| Abstract: | A casein kinase was highly purified from rabbit skeletal muscle whose substrate specificity and enzymatic properties were virtually identical to those of casein kinase-I from rabbit reticulocytes. Prolonged incubation of glycogen synthase with high concentrations of skeletal muscle casein kinase-I and Mg-ATP resulted in the incorporation of greater than 6 mol phosphate/mol subunit and decreased the activity ratio (+/- glucose-6P) from 0.8 to less than 0.02. The sites phosphorylated by casein kinase-I were all located in the N and C-terminal cyanogen bromide peptides, termed CB-1 and CB-2. At an incorporation of 6 mol phosphate/mol subunit, approximately equal to 2 mol/mol was present in CB-1 and approximately equal to 4 mol/mol in CB-2. Within CB-1, casein kinase-I phosphorylated the serines that were 3, 7 and 10 residues from the N-terminus of glycogen synthase, with minor phosphorylation at threonine-5. Within CB-2, approximately equal to 90% of the phosphate incorporated was located between residues 28 and 53, and at least five of the seven serine residues in this region were phosphorylated. The remaining 10% of phosphate incorporated into CB-2 was located between residues 98 and 123, mainly at a serine residue(s). Two of the major sites labelled by casein kinase-I (serine-3 and serine-10 of CB-1) are not phosphorylated by any other protein kinase. This will enable the role of casein kinase-I as a glycogen synthase kinase in vivo to be evaluated. |
