Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.10.3.3 (ascorbate oxidase)
 778 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rats were treated with CCl4 and the spin trapping agent alpha-phenyl-N-t-butyl nitrone (PBN), followed by ESR investigations on samples of heparinized blood. The major signal detected was the ascorbate semidione radical, but smaller concentrations of the carbon dioxide radical anion spin adduct of PBN could also be detected. The ESR signals were more intense when experiments were conducted with plasma, rather than blood. The spin adducts detected were not associated with the red blood cells, and their apparent concentrations increased when the cells were removed by centrifugation. The addition of ascorbate oxidase to the samples markedly diminished the intensity of the ascorbate semidione radical. When plasma samples from CCl4-treated rats were extracted into toluene, the ESR spectrum of the trichloromethyl adduct of PBN was observed in the extract. Because the spectrum of this adduct was not observed in direct ESR studies of plasma, it is possible that immobilization occurred in the presence of plasma proteins. Evidence to support this hypothesis was developed by adding bovine serum albumin (BSA) to an aqueous solution of the trichloromethyl radical adduct of PBN. As the BSA concentration was increased, the intensity of the ESR spectrum was markedly diminished, and displayed features of an immobilized adduct.
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PMID:Detection of spin adducts in blood after administration of carbon tetrachloride to rats. 164 21

The formation of ascorbate radicals, identified by ESR experiments, was observed in the ascorbate peroxidase reaction by thyroid microsomes. The steady-state concentration of ascorbate radicals decreased in the presence of NADH. The oxidation of NADH was followed optically. Using the ascorbic acid oxidase system, NADH-dependent electron transport in thyroid microsomes was examined. Ascorbate radicals competed with bound cytochrome b5 for the reaction with reduced NADH-cytochrome b5 reductase. The NADH-ascorbate radical reductase activity of thyroid microsomes was calculated to be 0.17 mumol/mg.s at 3.3 microM ascorbate radicals. Kinetic results show that the properties of NADH-cytochrome b5 reductase in thyroid microsomes were similar to those of the enzyme in liver microsomes. The formation of ascorbate radicals by thyroid microsomes was stimulated by the addition of thyroxine, and the stimulation was decreased also by NADH. The thyroxine-mediated oxidation of ascorbate is explained in terms of consecutive one-electron transfers initiated by bound thyroid peroxidase. These results, along with those described in our previous paper (M. Nakamura, I. Yamazaki, and S. Ohtaki, 1990, J. Biochem. 108, 804-810), support the idea that ascorbate protects thyroid hormones from oxidative degradation through the NADH-cytochrome b5 reductase system.
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PMID:Formation and reduction of ascorbate radicals by hog thyroid microsomes. 839 46

The effect of various flavonoids upon the ascorbate radical lifetime was investigated by ESR spectroscopy. The radical was generated via the reaction between ascorbic acid and ascorbate oxidase, the ascorbate radical being detected. The inclusion of the flavonoids in the ascorbic acid-ascorbate oxidase reaction mixture affected both the initial intensity of the ascorbate radical and its lifetime. Of the natural sources tested, Pycnogenol prolonged the ascorbate radical lifetime to the greatest extent, from a control value of 20 min to a maximum of 80 min with 200 micrograms/ml Pycnogenol. The flavonoids could either be regenerating ascorbic acid from ascorbate, or interacting with ascorbate oxidase, thus preventing ascorbic acid binding. When p-cresol, a known ascorbate oxidase inhibitor was added to the ascorbic acid-ascorbate oxidase reaction mixture, the ascorbate radical signal intensity was dramatically reduced and did not display the time-dependent decay observed with the flavonoids. This indicates that a direct interaction between the flavonoids and ascorbate radical occurs. Some of the flavonoids tested; myricetin, polyphenon and theaflavin appeared to compete with ascorbic acid for ascorbate oxidase, as they displayed saturation behaviour. By modifying the experimental conditions the myricetin radical was detected, thus confirming the direct interaction between myricetin and ascorbate oxidase.
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PMID:ESR studies of vitamin C regeneration, order of reactivity of natural source phytochemical preparations. 967 60

Bilirubin oxidase (EC:1.3.3.5) purified from a culture medium of Myrothecium verrucaria MT-1 (authentic enzyme) catalyzes the oxidation of bilirubin to biliverdin in vitro and recombinant enzyme (wild type) was obtained by using an overexpression system of the bilirubin oxidase gene with Aspergillus oryzae harboring an expression vector. The absorption and ESR spectra showed that both bilirubin oxidases are multicopper oxidases containing type 1, type 2, and type 3 coppers similar to laccase, ascorbate oxidase, and ceruloplasmin. Site-directed mutagenesis has been performed for the possible ligands of each type of copper. In some mutants, Cys457 --> Val, Ala, His94 --> Val, and His134.136 --> Val, type 1 and type 2 copper centers were perturbed completely and the enzyme activity was completely lost. Differing from the holoenzyme, these mutants showed type 3 copper signals. However, the optical and magnetic properties characteristic of type 1 copper were retained even by mutating one of the type 1 copper ligands, i.e., a mutant, Met467 --> Gly, showed a weak but apparent enzyme activity. A double mutant His456.458 --> Val had only type 1 Cu, showing a blue band at 600 nm (epsilon = 1.6 x 10(3)) and an ESR signal with very narrow hyperfine splitting (A parallel = 7.2 x 10(-)3 cm-1). Since the type 2 and type 3 coppers are not present, the mutant did not show enzyme activity. These results strongly imply that the peculiar sequence in bilirubin oxidase, His456-Cys457-His458, forms an intramolecular electron-transfer pathway between the type 1 copper site and the trinuclear center composed of the type 2 and type 3 copper sites.
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PMID:Myrothecium verrucaria bilirubin oxidase and its mutants for potential copper ligands. 1007 56

Zinc, iron and copper are concentrated in senile plaques of Alzheimer disease. Copper and iron catalyze the Fenton-Haber-Weiss reaction, which likely contributes to oxidative stress in neuronal cells. In this study, we found that ascorbate oxidase activity and the intensity of ascorbate radicals measured using ESR spectroscopy, generated by free Cu(II), was decreased in the presence of amyloid-beta (Abeta), the major component of senile plaques. Specifically, the ascorbate oxidase activity was strongly inhibited (85% decrease) in the presence of Abeta1-16 or Abeta1-42, whereas it was only slightly inhibited in the presence of Abeta1-12 or Abeta25-35 (<20% inhibition). Ascorbate-dependent hydroxyl radical generation by free Cu(II) decreased in the presence of Abeta in the identical order of Abeta1-42, Abeta1-16 > Abeta1-12 and was abolished in the presence of 2-fold molar excess glycylhystidyllysine (GHK). Ascorbate oxidase activity and ascorbate-dependent hydroxyl radical generation by free Fe(III) were inhibited by Abeta1-42, Abeta1-16, and Abeta1-12. Although Cu(II)-Abeta shows a significant SOD-like activity, the rate constant for the reaction of superoxide with Cu(II)-Abeta was much slower than that with SOD. Overall, our results suggest that His6, His13, and His14 residues of Abeta1-42 control the redox activity of transition metals present in senile plaques.
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PMID:Three histidine residues of amyloid-beta peptide control the redox activity of copper and iron. 1792 32