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Journal Abstract Search

148 related items for PubMed ID: 15297032

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  • 23. Inhibition of yeast glycolysis by nitroxyl (HNO): mechanism of HNO toxicity and implications to HNO biology.
    Lopez BE, Rodriguez CE, Pribadi M, Cook NM, Shinyashiki M, Fukuto JM.
    Arch Biochem Biophys; 2005 Oct 01; 442(1):140-8. PubMed ID: 16139238
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  • 24. NADPH-dependent covalent binding of [3H]paroxetine to human liver microsomes and S-9 fractions: identification of an electrophilic quinone metabolite of paroxetine.
    Zhao SX, Dalvie DK, Kelly JM, Soglia JR, Frederick KS, Smith EB, Obach RS, Kalgutkar AS.
    Chem Res Toxicol; 2007 Nov 01; 20(11):1649-57. PubMed ID: 17907785
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  • 28. Diethyldithiocarbamate inhibits in vivo Cu,Zn-superoxide dismutase and perturbs free radical processes in the yeast Saccharomyces cerevisiae cells.
    Lushchak V, Semchyshyn H, Lushchak O, Mandryk S.
    Biochem Biophys Res Commun; 2005 Dec 30; 338(4):1739-44. PubMed ID: 16274662
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  • 29. Tocopherol metabolism using thermochemolysis: chemical and biological properties of gamma-tocopherol, gamma-carboxyethyl-hydroxychroman, and their quinones.
    Sachdeva R, Thomas B, Wang X, Ma J, Jones KH, Hatcher PG, Cornwell DG.
    Chem Res Toxicol; 2005 Jun 30; 18(6):1018-25. PubMed ID: 15962937
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  • 30. Bacterial plate assays and electrochemical methods: an efficient tandem for evaluating the ability of catechol-thioether metabolites of MDMA ("ecstasy") to induce toxic effects through redox-cycling.
    Felim A, Urios A, Neudörffer A, Herrera G, Blanco M, Largeron M.
    Chem Res Toxicol; 2007 Apr 30; 20(4):685-93. PubMed ID: 17355154
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  • 31. Production of reactive oxygen species and loss of viability in yeast mitochondrial mutants: protective effect of Bcl-xL.
    Trancíková A, Weisová P, Kissová I, Zeman I, Kolarov J.
    FEMS Yeast Res; 2004 Nov 30; 5(2):149-56. PubMed ID: 15489198
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  • 32. Aldo-keto reductase 1C15 as a quinone reductase in rat endothelial cell: its involvement in redox cycling of 9,10-phenanthrenequinone.
    Matsunaga T, Shinoda Y, Inoue Y, Shimizu Y, Haga M, Endo S, El-Kabbani O, Hara A.
    Free Radic Res; 2011 Jul 30; 45(7):848-57. PubMed ID: 21623689
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  • 33. Synthesis, electrochemistry, and bioactivity of the cyanobacterial calothrixins and related quinones.
    Bernardo PH, Chai CL, Heath GA, Mahon PJ, Smith GD, Waring P, Wilkes BA.
    J Med Chem; 2004 Sep 23; 47(20):4958-63. PubMed ID: 15369400
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  • 34. Cytocidal action of the quinone group and its relationship to antitumor activity.
    Begleiter A.
    Cancer Res; 1983 Feb 23; 43(2):481-4. PubMed ID: 6848172
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  • 38. Role of Nad(P)h: quinone oxidoreductase in the regulation of intracellular redox state.
    Mohora M.
    Rom J Intern Med; 1983 Feb 23; 38-39():33-50. PubMed ID: 15529570
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  • 39. Electrochemistry of potential bioreductive alkylating quinones: its use in the development of new aziridinylquinones.
    Driebergen RJ, Holthuis JJ, Hulshoff A, Postma-Kelder SJ, Verboom W, Reinhoudt DN, Lelieveld P.
    Anticancer Res; 1986 Feb 23; 6(4):605-19. PubMed ID: 3752941
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  • 40. Acrolein toxicity involves oxidative stress caused by glutathione depletion in the yeast Saccharomyces cerevisiae.
    Kwolek-Mirek M, Bednarska S, Bartosz G, Biliński T.
    Cell Biol Toxicol; 2009 Aug 23; 25(4):363-78. PubMed ID: 18563599
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