Abstract
S-modulin controls rhodopsin phosphorylation in a calcium-dependent manner, and it has been suggested that it modulates the light sensitivity of the photoreceptor cell. S-modulin binds to the ROS membrane at high Ca2+ concentration, and N-terminal myristoylation is necessary for this property (the calcium-myristoyl switch). S-modulin has four EF-hand motifs, of which two (EF-2 and -3) are functional. Here, we report on the roles of EF-2 and -3 in S-modulin function (calcium binding, membrane association, and inhibition of rhodopsin phosphorylation) by site-directed mutants (E85M and E121M). Surprisingly, E121M, which has a mutation in EF-3, neither binds Ca2+ nor inhibits phosphorylation. In contrast, E85M binds one Ca2+ and has the same membrane affinity as wild-type S-modulin, but has lost the ability to inhibit rhodopsin phosphorylation. It is suggested that the binding of Ca2+ to EF-3 is probably required for EF-2 to be a functional Ca2+-binding site and to induce exposure of the myristoyl group; and that the binding of Ca2+ to EF-2 is important for the interaction with rhodopsin kinase.
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