Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P47989 (xanthine oxidase)
 8,633 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mechanism of oxidation of deoxyribose to thiobarbituric acid-reactive products by Fenton systems consisting of H2O2 and either Fe2+ or Fe2+ (EDTA) has been studied. With Fe2+ (EDTA), dependences of product yield on reactant concentrations are consistent with a reaction involving OH.. With Fe2+ in 5-50 mM phosphate buffer, yields of oxidation products were much higher and increased with increasing deoxyribose concentration up to 30 mM. The product yield varied with H2O2 and Fe2+ concentrations in a way to suggest competition between deoxyribose and both reactants. Deoxyribose oxidation by Fe2+ and H2O2 was enhanced 1.5-fold by adding superoxide dismutase, even though superoxide generated by xanthine oxidase increased deoxyribose oxidation. These results are not as expected for a reaction involving free OH. or site localized OH. product on the deoxyribose. They can be accommodated by a mechanism of deoxyribose oxidation involving an iron(IV) species formed from H2O2 and Fe2+, but the overall conclusion is that the system is too complex for definitive identification of the Fenton oxidant.
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PMID:Factors that influence the deoxyribose oxidation assay for Fenton reaction products. 166 35

Kinetic analysis has been used to access how well scavenger inhibition can characterize the reactivity of oxidants produced in the iron-catalyzed reaction of H2O2 with xanthine oxidase-derived O2-.. Formate oxidation to CO2, deoxyribose oxidation, benzoate hydroxylation, and ethylene production from alpha-keto-gamma-methiolbutyric acid (KMB) were measured. With Fe(EDTA) as catalyst, inhibition by most scavengers was quantitatively as expected for OH. involvement. Exceptions were urate and thiourea, which inhibited excessively and appeared to scavenge intermediates of the detection reactions. With nonchelated iron, there was minimal formate oxidation, but benzoate, KMB, and deoxyribose gave, respectively, 17%, 25%, and approximately the same product yield as with Fe(EDTA). Deoxyribose oxidation was not inhibited by some scavengers and excessively inhibited by others. However, scavengers that did not inhibit deoxyribose oxidation did inhibit with KMB and benzoate, and differences in scavenger effects in the presence and absence of EDTA in these assays were relatively minor. The results with formate and deoxyribose, but not KMB and benzoate, can therefore exclude free OH. as a significant oxidant product of the nonchelated iron-catalyzed Haber-Weiss reaction. It is proposed that the different patterns of scavenger inhibition arise in the different assays because scavengers can react with intermediates in the detection reactions, all of which are multistep chains. Thus, inhibition may not signify OH. involvement, and similarities with inhibition expected for OH. my be fortuitous.
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PMID:The ability of scavengers to distinguish OH. production in the iron-catalyzed Haber-Weiss reaction: comparison of four assays for OH. 304 May 37

We report our finding that the reaction between the adriamycin semiquinone (produced by reduction of the drug by xanthine oxidase) and H2O2 in N2 causes deoxyribose degradation to a thiobarbituric acid-reactive chromogen. Deoxyribose breakdown was inhibited by scavengers of hydroxyl radicals, providing evidence for the participation of hydroxyl radicals. The reaction was detected in air, but was less efficient in air than in N2. Deoxyribose degradation did not require a metal catalyst, and was inhibited by superoxide dismutase in air, but not N2. A similar reaction with deoxyribose in DNA may be of major importance in the antitumour action of adriamycin.
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PMID:Deoxyribose breakdown by the adriamycin semiquinone and H2O2: evidence for hydroxyl radical participation. 689 44