Please use this identifier to cite or link to this item: http://scholarbank.nus.edu.sg/handle/10635/76421
Title: kappa-Hefutoxin1, a novel toxin from the scorpion Heterometrus fulvipes with unique structure and function. Importance of the functional diad in potassium channel selectivity.
Authors: Srinivasan, K.N.
Sivaraja, V.
Huys, I.
Sasaki, T.
Cheng, B. 
Kumar, T.K.
Sato, K.
Tytgat, J.
Yu, C.
San, B.C.
Ranganathan, S. 
Bowie, H.J.
Kini, R.M. 
Gopalakrishnakone, P.
Issue Date: 16-Aug-2002
Source: Srinivasan, K.N.,Sivaraja, V.,Huys, I.,Sasaki, T.,Cheng, B.,Kumar, T.K.,Sato, K.,Tytgat, J.,Yu, C.,San, B.C.,Ranganathan, S.,Bowie, H.J.,Kini, R.M.,Gopalakrishnakone, P. (2002-08-16). kappa-Hefutoxin1, a novel toxin from the scorpion Heterometrus fulvipes with unique structure and function. Importance of the functional diad in potassium channel selectivity.. Journal of Biological Chemistry 277 (33) : 30040-30047. ScholarBank@NUS Repository.
Abstract: An important and exciting challenge in the postgenomic era is to understand the functions of newly discovered proteins based on their structures. The main thrust is to find the common structural motifs that contribute to specific functions. Using this premise, here we report the purification, solution NMR, and functional characterization of a novel class of weak potassium channel toxins from the venom of the scorpion Heterometrus fulvipes. These toxins, kappa-hefutoxin1 and kappa-hefutoxin2, exhibit no homology to any known toxins. NMR studies indicate that kappa-hefutoxin1 adopts a unique three-dimensional fold of two parallel helices linked by two disulfide bridges without any beta-sheets. Based on the presence of the functional diad (Tyr(5)/Lys(19)) at a distance (6.0 +/- 1.0 A) comparable with other potassium channel toxins, we hypothesized its function as a potassium channel toxin. kappa-Hefutoxin 1 not only blocks the voltage-gated K(+)-channels, Kv1.3 and Kv1.2, but also slows the activation kinetics of Kv1.3 currents, a novel feature of kappa-hefutoxin 1, unlike other scorpion toxins, which are considered solely pore blockers. Alanine mutants (Y5A, K19A, and Y5A/K19A) failed to block the channels, indicating the importance of the functional diad.
Source Title: Journal of Biological Chemistry
URI: http://scholarbank.nus.edu.sg/handle/10635/76421
ISSN: 00219258
Appears in Collections:Staff Publications

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