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Journal Abstract Search

228 related items for PubMed ID: 6477624

  • 1. Effect of superoxide dismutase on hydroxylase activity and hydrogen peroxide formation in anthranilamide hydroxylation by a rat liver microsomal monooxygenase system.
    Ohta Y, Ishiguro I, Naito J, Shinohara R.
    Biochem Int; 1984 May; 8(5):617-27. PubMed ID: 6477624
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  • 2. Role of cytosolic superoxide dismutase as a stimulator in anthranilamide hydroxylation by a microsomal monooxygenase system in rat liver.
    Ohta Y, Ishiguro I, Naito J, Shinohara R.
    J Biochem; 1984 Nov; 96(5):1323-36. PubMed ID: 6441802
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  • 3. Oxycytochrome P-450: its breakdown to superoxide for the formation of hydrogen peroxide.
    Estabrook RW, Kawano S, Werringloer J, Kuthan H, Tsuji H, Graf H, Ullrich V.
    Acta Biol Med Ger; 1979 Nov; 38(2-3):423-34. PubMed ID: 229682
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  • 4. Roles of cytochrome b5 in the oxidation of testosterone and nifedipine by recombinant cytochrome P450 3A4 and by human liver microsomes.
    Yamazaki H, Nakano M, Imai Y, Ueng YF, Guengerich FP, Shimada T.
    Arch Biochem Biophys; 1996 Jan 15; 325(2):174-82. PubMed ID: 8561495
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  • 7. The peroxidatic function of liver microsomal cytochrome P-450: comparison of hydrogen peroxide and NADPH-catalysed N-demethylation reactions.
    Estabrook RW, Martin-Wixtrom C, Saeki Y, Renneberg R, Hildebrandt A, Werringloer J.
    Xenobiotica; 1984 Jan 15; 14(1-2):87-104. PubMed ID: 6719939
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  • 8. [Interaction of the Cu(Lys)2 complex with the NADPH-dependent microsomal electron transport system and microsomal membrane].
    Rumiantseva GV, Vaĭner LM.
    Biokhimiia; 1982 Jun 15; 47(6):921-30. PubMed ID: 6810958
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  • 9. Two sites of azo reduction in the monooxygenase system.
    Peterson FJ, Holtzman JL, Crankshaw D, Mason RP.
    Mol Pharmacol; 1988 Oct 15; 34(4):597-603. PubMed ID: 2845254
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  • 10. Interaction of constitutive and phenobarbital-induced cytochrome P-450 isozymes during the sequential oxidation of benzphetamine. Explanation for the difference in benzphetamine-induced hydrogen peroxide production and 455-nm complex formation in microsomes from untreated and phenobarbital-treated rats.
    Jeffery EH, Mannering GJ.
    Mol Pharmacol; 1983 May 15; 23(3):748-57. PubMed ID: 6865917
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  • 11. 1-Hydroxyethyl radical formation during NADPH- and NADH-dependent oxidation of ethanol by human liver microsomes.
    Rao DN, Yang MX, Lasker JM, Cederbaum AI.
    Mol Pharmacol; 1996 May 15; 49(5):814-21. PubMed ID: 8622631
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  • 14. Mechanism of acetaminophen-stimulated NADPH oxidation catalyzed by the peroxidase-H2O2 system.
    Keller RJ, Hinson JA.
    Drug Metab Dispos; 1991 May 15; 19(1):184-7. PubMed ID: 1673396
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  • 15. Purification and characterization of hepatic microsomal NADPH cytochrome c reductase from rhesus monkey (Macaca mulatta).
    Ojha V, Kohli KK.
    Biochem Mol Biol Int; 1994 Jan 15; 32(1):55-65. PubMed ID: 8012290
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  • 16. [Comparative study of effects of the tyrosine-copper(II) complex on xenobiotic hydroxylation and lipid peroxidation].
    Karuzina II, Bachmanova GI, Kuznetsova GP, Izotov MV, Archakov AI.
    Biokhimiia; 1979 Oct 15; 44(10):1796-804. PubMed ID: 41598
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  • 18. Role of cytochrome P-450 isoenzymes in the bioactivation of hydroxy anthraquinones.
    Fratta D, Simi S, Rainaldi G, Gervasi PG.
    Anticancer Res; 1994 Oct 15; 14(6B):2597-603. PubMed ID: 7872687
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  • 20. Redox cycling of 2-(x'-mono, -di, -trichlorophenyl)- 1, 4-benzoquinones, oxidation products of polychlorinated biphenyls.
    McLean MR, Twaroski TP, Robertson LW.
    Arch Biochem Biophys; 2000 Apr 15; 376(2):449-55. PubMed ID: 10775433
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