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Journal Abstract Search

80 related items for PubMed ID: 719058

  • 1. [Bioelectrochemical oxidation of formate].
    Sukhno AA, Petukhova RI, Kiseleva ZL, Dmitirieva EB, Rodionov IuV.
    Biokhimiia; 1978 Oct; 43(10):1900-4. PubMed ID: 719058
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  • 3. [Two ways of formate oxidation in methylotrophic bacteria].
    Rodionov IuV, Zakharova EV.
    Biokhimiia; 1980 May; 45(5):854-63. PubMed ID: 6246983
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  • 4. Reversible, electrochemical interconversion of NADH and NAD+ by the catalytic (Ilambda) subcomplex of mitochondrial NADH:ubiquinone oxidoreductase (complex I).
    Zu Y, Shannon RJ, Hirst J.
    J Am Chem Soc; 2003 May 21; 125(20):6020-1. PubMed ID: 12785808
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  • 7. NADH dehydrogenase-like behavior of nitrogen-doped graphene and its application in NAD(+)-dependent dehydrogenase biosensing.
    Gai PP, Zhao CE, Wang Y, Abdel-Halim ES, Zhang JR, Zhu JJ.
    Biosens Bioelectron; 2014 Dec 15; 62():170-6. PubMed ID: 24999994
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  • 9. CO2 reduction to formate by NADH catalysed by formate dehydrogenase from Pseudomonas oxalaticus.
    Ruschig U, Müller U, Willnow P, Höpner T.
    Eur J Biochem; 1976 Nov 15; 70(2):325-30. PubMed ID: 12947
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  • 10. How does methylviologen cation radical supply two electrons to the formate dehydrogenase in the catalytic reduction process of CO2 to formate?
    Miyaji A, Amao Y.
    Phys Chem Chem Phys; 2020 Sep 07; 22(33):18595-18605. PubMed ID: 32785412
    [Abstract] [Full Text] [Related]

  • 11. Effect of NADH-X on cytosolic glycerol-3-phosphate dehydrogenase.
    Prabhakar P, Laboy JI, Wang J, Budker T, Din ZZ, Chobanian M, Fahien LA.
    Arch Biochem Biophys; 1998 Dec 15; 360(2):195-205. PubMed ID: 9851831
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  • 12. 5-Hydroxytryptophan as a precursor of a catalyst for the oxidation of NADH.
    de-los-Santos-Alvarez N, Lobo-Castañón MJ, Miranda-Ordieres AJ, Tuñón-Blanco P, Abruña HD.
    Anal Chem; 2005 Apr 15; 77(8):2624-31. PubMed ID: 15828802
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  • 13. [Role of sulfhydryl groups in the inactivation mechanism of bacterial formate dehydrogenase].
    Kikov MM, Osipov AP, Egorov AM.
    Biokhimiia; 1980 Sep 15; 45(9):1554-9. PubMed ID: 7248357
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  • 14. Electrochemical sensing platform based on the highly ordered mesoporous carbon-fullerene system.
    Zhou M, Guo J, Guo LP, Bai J.
    Anal Chem; 2008 Jun 15; 80(12):4642-50. PubMed ID: 18476717
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  • 15. Synergetic effect for NADH oxidation of ferrocene and zeolite in modified carbon paste electrodes. New approach for dehydrogenase based biosensors.
    Serban S, El Murr N.
    Biosens Bioelectron; 2004 Sep 15; 20(2):161-6. PubMed ID: 15308217
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  • 16. Mitochondrial malate dehydrogenase, decarboxylating ("malic" enzyme) and transhydrogenase activities of adult Hymenolepis microstoma (Cestoda).
    Fioravanti CF.
    J Parasitol; 1982 Apr 15; 68(2):213-20. PubMed ID: 7077455
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  • 17. Evidence for free radical generation due to NADH oxidation by aldehyde oxidase during ethanol metabolism.
    Mira L, Maia L, Barreira L, Manso CF.
    Arch Biochem Biophys; 1995 Apr 01; 318(1):53-8. PubMed ID: 7726572
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  • 18. p-nitrosophenol reduction by liver cytosol from ADH-positive and -negative deermice (Peromyscus maniculatus).
    Dudley BF, Winston GW.
    Arch Biochem Biophys; 1995 Feb 01; 316(2):879-85. PubMed ID: 7532387
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  • 19. Effect of ethanol and metabolic substrates on the oxidation of aminopyrine, formaldehyde and formate by isolated hepatocytes.
    Dicker E, Cederbaum AI.
    J Pharmacol Exp Ther; 1983 Dec 01; 227(3):687-93. PubMed ID: 6418880
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  • 20. Carbon nanotube-chitosan system for electrochemical sensing based on dehydrogenase enzymes.
    Zhang M, Smith A, Gorski W.
    Anal Chem; 2004 Sep 01; 76(17):5045-50. PubMed ID: 15373440
    [Abstract] [Full Text] [Related]

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