A direct fluorescence study of the transient steps induced by calcium binding to sarcoplasmic reticulum ATPase

The sarcoplasmic reticulum intrinsic fluorescence level was closely correlated with the ATPase functional state, from pH 5.5 to 8.5. The fluorescence signal was used in stopped flow measurements for direct study of transient pump kinetics after calcium binding or removal. The signal change time course, which depends solely on the free calcium concentration in the observation chamber, was analyzed as a single exponential. Rate constants (kobs) were relatively slow (5 to 20 s-1), indicating multistep interaction between calcium and the transport protein. At pH 7 and 20 degrees C, and in the presence of 100 mM potassium and 1 to 20 mM MgCl2, kobs first decreased, and then increased as the calcium concentration rose. Similar experiments were performed at pH 6. Data were analyzed according to a scheme in which sarcoplasmic reticulum . calcium complex formation is controlled by a slow isomerization step occurring either before or after the rapid calcium binding to the high affinity site. The results are discussed with reference to published rapid quenching experiments. Under our conditions, i.e. in the absence of a calcium gradient across the membrane, the calcium pump cycle step in which reorientation of the calcium binding sites occurs cannot be identified with the isomerization step mentioned above.