Abstract

Rabbit muscle sarcoplasmic reticulum Ca2+-ATPase has been shown to bind gadolinium ion (Gd3+) at two high affinity Ca2+ sites (Stephens, E. M., and Grisham, C. M. (1979) Biochemistry 18, 4876-4885). Gd3+ bound at these sites exhibits an unusually long electron spin relaxation time, consistent with occlusion of these sites and reduced contact with solvent H2O. In this report, the nature of the Gd3+ sites was examined in preparations of the enzyme solubilized with the detergent C12E8. The frequency dependence of water proton relaxation in solutions containing the solubilized Ca2+-ATPase yields dipolar correlation times, tau c, for the 1H-Gd3+ interaction of 1.04 X 10(-9) s for Gd3+ bound at site 1 and 1.98 X 10(-9) s for Gd3+ bound at site 2. The correlation time itself is frequency dependent below 30 MHz, indicating that the correlation time is dominated by the electron spin relaxation time of bound Gd3+. The long values of the correlation time found in the present study are consistent with a poor accessibility of these Gd3+ sites (particularly site 2) to solvent water molecules. Analytical ultracentrifugation and molecular sieve high performance liquid chromatography indicated that the active fraction of the soluble Ca2+-ATPase was monomeric. Thus occlusion of the Ca2+ sites in this enzyme is largely dependent on the tertiary structure of the monomeric ATPase and does not appear to depend on multimeric membrane structures.

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