Selectivity and Permeation of Alkali Metal Ions in K⁺-channels
2011
Furini, Simone | Domene, Carmen
Ion conduction in K⁺-channels is usually described in terms of concerted movements of K⁺ progressing in a single file through a narrow pore. Permeation is driven by an incoming ion knocking on those ions already inside the protein. A fine-tuned balance between high-affinity binding and electrostatic repulsive forces between permeant ions is needed to achieve efficient conduction. While K⁺-channels are known to be highly selective for K⁺ over Na⁺, some K⁺ channels conduct Na⁺ in the absence of K⁺. Other ions are known to permeate K⁺-channels with a more moderate preference and unusual conduction features. We describe an extensive computational study on ion conduction in K⁺-channels rendering free energy profiles for the translocation of three different alkali ions and some of their mixtures. The free energy maps for Rb⁺ translocation show at atomic level why experimental Rb⁺ conductance is slightly lower than that of K⁺. In contrast to K⁺ or Rb⁺, external Na⁺ block K⁺ currents, and the sites where Na⁺ transport is hindered are characterized. Translocation of K⁺/Na⁺ mixtures is energetically unfavorable owing to the absence of equally spaced ion-binding sites for Na⁺, excluding Na⁺ from a channel already loaded with K⁺.
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