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XB-ART-42159
Toxicon 2011 Jan 01;571:60-7. doi: 10.1016/j.toxicon.2010.09.015.
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Electrophysiological characterization of a novel small peptide from the venom of Conus californicus that targets voltage-gated neuronal Ca2+ channels.

Bernaldez J , López O , Licea A , Salceda E , Arellano RO , Vega R , Soto E .


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Conus californicus belongs to a genus of marine gastropods with more than 700 extant species. C. californicus has been shown to be distantly related to all Conus species, but showing unusual biological features. We report a novel peptide isolated from C. californicus with a significant inhibitory action over neuronal voltage-gated calcium channels. The new toxin is formed by 13-amino acid residues with two disulfide bonds, whose sequence (NCPAGCRSQGCCM) is strikingly different from regular ω-conotoxins. In the HPLC purification procedure, the venom fraction eluted in the first 10-15 min produced a significant decrease (54% ± 3%) of the Ca(2+) current in Xenopus laevis oocytes transfected with purified rat-brain mRNA. A specific peptide obtained from the elution at 13 min decreased the Ca(2+) current in the adult rat dorsal-root ganglion neurons in a primary culture by 34% ± 2%. The cysteine pattern of this peptide corresponds to the framework XVI described for the M-superfamily of conopeptides and is unprecedented among Conus peptides acting on Ca(2+) channels.

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