Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

The enzymatic conversion of phytol to phytanic acid was investigated in rat liver postnuclear and other subcellular fractions using [1-3H]phytol as the substrate. The assay method involved incubation of the substrate with appropriate cofactors and the enzyme source, followed by subjecting the mixture to Folch partition and measuring the radioactivity in the upper layer. The phytol-phytanate conversion activity was present in mitochondrial and microsomal fractions. Cytosol had no activity. In mitochondrial fraction, investigation of cofactor requirements indicated that only NAD was required for activity. Other pyridine nucleotides supported the activity to a lesser extent when compared with NAD. FAD at 1 mM concentration did not support the activity. Bovine serum albumin (0.4 mg/ml) stimulated the activity. The reaction did not require molecular oxygen. From substrate kinetic studies, an apparent Km of 14.3 and 11.1 microM was calculated for phytol in mitochondrial and microsomal fractions, respectively. The amount of tritiated water produced from incubation increased linearly up to 7-8 min. The activity was linear with the amount of mitochondrial and microsomal protein up to 200 and 40 micrograms, respectively. Among the various rat tissue homogenates tested, liver had the highest activity. Spleen and kidney had 8-9% of the activity of liver. Brain possessed negligible activity. Both ethanol and pyrazole had no inhibitory effect on phytol-phytanate conversion. This observation and the absence of activity in cytosol suggests that alcohol dehydrogenase may not be involved in phytol-phytanate conversion.
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PMID:Characterization of phytol-phytanate conversion activity in rat liver. 373 Apr 26

Several inhibitors of the FAD-containing monooxygenase (FAD-MO) system from rat liver microsomes (imipramine, chlorpromazine, mercaptoethylamine, dithiothreitol, naphthylthiourea, phenylthiocarbamide) and one inhibitor of the liver microsomal cytochrome P-450 (P-450)-mediated biotransformations (SKF 525 A), were tested as possible inhibitors of monomethylhydrazine (MMH) biotransformation to CO2 and to reactive metabolites that bind covalently to nucleic acids and proteins. Results confirm previous suggestions that both FAD-MO and P-450 are involved in MMH metabolism to CO2 and suggest a similar participation of both systems for production of reactive metabolites interacting with macromolecules.
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PMID:Effect of inhibitors of the FAD-containing monooxygenase system from rat liver microsomes on monomethylhydrazine metabolism and activation to reactive metabolites. 374 Nov 47

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

Microsomal NADPH-cytochrome c (P-450) reductase and cytochrome P-450 were purified from the livers of phenobarbitone-treated rats. Purified NADPH-cytochrome c (P-450) reductase effected the NADPH-dependent reduction of FMN and FAD under anaerobic conditions in a non-enzymic manner, but was unable to reduce directly the azo dye, amaranth. In the presence of FMN, the purified reductase effected reduction of amaranth through the production of reduced FMN. Incorporation of NADPH-cytochrome c (P-450) reductase into the microsomal fraction increased the azoreductase activity of liver preparations from phenobarbitone-treated rats, but had no effect on azoreductase activity in preparations from control animals. Azoreductase activity was reconstituted into dilauroyl phosphatidylcholine vesicles containing purified cytochrome P-450 and purified NADPH-cytochrome c (P-450) reductase. In the absence of supplementary FMN, amaranth reduction was completely dependent upon all three components, but in the presence of FMN, the omission of any one component failed to abolish completely azoreductase activity.
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PMID:Solubilisation, purification and reconstitution of hepatic microsomal azoreductase activity. 391 38

A cytosolic flavoprotein enzyme for the protozoan, Trypanosoma cruzi, has been purified essentially to homogeneity by DEAE-cellulose and 2',5'-ADP-agarose column chromatography. The native enzyme has a molecular weight of 100,000 +/- 6,000, is composed of two identical subunits of molecular weight 52,000 +/- 1,000, and contains FAD in the ratio of 1 mol of FAD per mol of enzyme subunit. The enzyme is NADPH-dependent and is capable of reducing cytochrome c, ferricyanide, 2,6-dichloroindophenol, and menadione, but not adrenalin. It does not hydroxylate either sodium salicylate or sodium p-hydroxybenzoate, but N-methylaniline and N,N-dimethylaminobenzaldehyde-supported oxidation of NADPH has been demonstrated. Plots of initial velocity against NADPH concentration give hyperbolic curves with Km values of 6.289 X 10(-5) M. The enzyme is clearly different from the microsomal NADPH-cytochrome c reductase in its intracellular distribution, molecular weight, dimeric nature, presence of only FAD, and activity against secondary and tertiary aromatic amines.
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PMID:A cytosolic FAD-containing enzyme catalyzing cytochrome c reduction in Trypanosoma cruzi. I. Purification and some properties. 392 33

The mechanism of electron transfer from NADPH to cytochrome P-450 through FAD and FMN of the reductase is largely unknown. In this paper, we report the resonance Raman spectral properties of the oxidized and the semiquinonoid states of the flavins in the holoenzyme and the FMN-depleted forms, respectively, of detergent-solubilized rabbit liver microsomal NADPH-cytochrome P-450 reductase. The resonance Raman spectra of the oxidized forms [FAD; FMN] and [FAD;-] were essentially identical, indicating similar binding interactions of these flavins with the protein. To the contrary, the spectra of the semiquinonoid FADH. and FMNH. forms revealed significant spectral differences. Both O2-unstable species, characterized as [FADH.; FMNH2] and [FADH.;-] excited at 568.2 nm, have dominant spectral peaks at approximately 1611, 1539-1543, 1377, 1305, 1263, and 1226 cm-1. However, in the O2-stable [FAD; FMNH.] species, resonance Raman bands were located at 1611, 1532, 1388, 1304, 1268, and 1227 cm-1 when excited at the same wavelength. The approximately 10-cm-1 shifts of the 1532- and 1388-cm-1 bands suggest that the environments surrounding rings II and III of the isoalloxazines change upon reduction to semiquinonoid forms. It is proposed that N1 of FADH. (as a hydrogen-bond acceptor) and N5 of FMNH. (as donor) provide the distinguishing flavin-protein interactions in the semiquinonoid states. Furthermore, the resonance Raman spectra of the semiquinonoid species appear to be missing a number of bands assigned to ring I vibrations in the spectra of the oxidized flavins.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Flavins of NADPH-cytochrome P-450 reductase: evidence for structural alteration of flavins in their one-electron-reduced semiquinone states from resonance Raman spectroscopy. 392 89

NAD (P) H-dependent reduction of nicotinamide N-oxide was investigated with rabbit liver preparations. Microsomes, microsomal NADPH-cytochrome c reductase or cytosolic aldehyde oxidase alone exhibited no nicotinamide N-oxide reductase activity in the presence of NADPH or NADH. However, when the microsomal preparations were combined with the cytosolic enzyme, a significant N-oxide reductase activity was observed in the presence of the reduced pyridine nucleotide. The activity was enhanced by FAD or methyl viologen. Cytosol alone supplemented with NADPH or NADH exhibited only a slight, but when combined with microsomes, a significant N-oxide reductase activity. Based on these facts, we propose a new electron transfer system consisting of NADPH-cytochrome c reductase and aldehyde oxidase, which exhibits nicotinamide N-oxide reductase activity in the presence of the reduced pyridine nucleotide.
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PMID:NAD (P) H-dependent reduction of nicotinamide N-oxide by an unique enzyme system consisting of liver microsomal NADPH-cytochrome C reductase and cytosolic aldehyde oxidase. 624 Feb 69

Hepatic microsomal cytochrome P-450 from the untreated coastal marine fish scup, Stenotomus chrysops, was solubilized and resolved into five fractions by ion-exchange chromatography. The major fraction, cytochrome P-450E (Mr = 54,300), was further purified to a specific content of 11.7 nmol heme/mg protein and contained a chromophore absorbing at 447 nm in the CO-ligated, reduced difference spectrum. NH2-terminal sequence analysis of cytochrome P-450E by Edman degradation revealed no homology with any known cytochrome P-450 isozyme in the first nine residues. S. chrysops liver NADPH-cytochrome P-450 reductase, purified 225-fold (Mr = 82,600), had a specific activity of 45-60 U/mg with cytochrome c, contained both FAD and FMN, and was isolated as the one-electron reduced semiquinone. Purified cytochrome P-450E metabolized several substrates including 7-ethoxycoumarin, acetanilide, and benzo[a]pyrene when reconstituted with lipid and hepatic NADPH-cytochrome P-450 reductase from either S. chrysops or rat. The purified, reconstituted monooxygenase system was sensitive to inhibition by 100 microM 7,8-benzoflavone, and analysis of products in reconstitutions with purified rat epoxide hydrolase indicated a preference for oxidation on the benzo-ring of benzo[a]pyrene consistent with the primary features of benzo[a]pyrene metabolism in microsomes. Cytochrome P-450E is identical to the major microsomal aromatic hydrocarbon-inducible cytochrome P-450 by the criteria of molecular weight, optical properties, and catalytic profile. It is suggested that substantial quantities of this aromatic hydrocarbon-inducible isozyme exist in the hepatic microsomes of some untreated S. chrysops. The characterization of this aryl hydrocarbon hydroxylase extends our understanding of the metabolism patterns observed in hepatic microsomes isolated from untreated fish.
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PMID:An aryl hydrocarbon hydroxylating hepatic cytochrome P-450 from the marine fish Stenotomus chrysops. 631 7

The properties and requirements of squalene epoxidase and effects of some inhibitors were investigated in the pathogenic yeast Candida albicans. A washed 'microsomal' fraction converted radiolabelled squalene to 2,3-oxidosqualene and lanosterol. Minimum requirements for activity were molecular oxygen, NADH or NADPH, and FAD. Epoxidase activity was stimulated by up to 100% by addition of the soluble cytoplasmic fraction, which itself contained negligible epoxidase activity. This stimulation was most powerful at low concentrations of enzyme, or high concentrations of squalene. Divalent cations did not stimulate activity and EDTA was not inhibitory. An apparent Km for squalene of 50 microM was determined in the presence of soluble cytoplasm. Epoxidase activity was destroyed by Triton X-100, deoxycholate or Cu2+, and partially inhibited by thiol reagents, rotenone and antimycin A. The enzyme was not inhibited by cyanide or by several inhibitors of cytochrome P-450.
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PMID:Properties of a particulate squalene epoxidase from Candida albicans. 637 56

Two distinct microsomal pathways involved in the metabolism of thiobenzamide to thiobenzamide S-oxide have been identified and quantitated in the liver and lungs of mice and rats, using a highly inhibitory antibody against NADPH-cytochrome P-450 reductase. Approximately 50 and 65% of the oxidation in mouse and rat liver microsomes, respectively, was due to the FAD-containing monooxygenase, the remainder being catalyzed by cytochrome P-450. In the mouse lung, S-oxidation was predominantly via the FAD-containing monooxygenase while that in the rat lung was about 60% via the FAD-containing enzyme and 40% via cytochrome P-450. Cytochrome P-450-dependent S-oxidation of thiobenzamide was induced in the liver by treatment of mice with phenobarbital and slightly increased by treatment with 3-methylcholanthrene, while in rat liver either of these treatments caused only a small increase in metabolism due to cytochrome P-450. Thermal inactivation of the FAD-containing monooxygenase left the cytochrome P-450 component essentially unchanged. Thermally treated microsomes had a pH activity profile characteristic of cytochrome P-450 and were less inhibited by methimazole and thiourea when compared to untreated microsomes. Female mouse liver microsomes had a much higher, and female rat liver microsomes a lower, ability to S-oxidize thiobenzamide when compared to the males.
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PMID:Oxidation of thiobenzamide by the FAD-containing and cytochrome P-450-dependent monooxygenases of liver and lung microsomes. 641 76


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