, steroids, carcinogens, and fatty acids. The interaction of microsomal P450s with their electron transfer partner, NADPH-P450 reductase, during the transfer of electrons from NADPH to P450, for oxygen activation, may be important in regulating this enzyme system. Highly purified Bacillus megaterium P450BM-3 is catalytically self-sufficient and contains both the reductase and P450 domains on a single polypeptide chain of approximately 120,000 Da. The two domains of P450BM-3 appear to be analogous in their function and homologous in their sequence to the microsomal P450 system components. FAD, FMN, and heme residues are present in equimolar amounts in purified P450BM-3 and, therefore, this protein could potentially accept five electron equivalents per mole of enzyme during a reductive titration. The titration of P450BM-3 with sodium dithionite under a carbon monoxide atmosphere was complete with the addition of the expected five electron equivalents. The intermediate spectra indicate that the heme iron is reduced first, followed by the flavin residues. Titration of the protein with the physiological reductant, NADPH, also required approximately five electron equivalents when the reaction was performed under an atmosphere of carbon monoxide. Under an atmosphere of argon and in the absence of carbon monoxide, one of the flavin groups was reduced prior to the reduction of the heme group. The titration behavior of P450BM-3 with NADPH was surprising because no spectral changes characteristic of flavin semiquinone intermediates were observed. The results of the titration with NADPH can only be explained if (a) there was "rapid" intermolecular electron transfer between P450BM-3 molecules, (b) there is no kinetic barrier to the reduction of P450 by the one-electron-reduced form of the reductase, and (c) the "air-stable semiquinone" form of the reductase does not accumulate in this complex multidomain enzyme.
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PMID:P450BM-3: reduction by NADPH and sodium dithionite. 156 20

31P NMR spectroscopy has been utilized in conjunction with site-directed mutagenesis and phospholipid analysis to determine structural aspects of the prosthetic flavins, FAD and FMN, of NADPH-cytochrome P450 reductase. Comparisons are made among detergent-solubilized and protease (steapsin)-solubilized preparations of porcine liver reductases, showing unequivocally that the 31P NMR signals at approximately 0.0 ppm in the detergent-solubilized, hydrophobic form are attributable to phospholipids. By extraction and TLC analysis, the phospholipid contents of detergent-solubilized rat liver reductase, both tissue-purified and Escherichia coli-expressed, have been determined to reflect the membranes from which the enzyme was extracted. In addition, the cloned, wild-type NADPH-cytochrome P450 reductase exhibits an additional pair of signals downfield of the normal FAD pyrophosphate resonances reported by Otvos et al. [(1986) Biochemistry 25, 7220-7228], but these signals are not observed with tissue-purified or mutant enzyme preparations. The Tyr140----Asp140 mutant, which exhibits only 20% of wild-type activity, displays no gross changes in 31P NMR spectra. However, the Tyr178----Asp178 mutant, which has no catalytic activity and does not bind FMN, exhibits no FMN 31P NMR signal and a normal, but low intensity, pair of signals for FAD. The latter experiments, taking advantage of mutations in residues putatively on either side of the FMN isoalloxazine ring, suggest subtle to severe changes in the binding of the flavin prosthetic groups and, perhaps, cooperative interactions of flavin binding to NADPH-cytochrome P450 reductase.
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PMID:31P NMR spectroscopic studies on purified, native and cloned, expressed forms of NADPH-cytochrome P450 reductase. 156 69

Ferredoxin-glutamate synthase from the unicellular cyanobacterium Synechococcus sp. PCC 6301 has been purified using, as main steps, ethanol fractionation in the presence of high ionic strength, ion-exchange chromatography and ferredoxin-Sepharose affinity chromatography. The overall process yielded an homogeneous enzyme with a specific activity of 30 U/mg protein, after a purification of 2800-fold with a recovery of 43%. The molecular mass of the native protein was 156 kDa, as calculated from its Stokes radius (rS, 4.32 nm) and sedimentation coefficient (S20,w, 8.46 S). The size was also estimated by SDS/PAGE as 160 kDa, indicating that the native protein was a monomer. The enzyme exhibited absorption maxima at 279, 370 and 438 nm and a A279/A438 absorbance ratio of 11. One molecule of FMN, but not FAD, was found/molecule native protein. The addition of dithionite resulted in the loss of the absorption peak at 438 nm, which was restored by the addition of 2-oxoglutarate, thus indicating that the prosthetic group is functional in catalysis. Classical hyperbolic kinetics with substrate inhibition was seen for 2-oxoglutarate. The Km values determined for glutamine and ferredoxin were 0.7 mM and 7 microM, respectively, and the apparent Km for 2-oxoglutarate was estimated to be 1.7 mM. Azaserine and 6-diazo-5-oxo-L-norleucine were potent inhibitors of the activity, while pyridoxal 5-phosphate, known to react with Lys residues, partially inactivated the enzyme. This ferredoxin-dependent glutamate synthase is, as far as we know, the first purified from prokaryotic organisms and resembles its counterpart from chloroplasts, suggesting that cyanobacterial glutamate synthase may have been the ancestor of ferredoxin-glutamate synthase in plants.
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PMID:Purification and characterization of the ferredoxin-glutamate synthase from the unicellular cyanobacterium Synechococcus sp. PCC 6301. 158 84

Exposure of riboflavin and its coenzymes adenine dinucleotide (FAD) and riboflavin-5'-phosphate (FMN) to UV and visible light results in the generation of radicals and photodegradative products that can damage surrounding macromolecules. Vertebrates and invertebrates have lost the ability to synthesize riboflavin and must obtain it or its coenzymes from food. The present study evaluated the relationship between FAD, FMN, and riboflavin concentrations in retina and blood of male Sprague-Dawley rats. Rations were provided in the form of purified diets containing 0, 3, 6, 30, and 300 mg riboflavin kg-1 diet. Analysis of flavins by HPLC showed that saturation levels of FAD, FMN and riboflavin in the retina and blood were achieved with diets containing 3 mg riboflavin kg-1. Retinal flavins were not significantly elevated by further increases in dietary riboflavin concentration, but an unidentified flavin appeared in the blood of rats given rations containing concentrations above 3 mg kg-1. The concentration of this unknown flavin varied in proportion to the level of dietary riboflavin.
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PMID:Flavin levels in the rat retina. 162 45

Xanthine oxidase from milk was reconstituted with the photoreactive flavin, 6-azido-FAD. While irradiation of the reconstituted enzyme under anaerobic conditions yielded 6-amino-FAD as a light product, aerobic irradiation resulted in formation of an unknown product, which gave the enzyme almost the same activity as that of the native enzyme. The light product could be extracted from the enzyme without breakdown and was found to be highly fluorescent. Upon treatment with phosphodiesterase, this light product was converted to the FMN form. The absorption spectrum of the FMN form has a peak at 464 nm, a shoulder at 450 nm in the visible region, and two peaks at 260 and 298 nm in the UV. Irradiation of free 6-azido-3-methyllumiflavin in the presence of a saturating concentration of oxygen yielded a light product whose absorbance and fluorescence spectra were very similar to those of the light product extracted from the enzyme, suggesting that the two had undergone some common photochemical change at the same place in the isoalloxazine ring. Analysis of the light product of 6-azido-3-methyllumiflavin with 1H NMR and FAB mass spectrometry suggested its possible structure with a new five-membered ring, C(6) = N-O-CH = C(7), adjacent to the benzene ring of the flavin.
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PMID:Light product of photoreactive 6-azido-FAD bound to deflavo-milk xanthine oxidase. 162 69

Membrane-bound NADPH oxidase of pig blood neutrophils was solubilized with heptylthioglucoside in a high yield. The solubilized preparation from myristate-stimulated cells (sample S) showed high O2- generating activity, and the preparation from resting cells (sample R) had no activity, but the two samples had equal amounts of flavins and cytochrome b-558 (cyt b-558). The electron transfer reactions to exogenous cytochrome c (cyt c) or cyt b-558 in samples S and R were examined. Under anaerobic conditions, NADPH-dependent cyt c reductase activity appeared higher in sample S than in sample R, and the addition of FMN and FAD greatly enhanced the reductase activity of sample S, but not that of sample R. No marked difference between the reductase activities of samples S and R was seen with NADH. Photoreduction of the NADPH oxidase system was examined in the absence of NADPH under anaerobic conditions by monitoring the reduction rates of exogenous cyt c using a flashlight with cut-off filters between 400 and 500 nm. Cyt c reduction was much higher in sample S than in sample R on photoexcitation at about 450 nm. Photoreduction was carried out with a band-pass filter for selective irradiation at 450 nm. Marked reduction of exogenous cyt c was observed only in sample S: the small reduction of cyt c by sample R was independent of the light wavelength and was equal to the blank level. In contrast, no difference in the reduction of cyt b-558 by the two samples was found by either NADPH or photoreduction. Under aerobic conditions, no direct reduction of either cyt c or cyt b-558 was observed. These results suggest that an NADPH-cyt c reductase (a membrane-bound flavoprotein) is involved in the NADPH oxidase system of stimulated neutrophils.
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PMID:Electron transfer reactions in the NADPH oxidase system of neutrophils--involvement of an NADPH-cytochrome c reductase in the oxidase system. 165 5

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

The cofactor requirements of macrophage nitric oxide (NO.) synthase suggest involvement of an NADPH-dependent flavoprotein. This prompted us to test the effect of the flavoprotein inhibitors diphenyleneiodonium (DPI), di-2-thienyliodonium (DTI), and iodoniumdiphenyl (ID) on the NO. synthases of macrophages and endothelium. DPI, DTI, and ID completely inhibited NO. synthesis by mouse macrophages, their lysates, and partially purified macrophage NO. synthase. Inhibition of NO. synthase by these agents was potent (IC50's 50-150 nM), irreversible, dependent on time and temperature, and independent of enzyme catalysis. The inhibition by DPI was blocked by NADPH, NADP+, or 2'5'-ADP, but not by NADH. Likewise, FAD or FMN, but not riboflavin or adenosine 5-diphosphoribose, protected NO. synthase from inhibition by DPI. Neither NADPH nor FAD reacted with DPI. Once NO. synthase was inhibited by DPI, neither NADPH nor FAD could restore its activity. DPI also inhibited acetylcholine-induced relaxation of norepinephrine-preconstricted rabbit aortic rings (IC50 300 nM). Inhibition of acetylcholine-induced relaxation persisted for at least 2 h after DPI was washed out. In contrast, DPI had no effect on norepinephrine-induced vasoconstriction itself nor on vasorelaxation induced by the NO.-generating agent sodium nitroprusside. These results suggest that NO. synthesis in both macrophages and endothelial cells depends on an NADPH-utilizing flavoprotein. As a new class of NO. synthase inhibitors, DPI and its analogs are likely to prove useful in analyzing the physiologic and pathophysiologic roles of NO(.).
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PMID:Inhibition of macrophage and endothelial cell nitric oxide synthase by diphenyleneiodonium and its analogs. 170 74

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