pH-Dependent Gating in the Streptomyces lividans K+ Channel

Because of its size, high levels of expression, and unusual detergent stability, the small K+ channel from Streptomyces lividans (SKC1) is considered to be an ideal candidate for detailed structural analysis. In this paper, we have used planar lipid bilayers and radiotracer uptake experiments to study purified and reconstituted SKC1, in an attempt to develop a bulk assay for its functional characterization. In channels reconstituted into liposomes with external pH 3.5 and intravesicular pH 7.5, a time-dependent SKC1-catalyzed 86Rb+ uptake was observed. This cationic influx was blocked by Ba2+ ions with a K i (external) of 0.4 mM and was shown to have the following selectivity sequence: K+ > Rb+ > NH4 + ≫ Na+ > Li+. In experiments with external pH 7.5 or in liposomes containing no channels, no 86Rb+ uptake was detected. When SKC1 was incorporated into planar lipid bilayers, we failed to observe significant single-channel activity at neutral pH but detected frequent multiple-channel openings a pH