The extra C-terminal tail is involved in the conformation, stability changes and the N/C-domain interactions of the calmodulin-like protein from pearl oyster Pinctada fucata.

Pearl oyster Pinctada fucata calmodulin-like protein (PfCaLP), containing an extra tail (D150-K161) at the C-terminal, is a novel protein involved in the regulation of oyster calcium metabolism. The purpose of this study is to gain insight into the conformational characteristics of the N/C-domain of PfCaLP, especially the detailed contribution of the extra tail to the Ca(2+)/Mg(2+)-induced conformational changes, the stability of the intact PfCaLP molecule and its C-domain, as well as to the interdomain communications in PfCaLP. Our results demonstrate that a strong interaction exists between the hydrophilic tail and the C-domain of PfCaLP. The extra tail, through affecting the C-domain conformational changes, further influences the migration rate, conformational changes, N/C-domain interactions and exposure of the hydrophobic patches of the intact PfCaLP molecule. Furthermore, the tail could actively regulate the stability of PfCaLP and its C-domain. Our studies are helpful to explain our previous finding that the tail plays important roles in PfCaLP-target interaction in the oyster calcium metabolism.