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Journal Abstract Search

233 related items for PubMed ID: 16287271

  • 1. Oriented immobilization of Desulfovibrio gigas hydrogenase onto carbon electrodes by covalent bonds for nonmediated oxidation of H2.
    Rüdiger O, Abad JM, Hatchikian EC, Fernandez VM, De Lacey AL.
    J Am Chem Soc; 2005 Nov 23; 127(46):16008-9. PubMed ID: 16287271
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  • 2. Spectroelectrochemical study of the [NiFe] hydrogenase from Desulfovibrio vulgaris Miyazaki F in solution and immobilized on biocompatible gold surfaces.
    Millo D, Pandelia ME, Utesch T, Wisitruangsakul N, Mroginski MA, Lubitz W, Hildebrandt P, Zebger I.
    J Phys Chem B; 2009 Nov 19; 113(46):15344-51. PubMed ID: 19845323
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  • 3. [FeFe]-hydrogenase-catalyzed H2 production in a photoelectrochemical biofuel cell.
    Hambourger M, Gervaldo M, Svedruzic D, King PW, Gust D, Ghirardi M, Moore AL, Moore TA.
    J Am Chem Soc; 2008 Feb 13; 130(6):2015-22. PubMed ID: 18205358
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  • 6. Catalytic electron transport in Chromatium vinosum [NiFe]-hydrogenase: application of voltammetry in detecting redox-active centers and establishing that hydrogen oxidation is very fast even at potentials close to the reversible H+/H2 value.
    Pershad HR, Duff JL, Heering HA, Duin EC, Albracht SP, Armstrong FA.
    Biochemistry; 1999 Jul 13; 38(28):8992-9. PubMed ID: 10413472
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  • 8. Immobilization of the [FeFe]-hydrogenase CrHydA1 on a gold electrode: design of a catalytic surface for the production of molecular hydrogen.
    Krassen H, Stripp S, von Abendroth G, Ataka K, Happe T, Heberle J.
    J Biotechnol; 2009 Jun 01; 142(1):3-9. PubMed ID: 19480942
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  • 10. Effect of the protonation degree of a self-assembled monolayer on the immobilization dynamics of a [NiFe] hydrogenase.
    Utesch T, Millo D, Castro MA, Hildebrandt P, Zebger I, Mroginski MA.
    Langmuir; 2013 Jan 15; 29(2):673-82. PubMed ID: 23215250
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  • 11. Immobilization of the hyperthermophilic hydrogenase from Aquifex aeolicus bacterium onto gold and carbon nanotube electrodes for efficient H2 oxidation.
    Luo X, Brugna M, Tron-Infossi P, Giudici-Orticoni MT, Lojou E.
    J Biol Inorg Chem; 2009 Nov 15; 14(8):1275-88. PubMed ID: 19629542
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  • 12. High-performance hydrogen production and oxidation electrodes with hydrogenase supported on metallic single-wall carbon nanotube networks.
    Svedružić D, Blackburn JL, Tenent RC, Rocha JD, Vinzant TB, Heben MJ, King PW.
    J Am Chem Soc; 2011 Mar 30; 133(12):4299-306. PubMed ID: 21384925
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  • 13. Potentiometric and voltammetric investigations of H2/H+ catalysis by periplasmic hydrogenase from Desulfovibrio gigas immobilized at the electrode surface in an amphiphilic bilayer assembly.
    Parpaleix T, Laval JM, Majda M, Bourdillon C.
    Anal Chem; 1992 Mar 15; 64(6):641-6. PubMed ID: 1316088
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  • 14. Proton pathways in a [NiFe]-hydrogenase: A theoretical study.
    Teixeira VH, Soares CM, Baptista AM.
    Proteins; 2008 Feb 15; 70(3):1010-22. PubMed ID: 17847093
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  • 15. Polymyxin-coated Au and carbon nanotube electrodes for stable [NiFe]-hydrogenase film voltammetry.
    Hoeben FJ, Heller I, Albracht SP, Dekker C, Lemay SG, Heering HA.
    Langmuir; 2008 Jun 03; 24(11):5925-31. PubMed ID: 18459755
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  • 18. Covalent attachment of FeFe hydrogenases to carbon electrodes for direct electron transfer.
    Baffert C, Sybirna K, Ezanno P, Lautier T, Hajj V, Meynial-Salles I, Soucaille P, Bottin H, Léger C.
    Anal Chem; 2012 Sep 18; 84(18):7999-8005. PubMed ID: 22891965
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  • 19. Relativistic DFT calculation of the reaction cycle intermediates of [NiFe] hydrogenase: a contribution to understanding the enzymatic mechanism.
    Stein M, Lubitz W.
    J Inorg Biochem; 2004 May 18; 98(5):862-77. PubMed ID: 15134933
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  • 20. Electrochemistry, AFM, and PM-IRRA spectroscopy of immobilized hydrogenase: role of a hydrophobic helix in enzyme orientation for efficient H2 oxidation.
    Ciaccafava A, Infossi P, Ilbert M, Guiral M, Lecomte S, Giudici-Orticoni MT, Lojou E.
    Angew Chem Int Ed Engl; 2012 Jan 23; 51(4):953-6. PubMed ID: 22173906
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