Calcium Binding Induces Interaction between the N- and C-Terminal Domains of Yeast Calmodulin and Modulates Its Overall Conformation

Abstract

Calmodulin from the yeast Saccharomyces cerevisiae binds 3 mol of Ca²⁺ cooperatively. We report here lines of evidence supporting the intramolecular interaction between the N- and C-terminal domains which modulates the Ca²⁺ binding properties of yeast calmodulin. First, the sum of the Ca²⁺ binding curves of the N-terminal and the C-terminal half-molecule did not yield the Ca²⁺ binding curve of yeast calmodulin. Second, the mean residue CD of yeast calmodulin at 222 nm (−Δε₂₂₂) decreased with increases in the concentration of Ca²⁺, whereas those of each half-molecule increased. Finally, the C2 proton of His107 in the C-terminal domain of yeast calmodulin showed three resonance peaks with increases in the concentration of Ca²⁺, each corresponding to the apo, the intermediate, and the Ca²⁺-saturated state. The intermediate peak could not be observed in the C-terminal half-molecule of yeast calmodulin. Computer simulation considering the macroscopic Ca²⁺ binding constants assigned this intermediate to a species consisting of the apo C-terminal domain and the N-terminal domain with at least one of the two sites occupied by Ca²⁺. Peptide segments spanning the defective fourth Ca²⁺ binding site may be involved in the interdomain interaction and the yeast-specific function of calmodulin.