Purification and characterization of catalytic fragments of phosphorylase kinase gamma subunit missing a calmodulin-binding domain.

Abstract

A catalytic fragment preparation of rabbit muscle phosphorylase kinase produced by limited chymotryptic digestion was isolated and identified as the NH2-terminal region of the gamma subunit by Edman degradation. Mass spectral analysis, gas phase sequence analysis, and amino acid analysis of the active fragment carboxyl-terminal peptides revealed multiple COOH termini generated at residues Tyr290, Arg296, and Phe298 in the gamma subunit sequence. These active fragment species are about 24% smaller than the gamma subunit (Mr 44,673) and range in size from Mr 33,279 to Mr 34,275. The active fragment preparation exhibits a specific activity about 6-fold higher than that of the gamma subunit-calmodulin complex. Calmodulin confers calcium sensitivity to the gamma subunit but has no effect on the enzymatic properties of active fragment. Affinity measurements demonstrated a dissociation constant of 0.7 microM for active fragment binding to dansylcalmodulin, a value about 28-fold weaker than reported for the gamma subunit. These data support the presence of a calmodulin binding domain in the COOH-terminal region of the gamma subunit.