Three-dimensional structure of a protein from scorpion venom: a new structural class of neurotoxins.

The three-dimensional crystal structure of variant-3 toxin from the scorpion Centruroides sculpturatus Ewing has been determined at 3 A resolution. Phases were obtained by use of K2PtCl4 and K2IrCl6 derivatives. The most prominent secondary structural features are two and a half turns of alpha-helix and a three-strand stretch of antiparallel beta-sheet, which runs parallel to the alpha-helix. The helix is connected to the middle strand of the beta-sheet by two disulfide bridges; a third disulfide bridge is located nearby. Several loops extend out of this dense core of secondary structure. The largest loop is joined to the COOH terminus of the molecule by the fourth disulfide bridge. The overall shape of the molecule resembles a right-hand fist: the alpha-helix runs along the knuckles of the fist; the beta-sheet lies along the second and third joints of the fingers; the thumb is defined by two short loops that are composed of residues 16-21 and residues 41-46; the wrist corresponds to the COOH-terminal stretch of residues 52-65 and a loop composed of residues 5-14; and the second joint of the little finger is near the NH2 terminus of the molecule. The alpha-carbon backbone displays a large flat surface that lies along the second joints of the fingers and the heel of the hand in the fist model. Several of the conserved residues in the scorpion neurotoxins are clustered on this surface, which may play a role in interactions of scorpion toxins with sodium channels of excitable membranes.