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Journal Abstract Search

288 related items for PubMed ID: 6509029

  • 1. Determination of dissociation constants for enzyme-reactant complexes for NAD-malic enzyme by modulation of the thiol inactivation rate.
    Kiick DM, Allen BL, Rao JG, Harris BG, Cook PF.
    Biochemistry; 1984 Nov 06; 23(23):5454-9. PubMed ID: 6509029
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  • 2. Studies on regulatory functions of malic enzymes. VII. Structural and functional characteristics of sulfhydryl groups in NADP-linked malic enzyme from Escherichia coli W.
    Iwakura M, Tokushige M, Katsuki H.
    J Biochem; 1979 Nov 06; 86(5):1239-49. PubMed ID: 42642
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  • 5. Modification of a thiol at the active site of the Ascaris suum NAD-malic enzyme results in changes in the rate-determining steps for oxidative decarboxylation of L-malate.
    Gavva SR, Harris BG, Weiss PM, Cook PF.
    Biochemistry; 1991 Jun 11; 30(23):5764-9. PubMed ID: 2043616
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  • 6. Oxalacetate decarboxylase and pyruvate carboxylase activities, and effect of sulfhydryl reagents in malic enzyme from Sulfolobus solfataricus.
    Guagliardi A, Moracci M, Manco G, Rossi M, Bartolucci S.
    Biochim Biophys Acta; 1988 Nov 23; 957(2):301-11. PubMed ID: 3142524
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  • 9. [Effect of thiol reagents on the activity of NADP-dependent malate dehydrogenase isolated from bovine adrenal cortex cytoplasm].
    Senkevich SB, Strumilo SA, Vinogradov VV.
    Ukr Biokhim Zh (1978); 1987 Nov 23; 59(6):64-7. PubMed ID: 3433383
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  • 11. Inactivation of Escherichia coli glycerol kinase by 5,5'-dithiobis(2-nitrobenzoic acid) and N-ethylmaleimide: evidence for nucleotide regulatory binding sites.
    Pettigrew DW.
    Biochemistry; 1986 Aug 12; 25(16):4711-8. PubMed ID: 3021201
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  • 13. Deoxycytidylate hydroxymethylase: purification, properties, and the role of a thiol group in catalysis.
    Lee MH, Gautam-Basak M, Woolley C, Sander EG.
    Biochemistry; 1988 Feb 23; 27(4):1367-73. PubMed ID: 3284582
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  • 15. Mechanism of pigeon liver malic enzyme. Modification of sulfhydryl groups by 5,5'-dithiobis(2-nitrobenzoic acid) and N-ethylmaleimide.
    Tang CL, Hsu RY.
    J Biol Chem; 1974 Jun 25; 249(12):3916-22. PubMed ID: 4857984
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  • 16. Isotope partitioning for NAD-malic enzyme from Ascaris suum confirms a steady-state random kinetic mechanism.
    Chen CY, Harris BG, Cook PF.
    Biochemistry; 1988 Jan 12; 27(1):212-9. PubMed ID: 3280016
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  • 17. Mechanism of pigeon liver malic enzyme: kinetics, specificity, and half-site stoichiometry of the alkylation of a cysteinyl residue by the substrate-inhibitor bromopyruvate.
    Chang GG, Hsu RY.
    Biochemistry; 1977 Jan 25; 16(2):311-20. PubMed ID: 13810
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  • 18. Role of metal cofactors in enzyme regulation. Differences in the regulatory properties of the Escherichia coli nicotinamide adenine dinucleotide phosphate specific malic enzyme, depending on whether magnesium ion or manganese ion serves as divalent cation.
    Brown DA, Cook RA.
    Biochemistry; 1981 Apr 28; 20(9):2503-12. PubMed ID: 7016178
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  • 19. Conformational features of bovine heart mitochondrial transhydrogenase.
    Modrak DE, Wu LN, Alberta JA, Fisher RR.
    Biochemistry; 1988 Oct 04; 27(20):7665-71. PubMed ID: 3207696
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  • 20. Ascaris suum NAD-malic enzyme is activated by L-malate and fumarate binding to separate allosteric sites.
    Karsten WE, Pais JE, Rao GS, Harris BG, Cook PF.
    Biochemistry; 2003 Aug 19; 42(32):9712-21. PubMed ID: 12911313
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