An engineered cysteine in the external mouth of a K+ channel allows inactivation to be modulated by metal binding

Publication information:

Yellen, Sodickson, Chen, and Jurman. 1994. “An Engineered Cysteine in the External Mouth of a K+ Channel Allows Inactivation to Be Modulated by Metal Binding”. Biophys J, 66, 4, Pp. 1068-75. doi:10.1016/S0006-3495(94)80888-4

Abstract

Substitution of a cysteine in the extracellular mouth of the pore of the Shaker-delta K+ channel permits allosteric inhibition of the channel by Zn2+ or Cd2+ ions at micromolar concentrations. Cd2+ binds weakly to the open state but drives the channel into the slow (C-type) inactivated state, which has a Kd for Cd2+ of approximately 0.2 microM. There is a 45,000-fold increase in affinity when the channel changes from open to inactivated. These results indicate that C-type inactivation involves a structural change in the external mouth of the pore. This structural change is reflected in the T449C mutant as state-dependent metal affinity, which may result either from a change in proximity of the introduced cysteine residues of the four subunits or from a change of the exposure of this residue on the surface of the protein.