Publication Type : Journal Article
Publisher : Peptides
Source : Peptides, vol. 27, pp. 2647 - 2654, 2006
Campus : Amritapuri
School : School of Biotechnology
Center : Biotechnology
Year : 2006
Abstract : Distinctly different effects of two closely related contryphans have been demonstrated on voltage-activated Ca2+ channels. The peptides Lo959 and Am975 were isolated from Conus loroisii, a vermivorous marine snail and Conus amadis, a molluscivore, respectively. The sequences of Lo959 and Am975 were deduced by mass spectrometric sequencing (MALDI-MS/MS) and confirmed by chemical synthesis. The sequences of Lo959, GCPDWDPWC-NH2 and Am975, GCODWDPWC-NH2 (O: 4-trans-hydroxyproline: Hyp), differ only at residue 3; Pro in Lo959, Hyp in Am975, which is identical to contryphan-P, previously isolated from Conus purpurascens, a piscivore; while Lo959 is a novel peptide. Both Lo959 and Am975 undergo slow conformational interconversion under reverse-phase chromatographic conditions, a characteristic feature of all contryphans reported thus far. Electrophysiological studies performed using dorsal root ganglion neurons reveal that both peptides target high voltage-activated Ca2+ channels. While Lo959 increases the Ca2+ current, Am975 causes inhibition. The results establish that subtle sequence effects, which accompany post-translational modifications in Conus peptides, can have dramatic effects on target ion channels.
Cite this Research Publication : V. Sabareesh, K. Gowd, H., Ramasamy, P., Sudarslal, S., Krishnan, K. S., Sikdar, S. K., and Balaram, P., “Characterization of Contryphans from Conus Loroisii and Conus Amadis that Target Calcium Channels”, Peptides, vol. 27, pp. 2647 - 2654, 2006