KEGG:D02011 - FACTA Search

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 effects of butylated hydroxyanisole (BHA), a commonly used food antioxidant, on oxygen consumption, ATPase activity, and the redox state of some electron carriers of rat liver mitochondria have been studied. It was observed that BHA slightly stimulated state 4 respiration but strongly inhibited ADP- and uncoupler-stimulated respiration on NAD(+)- and FAD-linked substrates. ATPase activity and vectorial H+ ejection were affected only slightly by BHA, suggesting that BHA predominantly inhibits mitochondrial electron flow. Experiments to determine its site of action showed that BHA did not noticeably affect electron flow through cytochrome oxidase; in contrast, NADH:duroquinone reductase activity and electron flow through ubiquinone-cytochrome b-cytochrome c complex were inhibited strongly because the oxidation of duroquinol was affected markedly. The BHA block of electron transport was bypassed by both N,N,N',N'-tetramethyl-p-phenylenediamine and 2,6-dichlorophenolindophenol. Also, the presence of BHA changed the redox state of cytochrome b and c1 to a more oxidized level. These observations suggest that electron transport is inhibited by BHA at the NADH-ubiquinone and at the ubiquinone-cytochrome b levels. From Hill plots, it is clear that more than one binding site is involved in complete inhibition; in addition, available evidence suggests that there may be two sites at the substrate side of ubiquinone and another two sites at the oxygen side of ubiquinone. Consequently, mitochondrial ATP synthesis would be interrupted. This event could be related to the toxicity of BHA.
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PMID:Effect of butylated hydroxyanisole on electron transport in rat liver mitochondria. 214 54

Electron spin resonance (ESR) measurements on solutions and isolated powders provide direct evidence for the involvement of Cr(V) species in the reduction of Cr(VI) by NAD(P)H. ESR analysis of an isolated Cr(V)-NAD(P)H solid yields g parallel = 1.9831 and g perpendicular = 1.9772, indicating that the unpaired electron occupies the dz2 orbital of the Cr(V) ion, with square-pyramidal geometry. Addition of hydrogen peroxide (H2O2) to the NAD(P)H-Cr(VI) reaction mixtures suppresses the Cr(V) species and generates hydroxyl (.OH) radicals. The .OH radicals were detected via ESR spin trapping, employing 5,5-dimethyl-1-pyrroline-N-oxide and alpha-(4-pyridyl-1-oxide)-N-tert-butylnitrone as spin traps. The dependence of Cr(V) and .OH radical formation on the H2O2 and Cr(VI) concentrations indicates that the Cr(V) species react with H2O2 to generate the .OH radicals. Similar results were obtained by using various diols (arabinose, cellobiose, FAD, fructose, glyceraldehyde, ribose, and tartaric acid), alpha-hydroxycarboxylic acids, and glutathione. Investigations with superoxide dismutase showed no significant participation of O2- in the generation of .OH radicals. These results thus indicate that the Cr(V) complexes, produced in the reduction of Cr(VI) by cellular reductants, react with H2O2 to generate .OH radicals, which might be initiators of the primary events in the Cr(VI) cytotoxicity.
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PMID:On the hydroxyl radical formation in the reaction between hydrogen peroxide and biologically generated chromium(V) species. 215 79

The effect of halothane, a potent and popular volatile anesthetic, on isolated rat liver mitochondria was examined. Halothane inhibited state 3 and dinitrophenol-induced uncoupled respiration with NAD(+)-linked substrates, but not with FAD-linked substrates, and did not affect the oxidation-reduction state of mitochondrial cytochromes. Moreover, halothane increased state 4 respiration and ATPase activity and decreased the extra-mitochrondrial pH change coupled to ATP synthesis. These results indicate that halothane impairs mitochondrial ATP production by interfering with both the electron transport from NAD+ to FAD and the coupling of oxidative phosphorylation. Halothane only slightly affected the membrane potential, which is commonly dissipated by typical classical uncouplers. Moreover, halothane inhibited both ATP-driven and respiration-driven Ca2+ accumulation in mitochondria and stimulated Ca2+ release from mitochondrial stores at concentrations higher than those at which it inhibited ATP production. These findings indicate that the uncoupling action of halothane is not classical. During halothane anesthesia, these mitochondrial abnormalities may contribute to hepatocyte dysfunctions.
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PMID:Halothane impairs the bioenergetic functions of isolated rat liver mitochondria. 216 74

Highly-purified bidirectional hydrogenase (hydrogenase 1) of Clostridium pasteurianum could rapidly reduce several 2-, 4- and 5-nitroimidazole compounds via an electron carrier-coupled mechanism. Hydrogenase 1 was also shown to reduce a 2-nitroimidazole (misonidazole) and a 4-nitroimidazole in the presence of its required electron carriers including ferredoxin, the flavin coenzymes FAD and FMN, and the low potential electron carrier dyes methyl- and benzyl-viologen. No drug reduction by hydrogenase 1 occurred when any one of these electron carriers was replaced by nicotinamide electron carriers (NAD and NADP), or was omitted from the reaction mixture. The rates of reduction of the nitroimidazole compounds correlated with their one electron reduction potentials at pH 7(E7(1)); the higher the drug's E7(1), the faster its rate of reduction by the enzyme. Reduction rates for the drugs did not correlate with the antibacterial activity of these compounds against C. pasteurianum, suggesting that other factors are also important in determining the antimicrobial potencies of nitroimidazoles.
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PMID:Reduction of 2-, 4- and 5-nitroimidazole drugs by hydrogenase 1 in Clostridium pasteurianum. 218 Aug 90

Several NAD(P)H-dependent ferri-reductase activities were detected in sub-cellular extracts of the yeast Saccharomyces cerevisiae. Some were induced in cells grown under iron-deficient conditions. At least two cytosolic iron-reducing enzymes having different substrate specificities could contribute to iron assimilation in vivo. One enzyme was purified to homogeneity: it is a flavoprotein (FAD) of 40 kDa that uses NADPH as electron donor and Fe(III)-EDTA as artificial electron acceptor. Isolated mitochondria reduced a variety of ferric chelates, probably via an 'external' NADH dehydrogenase, but not the siderophore ferrioxamine B. A plasma membrane-bound ferri-reductase system functioning with NADPH as electron donor and FMN as prosthetic group was purified 100-fold from isolated plasma membranes. This system may be involved in the reductive uptake of iron in vivo.
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PMID:Iron-reductases in the yeast Saccharomyces cerevisiae. 218 97

The DNA sequence of the Salmonella typhimurium ahp locus was determined. The locus was found to contain two genes that encode the two proteins (C22 and F52a) that comprise the S. typhimurium alkyl hydroperoxide reductase activity. The predicted sequence of the F52a protein component of the alkyl hydroperoxide reductase was found to be highly homologous to the Escherichia coli thioredoxin reductase protein (34% identity with many conservative substitutions). The homology was found to be particularly striking in the region containing the redox-active cysteines of the thioredoxin reductase molecule, and among the identities were the redox-active cysteines themselves. Aside from the strong similarity to thioredoxin reductase, overall homology between the F52a protein and other flavoprotein disulfide oxidoreductases such as glutathione reductase, dihydrolipoamide dehydrogenase, and mercuric reductase was found to be rather limited, and the conserved active site segment common to the three proteins was not observed within the F52a protein. However, three short segments that have been implicated in FAD and NAD binding were found to be conserved between the F52a protein and the other disulfide reductases. These results suggest that the alkyl hydroperoxide reductase is the second known member of a class of disulfide oxidoreductases which was represented previously by thioredoxin reductase alone; they also allow the putative assignment of several functional domains.
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PMID:Alkyl hydroperoxide reductase from Salmonella typhimurium. Sequence and homology to thioredoxin reductase and other flavoprotein disulfide oxidoreductases. 219 51

The authors studied mitochondrial oxidative phosphorylation in the skinned myocardial fibres of the rat and the rabbit during ischaemia. Saponin action on tissue was used to remove the sarcolemma while leaving the interior of intracellular structures intact. Mitochondrial oxidative phosphorylation was measured by polarography using Clark's oxygen electrode in the presence of NAD- and FAD-substrates. The skinned fibre method is rapid and very simple. The fact no more than 5-10 mg of tissue is needed to perform it makes it suitable for the study of metabolic processes in experimental and clinical cardiology, under physiologic conditions as well as during ischaemia.
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PMID:Use of myocardial skinned fibres for the study of mitochondrial oxidative phosphorylation during ischaemia. 222 84

The oxidation of alkanes to alkanols by Pseudomonas oleovorans involves a three-component enzyme system: alkane hydroxylase, rubredoxin and rubredoxin reductase. Alkane hydroxylase and rubredoxin are encoded by the alkBFGHJKL operon, while previous studies indicated that rubredoxin reductase is most likely encoded on the second alk cluster: the alkST operon. In this study we show that alkT encodes the 41 x 10(3) Mr rubredoxin reductase, on the basis of a comparison of the expected amino acid composition of AlkT and the previously established amino acid composition of the purified rubredoxin reductase. The alkT sequence revealed significant similarities between AlkT and several NAD(P)H and FAD-containing reductases and dehydrogenases. All of these enzymes contain two ADP binding sites, which can be recognized by a common beta alpha beta-fold or fingerprint, derived from known structures of cofactor binding enzymes. By means of this amino acid fingerprint we were able to determine that one ADP binding site in rubredoxin reductase (AlkT) is located at the N terminus and is involved in FAD binding, while the second site is located in the middle of the sequence and is involved in the binding of NAD or NADP. In addition, we derived from the sequences of FAD binding reductases a second amino acid fingerprint for FAD binding, and we used this fingerprint to identify a third amino acid sequence in AlkT near the carboxy terminus for binding of the flavin moiety of FAD. On the basis of the known architecture and relative spatial orientations of the NAD and FAD binding sites in related dehydrogenases, a model for part of the tertiary structure of AlkT was developed.
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PMID:Rubredoxin reductase of Pseudomonas oleovorans. Structural relationship to other flavoprotein oxidoreductases based on one NAD and two FAD fingerprints. 231 93

Consensus sequence patterns for beta-alpha-beta folds binding FAD, NAD and GTP were constructed on the basis of 11 steric and physicochemical properties. These property patterns permit detection and distinction of the respective nucleotide-binding sites on the basis of amino acid sequence analysis alone. The SWISS-PROT database (release 9) was screened with the three calculated patterns, and nucleotide-binding sites identified are presented. They correspond to existing structure data (if known). For the detected sequence segments we are able to predict the beta-alpha-beta motif as well as the respective binding sites. For some of the proteins so detected a nucleotide-binding capacity has not previously been reported.
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PMID:Recognition of different nucleotide-binding sites in primary structures using a property-pattern approach. 238 83

NAD(P)H:(quinone-acceptor) oxidoreductase (EC 1.6.99.2) is a widely distributed enzyme which promotes two-electron reductions of quinones and thereby protects cells against damage by reactive oxygen species generated during oxidative cycling of quinones and semiquinone radicals. Quinone reductase activity represents a minor component (about 0.006%) of mouse liver cytosolic proteins under basal (uninduced) conditions. Two isofunctional forms of this quinone reductase have been purified to homogeneity (1700-fold) in 30% yield from the liver cytosols of female CD-1 mice in which the enzymes were induced by administration of 2(3)-tert-butyl-4-hydroxyanisole. The purification involved ion exchange, hydrophobic, and affinity chromatographies. The two enzyme forms have been designated "hydrophilic" and "hydrophobic" based on the order of elution from phenyl-Sepharose. The more abundant hydrophilic form has been crystallized in the presence of FAD in the form of macroscopic tetragonal crystals. The two forms have similar isoelectric points (pI 9.2) and subunit molecular weights (Mr = 30,000) and probably exist as dimers in the native state. Purified preparations of the enzymes are equiactive with NADH and NADPH and show almost complete dependence on added FAD for catalytic activity. The Km values for FAD of the hydrophilic and hydrophobic forms are 2.72 and 1.72 nM, respectively. Their catalytic activities are the same and are remarkably high for nicotinamide nucleotide-linked dehydrogenases; maximum velocities (expressed per mg of pure enzyme) approach 4000 units/mg of protein under appropriate assay conditions. When menadione is the electron acceptor, the Km value for this quinone is very low (Km congruent to 2 microM). Both enzyme forms are potently inhibited by dicoumarol. Rabbit antisera against the hydrophilic quinone reductase precipitate quantitatively the entire quinone reductase activity of mouse liver cytosols obtained from animals maintained on a standard diet or those induced with 3-tert-butyl-4-hydroxyanisole. The quinone reductase activity of rat liver cytosols is also quantitatively precipitated by this antiserum.
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PMID:Purification and characterization of two isofunctional forms of NAD(P)H: quinone reductase from mouse liver. 241 14

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