Phospholipase C from Bacillus cereus. Action on some artificial lecithins.

Abstract

The hydrolysis by phospholipase C from B. cereus of several lecithins of different fatty acyl chain length was examined. The enzyme showed significant activity towards mono-molecularly dispersed short chain lecithins and the reaction obeyed normal Michaelis-Menten kinetics. Rate vs. substrate concentration curves obtained with dihexanoyl-, diheptanoyl- and dioctanoyllecithins showed marked discontinuities in the region of the known critical micelle concentrations for these substrates and distinctly higher rates were obtained just above these levels. Using these three lecithins at levels below their respective critical micelle concentrations, rate increases were noted if the reactions were allowed to proceed to a sufficiently great extent. The presence of deoxycholate in the reaction system had little or no effect on the rate of enzyme-catalysed hydrolysis of lecithins of fatty acyl chain length less than or equal to Cbeta, but for fatty acyl chain lengths greater than C10, significant rate increases occurred. The pH profile for the enzyme activity was also examined.