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Journal Abstract Search

729 related items for PubMed ID: 11841289

  • 1. The nature of the intermediates in the reactions of Fe(III)- and Mn(III)-microperoxidase-8 with H(2)O(2): a rapid kinetics study.
    Primus JL, Grunenwald S, Hagedoorn PL, Albrecht-Gary AM, Mandon D, Veeger C.
    J Am Chem Soc; 2002 Feb 20; 124(7):1214-21. PubMed ID: 11841289
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  • 3. Bioinspired Nonheme Iron Catalysts for C-H and C═C Bond Oxidation: Insights into the Nature of the Metal-Based Oxidants.
    Oloo WN, Que L.
    Acc Chem Res; 2015 Sep 15; 48(9):2612-21. PubMed ID: 26280131
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  • 4. Rapid and quantitative activation of Chlamydia trachomatis ribonucleotide reductase by hydrogen peroxide.
    Jiang W, Xie J, Nørgaard H, Bollinger JM, Krebs C.
    Biochemistry; 2008 Apr 15; 47(15):4477-83. PubMed ID: 18358006
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  • 6. Thermodynamic, electrochemical, high-pressure kinetic, and mechanistic studies of the formation of oxo Fe(IV)-TAML species in water.
    Popescu DL, Vrabel M, Brausam A, Madsen P, Lente G, Fabian I, Ryabov AD, van Eldik R, Collins TJ.
    Inorg Chem; 2010 Dec 20; 49(24):11439-48. PubMed ID: 21086984
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  • 7. Stopped-flow kinetic study of the peroxidase reactions of mangano-microperoxidase-8.
    Yeh HC, Yu CH, Wang JS, Chen ST, Su O, Lin WY.
    J Biol Inorg Chem; 2002 Jan 20; 7(1-2):113-9. PubMed ID: 11862547
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  • 8. Binuclear manganese compounds of potential biological significance. Part 2. Mechanistic study of hydrogen peroxide disproportionation by dimanganese complexes: the two oxygen atoms of the peroxide end up in a dioxo intermediate.
    Dubois L, Caspar R, Jacquamet L, Petit PE, Charlot MF, Baffert C, Collomb MN, Deronzier A, Latour JM.
    Inorg Chem; 2003 Aug 11; 42(16):4817-27. PubMed ID: 12895103
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  • 10. Monomeric MnIII/II and FeIII/II complexes with terminal hydroxo and oxo ligands: probing reactivity via O-H bond dissociation energies.
    Gupta R, Borovik AS.
    J Am Chem Soc; 2003 Oct 29; 125(43):13234-42. PubMed ID: 14570499
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  • 11. Transient formation of the oxo-iron(IV) porphyrin radical cation during the reaction of iron(III) tetrakis-5,10,15,20-(N-methyl-4-pyridyl)porphyrin with hydrogen peroxide in aqueous solution.
    Saha TK, Karmaker S, Tamagake K.
    Luminescence; 2003 Oct 29; 18(3):162-72. PubMed ID: 12701092
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  • 14. The second step of the nitric oxide synthase reaction: evidence for ferric-peroxo as the active oxidant.
    Woodward JJ, Chang MM, Martin NI, Marletta MA.
    J Am Chem Soc; 2009 Jan 14; 131(1):297-305. PubMed ID: 19128180
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  • 15. Stopped-flow kinetic study of the H2O2 oxidation of substrates catalyzed by microperoxidase-8.
    Yeh HC, Wang JS, Su YO, Lin WY.
    J Biol Inorg Chem; 2001 Oct 14; 6(8):770-7. PubMed ID: 11713684
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  • 18. Modeling the haloperoxidases: reversible oxygen atom transfer between bromide ion and an oxo-Mn(V) porphyrin.
    Lahaye D, Groves JT.
    J Inorg Biochem; 2007 Nov 14; 101(11-12):1786-97. PubMed ID: 17825916
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  • 19. Kinetic simulation studies on the transient formation of the oxo-iron(IV) porphyrin radical cation during the reaction of iron(III) tetrakis-5,10,15,20-(N-methyl-4-pyridyl)-porphyrin with hydrogen peroxide in aqueous solution.
    Saha TK, Karmaker S, Tamagake K.
    Luminescence; 2003 Nov 14; 18(5):259-67. PubMed ID: 14587077
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