PMID: 2507540Oct 15, 1989Paper

The gamma-subunit of skeletal muscle phosphorylase kinase contains two noncontiguous domains that act in concert to bind calmodulin.

The Journal of Biological Chemistry
M DasguptaD K Blumenthal

Abstract

Phosphorylase kinase is a Ca2+-regulated, multisubunit enzyme that contains calmodulin as an integral subunit (termed the delta-subunit). Ca2+-dependent activity of the enzyme is thought to be regulated by direct interaction of the delta-subunit with the catalytic subunit (the gamma-subunit) in the holoenzyme complex. In order to systematically search for putative calmodulin (delta-subunit)-binding domain(s) in the gamma-subunit of phosphorylase kinase, a series of 18 overlapping peptides corresponding to the C terminus of the gamma-subunit was chemically synthesized using a tea bag method. The calmodulin-binding activity of each peptide was tested for its ability to inhibit Ca2+/calmodulin-dependent activation of myosin light chain kinase. Data were obtained indicating that two distinct regions in the gamma-subunit, one spanning residues 287-331 (termed domain-N) and the other residues 332-371 (domain-C), are capable of binding calmodulin with nanomolar affinity. Peptides from both of these two domains also inhibited calmodulin-dependent reactivation of denatured gamma-subunit. The interactions of peptides from both domain-N and domain-C with calmodulin were found to be Ca2+-dependent. Dixon plots obtained using mixtures of pe...Continue Reading

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