Calcium binding domains of calmodulin. Sequence of fill as determined with terbium luminescence.

Terbium, a trivalent lanthanide, effectively substituted for Ca2+ in calmodulin as judged by several criteria: intrinsic fluorescence spectra, altered mobilities on polyacrylamide gel electrophoresis, formation of a stable complex with troponin I or calcineurin, and stimulation of phosphodiesterase. Calmodulin harbors four Ca2+ binding domains; domains I and II contain no tyrosine, whereas domains III and IV each have one tyrosine. The binding of Tb3+ to calmodulin was followed by the increase of Tb3+ fluorescence at 545 nm upon binding to calmodulin. This fluorescence was elicited either by exciting Tb3+ directly at 222 nm or by exciting the calmodulin tyrosine at 280 nm with resulting energy transfer from tyrosine to Tb3+. Fluorescence generated by direct excitation measures binding of Tb3+ to any of the Ca2+ binding domains, whereas energy transfer through indirect excitation is effective only when Tb3+ is within 5 A of tyrosine, indicating that Tb3+ necessarily occupies a Ca2+ binding domain that contains tyrosine. A judicious use of the direct and indirect excitation could reveal the sequence of fill of the binding domains. Our results suggest these domains are filled in the following sequence: 1) domain I or II; 2) domains III and IV; and 3) domain II or I that has not been filled initially.