[Research Article] Structure of the voltage-gated K+ channel Eag1 reveals an alternative voltage sensing mechanism
Voltage-gated potassium (Kv) channels are gated by the movement of the transmembrane voltage sensor, which is coupled, through the helical S4-S5 linker, to the potassium pore. We determined the single-particle cryo–electron microscopy structure of mammalian Kv10.1, or Eag1, bound to the channel inhibitor calmodulin, at 3.78 angstrom resolution. Unlike previous Kv structures, the S4-S5 linker of Eag1 is a five-residue loop and the transmembrane segments are not domain swapped, which suggest an alternative mechanism of voltage-dependent gating. Additionally, the structure and position of the S4-S5 linker allow calmodulin to bind to the intracellular domains and to close the potassium pore, independent of voltage-sensor position. The structure reveals an alternative gating mechanism for Kv channels and provides a template to further understand the gating properties of Eag1 and related channels. Authors: Jonathan R. Whicher, Roderick MacKinnon