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Journal Abstract Search

96 related items for PubMed ID: 7548161

  • 41. The reaction mechanisms of heme catalases: an atomistic view by ab initio molecular dynamics.
    Alfonso-Prieto M, Vidossich P, Rovira C.
    Arch Biochem Biophys; 2012 Sep 15; 525(2):121-30. PubMed ID: 22516655
    [Abstract] [Full Text] [Related]

  • 42. Structure of Helicobacter pylori catalase, with and without formic acid bound, at 1.6 A resolution.
    Loewen PC, Carpena X, Rovira C, Ivancich A, Perez-Luque R, Haas R, Odenbreit S, Nicholls P, Fita I.
    Biochemistry; 2004 Mar 23; 43(11):3089-103. PubMed ID: 15023060
    [Abstract] [Full Text] [Related]

  • 43. Expression, purification, and characterization of a membrane-bound D-amino acid dehydrogenase from Proteus mirabilis JN458.
    Xu J, Bai Y, Fan T, Zheng X, Cai Y.
    Biotechnol Lett; 2017 Oct 23; 39(10):1559-1566. PubMed ID: 28676939
    [Abstract] [Full Text] [Related]

  • 44. A hydrogen bond network in the active site of Anabaena ferredoxin-NADP(+) reductase modulates its catalytic efficiency.
    Sánchez-Azqueta A, Herguedas B, Hurtado-Guerrero R, Hervás M, Navarro JA, Martínez-Júlvez M, Medina M.
    Biochim Biophys Acta; 2014 Feb 23; 1837(2):251-63. PubMed ID: 24200908
    [Abstract] [Full Text] [Related]

  • 45. Nucleotide sequence and characterization of a carbenicillin-hydrolyzing penicillinase gene from Proteus mirabilis.
    Sakurai Y, Tsukamoto K, Sawai T.
    J Bacteriol; 1991 Nov 23; 173(21):7038-41. PubMed ID: 1840585
    [Abstract] [Full Text] [Related]

  • 46. Purification and properties of the Proteus mirabilis catalase.
    Jouve HM, Tessier S, Pelmont J.
    Can J Biochem Cell Biol; 1983 Jan 23; 61(1):8-14. PubMed ID: 6342724
    [Abstract] [Full Text] [Related]

  • 47. Relationship between the size of the bottleneck 15 A from iron in the main channel and the reactivity of catalase corresponding to the molecular size of substrates.
    Hara I, Ichise N, Kojima K, Kondo H, Ohgiya S, Matsuyama H, Yumoto I.
    Biochemistry; 2007 Jan 09; 46(1):11-22. PubMed ID: 17198371
    [Abstract] [Full Text] [Related]

  • 48. The XerC recombinase of Proteus mirabilis: characterization and interaction with other tyrosine recombinases.
    Villion M, Szatmari G.
    FEMS Microbiol Lett; 2003 Sep 12; 226(1):65-71. PubMed ID: 13129609
    [Abstract] [Full Text] [Related]

  • 49. Proteus mirabilis amino acid deaminase: cloning, nucleotide sequence, and characterization of aad.
    Massad G, Zhao H, Mobley HL.
    J Bacteriol; 1995 Oct 12; 177(20):5878-83. PubMed ID: 7592338
    [Abstract] [Full Text] [Related]

  • 50. Porcine recombinant dihydropyrimidine dehydrogenase: comparison of the spectroscopic and catalytic properties of the wild-type and C671A mutant enzymes.
    Rosenbaum K, Jahnke K, Curti B, Hagen WR, Schnackerz KD, Vanoni MA.
    Biochemistry; 1998 Dec 15; 37(50):17598-609. PubMed ID: 9860876
    [Abstract] [Full Text] [Related]

  • 51. Catalytic and structural properties of IRT-21 beta-lactamase (TEM-77) from a co-amoxiclav-resistant Proteus mirabilis isolate.
    Mammeri H, Gilly L, Laurans G, Vedel G, Eb F, Paul G.
    FEMS Microbiol Lett; 2001 Dec 18; 205(2):185-9. PubMed ID: 11750800
    [Abstract] [Full Text] [Related]

  • 52. Proton transfer drives protein radical formation in Helicobacter pylori catalase but not in Penicillium vitale catalase.
    Alfonso-Prieto M, Oberhofer H, Klein ML, Rovira C, Blumberger J.
    J Am Chem Soc; 2011 Mar 30; 133(12):4285-98. PubMed ID: 21381757
    [Abstract] [Full Text] [Related]

  • 53. Electron transfer in flavocytochrome P450 BM3: kinetics of flavin reduction and oxidation, the role of cysteine 999, and relationships with mammalian cytochrome P450 reductase.
    Roitel O, Scrutton NS, Munro AW.
    Biochemistry; 2003 Sep 16; 42(36):10809-21. PubMed ID: 12962506
    [Abstract] [Full Text] [Related]

  • 54. Oxygen consumption and oxyradical production from microsomal reduction of aqueous extracts of cigarette tar.
    Winston GW, Church DF, Cueto R, Pryor WA.
    Arch Biochem Biophys; 1993 Aug 01; 304(2):371-8. PubMed ID: 8394056
    [Abstract] [Full Text] [Related]

  • 55. Distal site aspartate is essential in the catalase activity of catalase-peroxidases.
    Jakopitsch C, Auer M, Regelsberger G, Jantschko W, Furtmüller PG, Rüker F, Obinger C.
    Biochemistry; 2003 May 13; 42(18):5292-300. PubMed ID: 12731870
    [Abstract] [Full Text] [Related]

  • 56. Interflavin one-electron transfer in the inducible nitric oxide synthase reductase domain and NADPH-cytochrome P450 reductase.
    Yamamoto K, Kimura S, Shiro Y, Iyanagi T.
    Arch Biochem Biophys; 2005 Aug 01; 440(1):65-78. PubMed ID: 16009330
    [Abstract] [Full Text] [Related]

  • 57. Three-dimensional model and molecular mechanism of Mycobacterium tuberculosis catalase-peroxidase (KatG) and isoniazid-resistant KatG mutants.
    Mo L, Zhang W, Wang J, Weng XH, Chen S, Shao LY, Pang MY, Chen ZW.
    Microb Drug Resist; 2004 Aug 01; 10(4):269-79. PubMed ID: 15650370
    [Abstract] [Full Text] [Related]

  • 58. Emergence of multidrug-resistant Proteus mirabilis in a long-term care facility in Croatia.
    Bedenić B, Firis N, Elveđi-Gašparović V, Krilanović M, Matanović K, Štimac I, Luxner J, Vraneš J, Meštrović T, Zarfel G, Grisold A.
    Wien Klin Wochenschr; 2016 Jun 01; 128(11-12):404-13. PubMed ID: 27220339
    [Abstract] [Full Text] [Related]

  • 59. Solubilization and purification of a cytoplasmic membrane bound enzyme catalyzing tetrathionate and thiosulphate reduction in Proteus mirabilis.
    Oltmann LF, Schoenmaker GS, Stouthamer AH.
    Arch Mikrobiol; 1974 Jun 07; 98(1):19-30. PubMed ID: 4599885
    [No Abstract] [Full Text] [Related]

  • 60. Theory Uncovers the Role of the Methionine-Tyrosine-Tryptophan Radical Adduct in the Catalase Reaction of KatGs: O2  Release Mediated by Proton-Coupled Electron Transfer.
    Wang B, Fita I, Rovira C.
    Chemistry; 2018 Apr 06; 24(20):5388-5395. PubMed ID: 29462509
    [Abstract] [Full Text] [Related]

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