Unusual binding mode of scorpion toxin BmKTX onto potassium channels relies on its distribution of acidic residues.

Besides classical scorpion toxin-potassium channel binding modes, novel modes remain unknown. Here, we report a novel binding mode of native toxin BmKTX towards Kv1.3 channel. The combined experimental and computational data indicated that BmKTX-D33H analog used the classical anti-parallel ß-sheet domain as the channel-interacting interface together with the conserved channel pore-blocking Lys(26). However, the wild-type BmKTX was found to use Arg(23) rather than Lys(26) as the new pore-blocking residue, and mainly adopt the turn motif between the α-helix and antiparallel ß-sheet domains to recognize Kv1.3 channel. Together, these findings not only reveal that scorpion toxin-potassium channel interaction modes are more diverse than thought, but also highlight the functional role of toxin acidic residues in mediating diverse toxin-potassium channel binding modes.