Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.17.3.2 (xanthine oxidase)
 8,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Vanadate (V(V)) stimulates the oxidation of NADH by xanthine oxidase and superoxide dismutase eliminates the effect of V(V). Paraquat stimulates both the oxidation of NADH by xanthine oxidase and the V(V) enhancement of that oxidation. Xanthine, which is a better substrate for xanthine oxidase than is NADH, causes a V(V)-dependent co-oxidation of NADH which is transient and eliminated by SOD. Urate inhibits the V(V)-stimulated oxidation of NADH by xanthine oxidase or by Rose Bengal plus light. Measurement of rates of both O2- production and V(V)-stimulated NADH oxidation showed that many molecules of NADH were oxidized per O2-. These chain lengths were an inverse function of overall reaction rate. Minimum chain lengths, calculated on the basis of 100% univalent reduction of O2 to O2-, were smaller than measured average chain lengths by a factor of five. All of these results are in accord with the view that V(V) does not directly affect the activity of the enzyme, but rather catalyzes the free radical chain oxidation of NADH by O2-. It was further shown that phosphate was not involved and that the active form of V(V) was orthovanadate, rather than decavanadate.
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PMID:Effects of vanadate on the oxidation of NADH by xanthine oxidase. 253 57

The ability of two low-molecular-weight copper complexes to influence the hemolysis of human erythrocytes caused by active oxygen species-generating systems was studied. Cu(II) (glycine)2 and Cu(II) (tyrosine)2 did not inhibit hemolysis due to O-2 and H2O2 generated by xanthine oxidase plus acetaldehyde but rather has a prooxidant effect. The same copper complexes as well as Cu(II) strongly inhibited the hemolysis caused by the 1O2-generating system (Rose Bengal + light). It was found that except for 1O2 the other active oxygen species (O-2, H2O2 and OH.) did not participate in the Rose Bengal + light-induced hemolysis. Thus we examined whether the inhibitory effect of copper complexes was due to 1O2 quenching. Cu(II) (glycine)2 inhibited the Rose Bengal + light-induced oxidation of compounds known to react chemically with 1O2 and its effects were analogous to the effects of physical 1O2 quenchers, e. g. NaN3 and NiCl2. The oxygen consumption upon NADH-photooxidation in the presence of Rose Bengal was inhibited competitively by Cu(II) (glycine)2 but when concentration of Rose Bengal or light intensity were varied the extent of Cu(II) (glycine)2-caused inhibition was not changed. It is concluded that the effects of Cu(II) (glycine)2 and possibly of Cu(II) (tyrosine)2 are due to quenching of 1O2 but quenching of the excited state of the dye could not be excluded.
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PMID:A study on the ability of copper complexes to act as active oxygen species scavengers. 282 28

The ability of Oxyphenbutazone (a non-steroidal antiinflammatory drug) to react with singlet oxygen and superoxide anions, possible mediators of the damage to the lipids of the cell membranes during inflammation was studied. Oxyphenbutazone inhibited the reduction of nitroblue tetrazolium in aerobic riboflavin-photosensitized oxidation of methionine, but did not influence the cytochrome C-reduction by superoxide-generating system xanthine-xanthine oxidase. Oxyphenbutazone was photooxidized in the presence of Rose Bengal, the latter being a photosensitizer. The increase of the reaction rate of Oxyphenbutazone-oxidation in D2O as compared to H2O, as well as the inhibition of oxidation by singlet oxygen-quencher sodium azide confirmed the participation of singlet oxygen in this process. It was found that Oxyphenbutazone reacted with singlet oxygen, but did not react with superoxide anions. This was supported by the observed protection of erythrocyte membranes from the hemolytic action of the singlet oxygen-generating system Rose Bengal + light.
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PMID:Reactions of oxyphenbutazone with active oxygen species. 282 29

Reactive oxygen species were generated in the gas phase by photosensitization involving illumination of Rose Bengal. Depending on whether the chromophore is dry or solubilized, this system produces either energy-transfer reactions leading to generation of singlet oxygen specifically, or a combination of energy-transfer and electron-transfer reactions, providing both singlet oxygen and reduced forms of oxygen, such as superoxide anion and hydrogen peroxide. In neither case were the reactive species mutagenic in strain TA104 of Salmonella typhimurium, which had been previously shown to be reverted by oxygen species generated by the hypoxanthine-xanthine oxidase system in aqueous medium. However, mixed oxygen species induced an increased lethality in a variety of DNA repair-deficient Escherichia coli strains. This genotoxic effect, mainly reparable by the uvrA and recA mechanisms, was efficiently prevented by the thiol N-acetyl-L-cysteine. Singlet oxygen itself failed to exert direct genotoxic effects, although secondary reactants produced by its reaction with cell components enhanced lethality in some repair-deficient bacteria. Distance-dependence analyses provided measurements of the lifetimes of the oxygen species generated in the gas phase.
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PMID:Genotoxicity of volatile and secondary reactive oxygen species generated by photosensitization. 846 25

The specificity of 2,2,6,6-tetramethylpiperidine to singlet oxygen was shown using Rose Bengal as a singlet oxygen generator, and Xanthine-Xanthine Oxidase and KO2 as the sources for the superoxide radical. The highest concentration of produced-singlet oxygen occurred at 25% of O2 by Rose Bengal photosensitization. The linewidth of the EPR signal for photosensitized nitroxyl radical, increasing solvent polarity. Deuterated solvents enlarge the EPR signal intensity in a dose-dependent manner. No EPR signal increase was observed in xanthine-xanthine oxidase reaction or KO2 systems, indicating that TEMP does not react with the superoxide anion. Thus, reaction of TEMP with 1O2 is highly specific.
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PMID:The specificity and product of quenching singlet oxygen by 2,2,6,6-tetramethylpiperidine. 867 11