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Journal Abstract Search

155 related items for PubMed ID: 37441922

  • 1. Mechanistic complexities of sulfite oxidase: An enzyme with multiple domains, subunits, and cofactors.
    Enemark JH.
    J Inorg Biochem; 2023 Oct; 247():112312. PubMed ID: 37441922
    [Abstract] [Full Text] [Related]

  • 2. Effects of large-scale amino acid substitution in the polypeptide tether connecting the heme and molybdenum domains on catalysis in human sulfite oxidase.
    Johnson-Winters K, Nordstrom AR, Davis AC, Tollin G, Enemark JH.
    Metallomics; 2010 Nov; 2(11):766-70. PubMed ID: 21072368
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  • 3. Effects of interdomain tether length and flexibility on the kinetics of intramolecular electron transfer in human sulfite oxidase.
    Johnson-Winters K, Nordstrom AR, Emesh S, Astashkin AV, Rajapakshe A, Berry RE, Tollin G, Enemark JH.
    Biochemistry; 2010 Feb 16; 49(6):1290-6. PubMed ID: 20063894
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  • 4. Effects of mutating aromatic surface residues of the heme domain of human sulfite oxidase on its heme midpoint potential, intramolecular electron transfer, and steady-state kinetics.
    Davis AC, Cornelison MJ, Meyers KT, Rajapakshe A, Berry RE, Tollin G, Enemark JH.
    Dalton Trans; 2013 Mar 07; 42(9):3043-9. PubMed ID: 22975842
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  • 5. Determination of the distance between the Mo(V) and Fe(III) heme centers of wild type human sulfite oxidase by pulsed EPR spectroscopy.
    Astashkin AV, Rajapakshe A, Cornelison MJ, Johnson-Winters K, Enemark JH.
    J Phys Chem B; 2012 Feb 16; 116(6):1942-50. PubMed ID: 22229742
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  • 7. Oxygen and nitrite reduction by heme-deficient sulphite oxidase in a patient with mild sulphite oxidase deficiency.
    Bender D, Kaczmarek AT, Kuester S, Burlina AB, Schwarz G.
    J Inherit Metab Dis; 2020 Jul 16; 43(4):748-757. PubMed ID: 31950508
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  • 10. The pathogenic human sulfite oxidase mutants G473D and A208D are defective in intramolecular electron transfer.
    Feng C, Wilson HL, Tollin G, Astashkin AV, Hazzard JT, Rajagopalan KV, Enemark JH.
    Biochemistry; 2005 Oct 25; 44(42):13734-43. PubMed ID: 16229463
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  • 13. Probing the role of a conserved salt bridge in the intramolecular electron transfer kinetics of human sulfite oxidase.
    Johnson-Winters K, Davis AC, Arnold AR, Berry RE, Tollin G, Enemark JH.
    J Biol Inorg Chem; 2013 Aug 25; 18(6):645-53. PubMed ID: 23779234
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  • 14. Oxygen reactivity of mammalian sulfite oxidase provides a concept for the treatment of sulfite oxidase deficiency.
    Belaidi AA, Röper J, Arjune S, Krizowski S, Trifunovic A, Schwarz G.
    Biochem J; 2015 Jul 15; 469(2):211-21. PubMed ID: 26171830
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  • 15. Molecular mechanism of intramolecular electron transfer in dimeric sulfite oxidase.
    Eh M, Kaczmarek AT, Schwarz G, Bender D.
    J Biol Chem; 2022 Mar 15; 298(3):101668. PubMed ID: 35120924
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  • 17. The catalytic mechanism for NO production by the mitochondrial enzyme, sulfite oxidase.
    Mutus B.
    Biochem J; 2019 Jul 15; 476(13):1955-1956. PubMed ID: 31308158
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  • 19. Role of conserved tyrosine 343 in intramolecular electron transfer in human sulfite oxidase.
    Feng C, Wilson HL, Hurley JK, Hazzard JT, Tollin G, Rajagopalan KV, Enemark JH.
    J Biol Chem; 2003 Jan 31; 278(5):2913-20. PubMed ID: 12424234
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  • 20. The structures of the C185S and C185A mutants of sulfite oxidase reveal rearrangement of the active site.
    Qiu JA, Wilson HL, Pushie MJ, Kisker C, George GN, Rajagopalan KV.
    Biochemistry; 2010 May 11; 49(18):3989-4000. PubMed ID: 20356030
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