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Determination of the ionization state of the active-site histidine in a subtilisin-(chloromethane inhibitor) derivative by 13C-NMR.


ABSTRACT: Subtilisin BPN' has been alkylated using benzyloxycarbonyl-glycylglycyl[1-13C]phenylalanylchloromethane+ ++. Using difference 13C-NMR spectroscopy a single signal due to the 13C-enriched alpha-methylene carbon of the subtilisin-(chloromethane inhibitor) derivative was detected. No evidence for the denaturation/ autolysis of this derivative was obtained from pH 3.5 to 11.5. However, incubating at pH 12.75 or heating in the presence of SDS at pH 6.9 did denature this derivative. The negative titration shift of the alpha-methylene carbon of the denatured derivatives confirmed that the inhibitor had alkylated N-3 of the imidazole ring of the active-site histidine. The positive titration shift of 3.96 p.p.m. and the pKa of 7.04 obtained from studying the native subtilisin-(chloromethane inhibitor) derivative are assigned to oxyanion formation. We conclude that the pKa of the alkylated histidine residue in the native subtilisin-(chloromethane inhibitor) derivative must be > 12 and that subtilisin preferentially stabilizes the zwitterionic tetrahedral adduct consisting of the oxyanion and the imidazolium ion of the active-site histidine residue. We show that even before the oxyanion is formed the pKa of the active-site histidine must be much greater than that of the oxyanion in the zwitterionic tetrahedral adduct. We discuss the significance of our results for the catalytic mechanism of the serine proteinases.

SUBMITTER: O'Connell TP 

PROVIDER: S-EPMC1217482 | biostudies-other | 1996 Jul

REPOSITORIES: biostudies-other

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