Channelpedia

PubMed 17128970


Referenced in Channelpedia wiki pages of: none

Automatically associated channels: Kv2.1



Title: Calcium binding to calmodulin mutants having domain-specific effects on the regulation of ion channels.

Authors: Wendy S VanScyoc, Rhonda A Newman, Brenda R Sorensen, Madeline A Shea

Journal, date & volume: Biochemistry, 2006 Dec 5 , 45, 14311-24

PubMed link: http://www.ncbi.nlm.nih.gov/pubmed/17128970


Abstract
Calmodulin (CaM) is an essential, eukaryotic protein comprised of two highly homologous domains (N and C). CaM binds four calcium ions cooperatively, regulating a wide array of target proteins. A genetic screen of Paramecia by Kung [Kung, C. et al. (1992) Cell Calcium 13, 413-425] demonstrated that the domains of CaM have separable physiological roles: "under-reactive" mutations affecting calcium-dependent sodium currents mapped to the N-domain, while "over-reactive" mutations affecting calcium-dependent potassium currents localized to the C-domain of CaM. To determine whether and how these mutations affected intrinsic calcium-binding properties of CaM domains, phenylalanine fluorescence was used to monitor calcium binding to sites I and II (N-domain) and tyrosine fluorescence was used to monitor sites III and IV (C-domain). To explore interdomain interactions, binding properties of each full-length mutant were compared to those of its corresponding domain fragments. The calcium-binding properties of six under-reactive mutants (V35I/D50N, G40E, G40E/D50N, D50G, E54K, and G59S) and one over-reactive mutant (M145V) were indistinguishable from those of wild-type CaM, despite their deleterious physiological effects on ion-channel regulation. Four over-reactive mutants (D95G, S101F, E104K, and H135R) significantly decreased the calcium affinity of the C-domain. Of these, one (E104K) also increased the calcium affinity of the N-domain, demonstrating that the magnitude and direction of wild-type interdomain coupling had been perturbed. This suggests that, while some of these mutations alter calcium-binding directly, others probably alter CaM-channel association or calcium-triggered conformational change in the context of a ternary complex with the affected ion channel.