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Journal Abstract Search

126 related items for PubMed ID: 4041423

  • 1.
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  • 2. A 13C-n.m.r. investigation of ionizations within a trypsin-inhibitor complex. Evidence that the pKa of histidine-57 is raised by interaction with the hemiketal oxyanion.
    Primrose WU, Scott AI, Mackenzie NE, Malthouse JP.
    Biochem J; 1985 Nov 01; 231(3):677-82. PubMed ID: 4074329
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  • 5. 15N and 1H NMR spectroscopy of the catalytic histidine in chloromethyl ketone-inhibited complexes of serine proteases.
    Tsilikounas E, Rao T, Gutheil WG, Bachovchin WW.
    Biochemistry; 1996 Feb 20; 35(7):2437-44. PubMed ID: 8652587
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  • 6. Determination of the ionization state of the active-site histidine in a subtilisin-(chloromethane inhibitor) derivative by 13C-NMR.
    O'Connell TP, Malthouse JP.
    Biochem J; 1996 Jul 01; 317 ( Pt 1)(Pt 1):35-40. PubMed ID: 8694783
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  • 7. Complex of alpha-chymotrypsin and N-acetyl-L-leucyl-L-phenylalanyl trifluoromethyl ketone: structural studies with NMR spectroscopy.
    Liang TC, Abeles RH.
    Biochemistry; 1987 Dec 01; 26(24):7603-8. PubMed ID: 3427096
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  • 9. 13C and 1H NMR studies of ionizations and hydrogen bonding in chymotrypsin-glyoxal inhibitor complexes.
    Spink E, Cosgrove S, Rogers L, Hewage C, Malthouse JP.
    J Biol Chem; 2007 Mar 16; 282(11):7852-61. PubMed ID: 17213185
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  • 10. Single peptide bond hydrolysis/resynthesis in squash inhibitors of serine proteinases. 1. Kinetics and thermodynamics of the interaction between squash inhibitors and bovine beta-trypsin.
    Otlewski J, Zbyryt T.
    Biochemistry; 1994 Jan 11; 33(1):200-7. PubMed ID: 8286341
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  • 11. 13C NMR study of how the oxyanion pKa values of subtilisin and chymotrypsin tetrahedral adducts are affected by different amino acid residues binding in enzyme subsites S1-S4.
    O'Sullivan DB, O'Connell TP, Mahon MM, Koenig A, Milne JJ, Fitzpatrick TB, Malthouse JP.
    Biochemistry; 1999 May 11; 38(19):6187-94. PubMed ID: 10320347
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  • 12. Properties of the His57-Asp102 dyad of rat trypsin D189S in the zymogen, activated enzyme, and alpha1-proteinase inhibitor complexed forms.
    Kaslik G, Westler WM, Gráf L, Markley JL.
    Arch Biochem Biophys; 1999 Feb 15; 362(2):254-64. PubMed ID: 9989934
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  • 13. Characterization of the trypsin-like enzymes of Porphyromonas gingivalis W83 using a radiolabelled active-site-directed inhibitor.
    Curtis MA, Ramakrishnan M, Slaney JM.
    J Gen Microbiol; 1993 May 15; 139(5):949-55. PubMed ID: 8393070
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  • 15. Further observations on substrate-derived chloromethyl ketones that inactivate trypsin.
    Shaw E, Glover G.
    Arch Biochem Biophys; 1970 Aug 15; 139(2):298-305. PubMed ID: 5533676
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  • 16. Hemiacetal stabilization in a chymotrypsin inhibitor complex and the reactivity of the hydroxyl group of the catalytic serine residue of chymotrypsin.
    Cleary JA, Doherty W, Evans P, Malthouse JP.
    Biochim Biophys Acta; 2014 Jun 15; 1844(6):1119-27. PubMed ID: 24657307
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  • 17. 13C-NMR study of the inhibition of delta-chymotrypsin by a tripeptide-glyoxal inhibitor.
    Djurdjevic-Pahl A, Hewage C, Malthouse JP.
    Biochem J; 2002 Mar 01; 362(Pt 2):339-47. PubMed ID: 11853541
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  • 18. Synthesis, crystallization and properties of acetyl phenylalanyl lysine chloromethyl ketone: a potential inhibitor of serine proteases.
    Murthy VV, Laster T.
    Experientia; 1980 Apr 15; 36(4):397-8. PubMed ID: 6991271
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  • 20. Trypsin--pancreatic secretory inhibitor (Kazal inhibitor) interaction. Kinetic and thermodynamic properties.
    Schweitz H, Vincent JP, Lazdunski M.
    Biochemistry; 1973 Jul 17; 12(15):2841-6. PubMed ID: 4737011
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