Tertiary structure and energy coupling in Ca2+-pump system

Europium luminescence from europium bound to sarcoplasmic reticulum (Ca²⁺ Mg²⁺)-ATPase indicates that there are two high affinity calcium binding sites. Furthermore, the two calcium ions at the binding sites are highly coordinated by the protein as the number of H₂O molecules surrounding the Ca²⁺ ions are 3 and 0.5. In the presence of ATP, calcium ions are occluded even further down to 2 and zero H2O molecules, respectively. The Ca²⁺ - Ca²⁺ intersite distance is estimated to be 8–9 Å and the average distance from the Ca²⁺ sites to CrATP is about 18 Å.Digestion of the (Ca²⁺ + Mg²⁺)-ATPase at the T₂ site (Arg 198) causes uncoupling of Ca²⁺-transport from ATPase activity while calcium occlusion due to E₁-P formation remains unchanged. Further tryptic digestion beyond T₂ and in the presence of ATP diminishes Ca²⁺ occlusion to zero while 50% of the ATPase hydrolytic activity remains. Tryptic digestion beyond T₂ and in the absence of ATP diminishes ATPase hydrolytic activity to 50% of normal while Ca²⁺ occlusion remains intact. These data are consistent with a mechanism in which the functional enzyme must be in the dimeric form for occlusion and calcium uptake to occur, but each monomer can hydrolyze ATP.