The structure and interactions of Ca²⁺-ATPase

Electron crystallographic studies on membrane crystals of Ca²⁺-ATPase reveal different patterns of ATPase-ATPase interactions depending on enzyme conformation. Physiologically relevant changes in Ca²⁺ concentration and membrane potential affect these interactions. Ca²⁺ induced difference FTIR spectra of Ca²⁺-ATPase triggered by photolysis of caged Ca²⁺ are consistent with changes in secondary structure and carboxylate groups upon Ca²⁺ binding; the changes are reversed during ATP hydrolysis suggesting that a phosphorylated enzyme form of low Ca²⁺ affinity is the dominant intermediate during Ca²⁺ transport. A two-channel model of Ca²⁺ translocation is proposed involving the membrane-spanning helices M2–M5 and M4, M5, M6 and M8 respectively, with separate but interacting Ca²⁺ binding sites.