The role of cysteinyl residues in the phosphorylase kinase activity as revealed by iodacetamide modification

In native nonactivated phosphorylase kinase 14C] iodacetamide interacts with 50 cysteinyl residues per enzyme molecule (alpha beta gamma delta)4. According to their reactivity towards iodacetamide these residues can be classified into 3 groups. The most reactive cysteinyl residues are involved in the enzyme activation caused by modification of SH-groups. The enzyme inhibition is biphasic. The fast and slow inactivation reactions follow the pseudo-first order kinetics. The rate of inactivation is increased by Ca2+. Mg-ATP effectively protects the enzyme against the inactivation and chemical modification of three SH-groups per protomer (apha beta gamma delta). The kinetics of inactivation and of the 14C] iodacetamide label incorporation demonstrate that two cysteinyl residues per enzyme protomer (alpha beta gamma delta) are essential for the enzyme activity. These residues are located near the ATP-binding site of the beta and gamma subunits of phosphorylase kinase.