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)

1. The effects of inhibitors and activators on the azo- and nitro-reductases of Ascaris lumbricoides var suum have been investigated. Both types of reduction were inhibited by FAD, FMN, riboflavin, allopurinol, dicoumarol, 5-nitro-2-furaldehyde, azide and cyanide at concentrations of 1 mM. Neither reaction was inhibited by menadione, nitrofurantoin, SKF 525-A or fluoride. Both reactions were stimulated by addition of hypoxanthine. 2. The enzyme preparation contained no detectable aldehyde oxidase or xanthine oxidase activity. 3. The differences in the effects of flavins and inhibitors on mammalian and nematode azo- and nitro-reductases might have practical significance in the development of anthelmintic synergists.
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PMID:The effect of flavins and enzyme inhibitors on 4-nitrobenzoic acid reductase and azo reductase of Ascaris lumbricoides var suum. 5 46

The cytosolic molybdoflavoprotein xanthine oxidase has been shown to catalyze the reduction of exocyclic nitro groups to the corresponding nitroso, hydroxylamino and amino derivatives for a wide variety of xenobiotics including the nitrated polycyclic aromatic hydrocarbons 1-nitropyrene and 3-nitrofluoranthene. Using commercially available bovine liver xanthine oxidase, we have studied the kinetics of the metabolism of 1-nitropyrene and 3-nitrofluoranthene. The nitroreduction of these nitro compounds in the presence of xanthine oxidase is dependent on the presence of hypoxanthine or xanthine and the absence of oxygen. This nitroreduction is independent of added flavins (FMN and FAD), unlike the related molybdoflavoprotein aldehyde oxidase. Xanthine oxidase has a Km of 0.7 microM and Vmax of 0.06 nmol/min per unit enzyme for 1-nitropyrene and a Km of 8.6 microM and Vmax of 0.7 nmol/min per unit enzyme for 3-nitrofluoranthene. The importance of these kinetic constants in evaluating the cytosolic metabolism of 1-nitropyrene and 3-nitrofluoranthene are discussed.
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PMID:The kinetics of 1-nitropyrene and 3-nitrofluoranthene metabolism using bovine liver xanthine oxidase. 220 87

An enzyme activity which converts retinal to retinoic acid was found in the cytosol of rat kidney. The oxidation of retinal was pH-, temperature-, time- and protein-dependent. Under the assay conditions employed, the oxidase activity had an apparent Km of 125 microM toward all-trans retinal. n-Propylgallate, butylated hydroxytoluene and quinacrine inhibited the reaction. The inhibition caused by quinacrine can be partly reversed by FAD. p-Hydroxymercuribenzoate, a sulfhydryl cross-linking agent, was a potent inhibitor. 4'-(9-Acridinylamino)methanesulfon-anisidide, an inhibitor of aldehyde oxidase, inhibited the reaction by 77% at a concentration of 3 mM. All-trans retinal reversed the inhibition caused by acetaldehyde and 2-aminobenzaldehyde. Retinol inhibited the reaction, but retinoic acid did not. The specific activity of the enzyme was increased by vitamin A deficiency. These data indicate that retinal-oxidizing enzyme activity found in the kidney is a sulfhydryl flavoprotein and its activity is dependent on the vitamin A levels of the tissues.
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PMID:Properties of retinal-oxidizing enzyme activity in rat kidney. 319 Nov 51

Guinea pig aldehyde oxidase was purified about 120-fold at a yield of 26% from liver cytosol by sequential column chromatography using DEAE-cellulose, FMN-Sepharose 4B, and Sephacryl S-300. The purified enzyme showed many similarities with the rabbit liver aldehyde oxidase reported by other workers with respect to its absolute spectra, molecular weight, and cofactor compositions of molybdenum, FAD, and nonheme iron. This enzyme efficiently utilized 2-hydroxypyrimidine and benzaldehyde as electron donors while N1-methylnicotinamide was 40 times less effective than 2-hydroxypyrimidine. Diphenyl sulfoxide was reduced anaerobically to diphenyl sulfide in the presence of electron donors. This activity was highly susceptible to SKF 525-A as well as the known inhibitors for aldehyde oxidase such as menadione, estradiol, and potassium cyanide. This enzyme also reduced dibenzyl sulfoxide, phenothiazine sulfoxide, D-biotin methyl ester d-sulfoxide, and quinoline N-oxide, but not L-methionine sulfoxide, dimethyl sulfoxide, D-biotin methyl ester l-sulfoxide, and D-biotin d- and l-sulfoxides, as well as diphenyl sulfone. These results indicate that aldehyde oxidase in guinea pig liver functions as a sulfoxide reductase with selective substrate specificity under anaerobic conditions.
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PMID:Guinea pig liver aldehyde oxidase as a sulfoxide reductase: its purification and characterization. 405 1

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

Rabbit liver aldehyde oxidase (AO), like milk xanthine oxidase (XO) and chicken liver xanthine dehydrogenase (XDH), possesses the following prosthetic groups: FAD, a functional Mo center, and two spectroscopically distinct iron-sulfur centers, one with gav less than 2.0 (termed Fe/S I) and the other with gav greater than 2.0 (termed Fe/S II) in the reduced enzyme. EPR spectra for the Mov species were found to be nearly identical in AO and XO for a number of enzyme complexes, and the midpoint reduction potentials for functional MoVI/MoV (-359 mV) and MoV/MoVI (-351 mV) were nearly the same in all three enzymes (50 mM phosphate, pH 7.8). A strong magnetic interaction between MoV and reduced Fe/S I, previously detected in XO and XDH, was also found in AO. No MoV-Fe/S II interaction could be detected in AO (nor in XO). In contrast, the order of reduction of Fe/S I and Fe/S II, as measured from their midpoint potentials, is reversed in AO (Em = -207 and -310 mV, respectively) as compared to XO (Em = -280 and -245 mV, respectively) in phosphate buffer at pH 7.8. The oxidized-reduced extinction coefficients at 450 and 550 nm for the two centers are also apparently reversed in AO and XO. Although magnetic interaction between FAD and one or both reduced Fe/S centers has been detected in both AO and XO, no magnetic interaction between the two reduced Fe/S centers themselves was found in AO (although such interaction has been seen in XO). The average FAD reduction potential is substantially more positive in AO (Em for FAD/FADH., -258 mV; FADH./FADH2, -212 mV at pH 7.8) than in XO or XDH. It can be concluded that although the properties and immediate environment of the functional Mo center are conserved in the three Mo hydroxylase enzymes, and all three enzymes possess the same set of prosthetic groups, the properties of the groups which transfer electrons from the Mo to the ultimate electron acceptor can vary substantially in AO, XO, and XDH.
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PMID:Properties of the prosthetic groups of rabbit liver aldehyde oxidase: a comparison of molybdenum hydroxylase enzymes. 628 79

Rat liver microsomes exhibit nifurtimox (NFX) nitroreductase activity, which is mostly NADPH-dependent and is completely abolished by heating and under an atmosphere of air. Pure carbon monoxide inhibits for 28% microsomal NFX nitroreductase activity while FAD 1 mM significantly enhances it. Smaller activities than in liver were found in brain, small intestine, testes, lung and heart. Rat liver cytosol also showed NFX nitroreductase activity using either hypoxanthine or N-methylnicotinamide as substrates. These activities were inhibited by allopurinol or menadione respectively. Results suggest that cytochrome P-450, NADPH cytochrome c reductase, xanthinoxidase and aldehyde oxidase are able to reduce NFX nitrogroups in rat liver and other tissues.
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PMID:Studies on nifurtimox nitroreductase activity in liver and other rat tissues. 649 2

Benznidazole (Bz) (N-benzyl-2-nitro-1-imidazole-acetamide) is a drug used against Chagas' disease. Rat liver microsomal and cytosolic fractions, but not mitochondria, exhibited Bz nitroreductase activity under anaerobic conditions in the presence of NADPH. Microsomal nitroreductase activity was enhanced by FAD and was inhibited totally by oxygen and partially by carbon monoxide. Liver cystosol fraction was able to reduce Bz nitrogroups in the presence of either N-methylnicotinamide or hypoxanthine as substrates. These enzyme activities were inhibited by menadione or allopurinol respectively. Under every experimental condition leading to enzymatic reduction of Bz nitrogroups and its inhibition or enhancement, reactive metabolites that bind covalently to proteins were also produced. This covalent binding was effectively prevented by reduced glutathione. Results suggest the participation of cytochrome P-450 and cytochrome c reductase in liver microsomal processes and of xanthine oxidase and aldehyde oxidase in liver cytosolic processes of Bz nitroreduction and activation to reactive metabolites that bind covalently to proteins. Possible pharmacological and toxicological implications of the described observations were discussed.
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PMID:Reductive metabolism and activation of benznidazole. 671 14

We have cloned and sequenced the hxA gene coding for the xanthine dehydrogenase (purine hydroxylase I) of Aspergillus nidulans. The gene codes for a polypeptide of 1363 amino acids. The sequencing of a nonsense mutation, hxA5, proves formally that the clones isolated correspond to the hxA gene. The gene sequence is interrupted by three introns. Similarity searches reveal two iron-sulfur centers and a NAD/FAD-binding domain and have enabled a consensus sequence to be determined for the molybdenum cofactor-binding domain. The A. nidulans sequence is a useful outclass for the other known sequences, which are all from metazoans. In particular, it gives added significance to the missense mutations sequenced in Drosophila melanogaster and leads to the conclusion that while one of the recently sequenced human genes codes for a xanthine dehydrogenase, the other one must code for a different molybdenum-containing hydroxylase, possibly an aldehyde oxidase. The transcription of the hxA gene is induced by the uric acid analogue 2-thiouric acid and repressed by ammonium. Induction necessitates the product of the uaY regulatory gene.
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PMID:Cloning and molecular characterization of hxA, the gene coding for the xanthine dehydrogenase (purine hydroxylase I) of Aspergillus nidulans. 787 88

The present study provides the first evidence that a mammalian liver cytosolic enzyme, aldehyde oxidase, has an ability to reduce arene oxides to the parent hydrocarbons under anaerobic conditions. The comparative ability of rabbit liver preparations to reduce arene oxides was examined using naphthalene 1,2-oxide and benzo[a]pyrene 4,5-oxide as substrates. The liver cytosol with an electron donor of aldehyde oxidase exhibited much higher epoxide reductase activity compared with the liver microsomes with NADPH and FAD. The cytosolic activity was sensitive to inhibitors of aldehyde oxidase. Purified rabbit liver aldehyde oxidase also exhibited a significant epoxide reductase activity in the presence of its electron donor. Apparent Km and Vmax values of the enzyme were 426 microM and 323 nmol/min/mg protein for naphthalene 1,2-oxide and 255 microM and 100 nmol/min/mg protein for benzo[a]pyrene 4,5-oxide respectively. However, no epoxide reduction by the enzyme or by the liver cytosol was detected in olefin epoxides such as styrene oxide and trans-stilbene oxide. Similar results were obtained with rat liver preparations. However, the epoxide reductase activity of cytosol and aldehyde oxidase from rat liver was considerably lower than that of the rabbit liver preparations. In hamsters, mice and guinea-pigs, liver cytosols with an electron donor of aldehyde oxidase as well as liver microsomes with NADPH exhibited a significant epoxide reductase activity toward naphthalene 1,2-oxide. However, no epoxide reduction was observed with dog liver cytosol. Administration of sodium tungstate to rats depleted liver cytosolic reductase activity and sodium molybdate treatment resulted in partial restoration of the activity, supporting the view that the epoxide reductase activity observed in the liver cytosol mainly originates from aldehyde oxidase.
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PMID:Epoxide reductase activity of mammalian liver cytosols and aldehyde oxidase. 814 89

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