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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

204 related items for PubMed ID: 11665494

  • 21.
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  • 22. Protein redox potential measurements based on kinetic analysis with mediated continuous-flow column electrolytic spectroelectrochemical technique. Application to TTQ-containing methylamine dehydrogenase.
    Sato A, Torimura M, Takagi K, Kano K, Ikeda T.
    Anal Chem; 2000 Jan 01; 72(1):150-5. PubMed ID: 10655647
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  • 23. Physiological importance of quinoenzymes and the O-quinone family of cofactors.
    Stites TE, Mitchell AE, Rucker RB.
    J Nutr; 2000 Apr 01; 130(4):719-27. PubMed ID: 10736320
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  • 24. Enzymatic H-transfer requires vibration-driven extreme tunneling.
    Basran J, Sutcliffe MJ, Scrutton NS.
    Biochemistry; 1999 Mar 09; 38(10):3218-22. PubMed ID: 10074378
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  • 28. The Redox Properties of a Cysteine Tryptophylquinone-Dependent Glycine Oxidase Are Distinct from Those of Tryptophylquinone-Dependent Dehydrogenases.
    Ma Z, Davidson VL.
    Biochemistry; 2019 Apr 30; 58(17):2243-2249. PubMed ID: 30945853
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  • 32. Gated and ungated electron transfer reactions from aromatic amine dehydrogenase to azurin.
    Hyun YL, Zhu Z, Davidson VL.
    J Biol Chem; 1999 Oct 08; 274(41):29081-6. PubMed ID: 10506161
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  • 36. Kinetic and physical evidence that the diheme enzyme MauG tightly binds to a biosynthetic precursor of methylamine dehydrogenase with incompletely formed tryptophan tryptophylquinone.
    Li X, Fu R, Liu A, Davidson VL.
    Biochemistry; 2008 Mar 04; 47(9):2908-12. PubMed ID: 18220357
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  • 39. Spectroscopic evidence for a common electron transfer pathway for two tryptophan tryptophylquinone enzymes.
    Edwards SL, Davidson VL, Hyun YL, Wingfield PT.
    J Biol Chem; 1995 Mar 03; 270(9):4293-8. PubMed ID: 7876189
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  • 40. Apparent oxygen-dependent inhibition by superoxide dismutase of the quinoprotein methanol dehydrogenase.
    Davidson VL, Kumar MA, Wu JY.
    Biochemistry; 1992 Feb 11; 31(5):1504-8. PubMed ID: 1310612
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