PH dependence of the reaction rate of His 48 with p-bromophenacyl bromide and of the binding constant to Ca2+ of the monomeric forms of intact and alpha-NH2 modified phospholipases A2 from Trimeresurus flavoviridis.

Abstract

The phospholipase A2 of Trimeresurus flavoviridis was found to show monomer-dimer equilibria. Under conditions where the enzyme exists predominantly in the monomeric form, the chemical reaction rate of p-bromophenacyl bromide (BPB) with the catalytic group, His 48, was studied at 25 degrees C and ionic strength 0.2 by measuring the residual enzymic activity using a fluorescent substrate, 1,2-bis[4-(1-pyreno)butanoyl]-sn-glycero-3-phosphorylcholine (diPBPC). The pH-dependence curve of the reaction rate for the intact enzyme was practically the same as that for the modified enzyme, in which the N-terminal alpha-NH2 group had been selectively converted into an alpha-keto group. The pH-dependence curves were monophasic (sigmoidal) with a midpoint at pH 7.53, which corresponds to the pKa value of His 48. The pH dependences of the binding constants of Ca2+ to the intact and the alpha-NH2 modified enzymes were also studied at 25 degrees C and ionic strength 0.2 by measuring the changes in the tryptophyl fluorescence and/or aromatic CD spectra. The pH-dependence data for the modified enzyme were interpreted in terms of participation of Asp 49 (pKa 5.40) and His 48 (pKa 7.53), assuming that the protonation of Asp 49 competes with the Ca2+ binding. The pH-dependence data for the intact enzyme were similarly interpreted in terms of participation of the alpha-NH2 group (pKa 9.40) in addition to that of Asp 49 (pKa 5.40) and His 48 (pKa 7.53).(ABSTRACT TRUNCATED AT 250 WORDS)