The Om-toxins are short peptides (23–27 amino acids) purified from the venom of the scorpion Opisthacanthus madagas-cariensis. Their pharmacological targets are thought to be potassium channels. Like Csα/β (cystine-stabilized α/β) toxins, the Om-toxins alter the electrophysiological properties of these channels ; however, they do not share any sequence similarity with other scorpion toxins. We herein demonstrate by electrophysiological experiments that Om-toxins decrease the amplitude of the K + current of the rat channels Kv1.1 and Kv1.2, as well as human Kv1.3. We also determine the solution structure of three of the toxins by use of two-dimensional proton NMR techniques followed by distance geometry and molecular dynamics. The structures of these three peptides display an uncommon fold for ion-channel blockers, Csα/α (cystine-stabilized α-helix–loop– helix), i.e. two α-helices connected by a loop and stabilized by two disulphide bridges. We compare the structures obtained and the dipole moments resulting from the electrostatic anisotropy of these peptides with those of the only other toxin known to share the same fold, namely κ-hefutoxin1.