The properties of the KcsA channel were investigated using a combination of tryptophan scanning of the two transmembrane helices followed by random mutagenesis at targeted residues. The tryptophan mutants were subjected to two screens: oligomeric stability and ability to complement the K+ uptake deficiency of the TK2420 Escherichia coli strain. Oligomeric stability is affected primarily by mutations at sites that border on and interact with the selectivity filter, while the complementation assays identified residues at the crossing point of the inner helices. Sites identified by the complementation assay in the tryptophan screen were subjected to random mutagenesis and selection by complementation. We have found two mutants, A108S and A108T, which have dramatically increased open probability while retaining the basic property of oligomeric stability.
Intracellular tetraethylammonium (TEA) inhibition was studied at the single-channel level in the KcsA potassium channel reconstituted in planar lipid bilayers. TEA acts as a fast blocker (resulting in decreased current amplitude) with an affinity in the 75 mM range even at high bandwidth. Studies over a wide voltage range reveal that TEA block has a complex voltage-dependence that also depends on the ionic conditions. These observations are examined in the context of permeation models to extend our understanding of the coupling between permeant ions and TEA blockade.
Voltage dependence of block was investigated in a simple model for permeation in a multiion pore. Internal blocker could bind to three states of the open channel that differed in the locations and number of permeant ion bound; blocker dissociation occurs exclusively to the internal solution, and the blocker does not itself enter the electric field. By changing the relative stability of blocker binding to these three states, block displayed voltage dependence with relief of block at high potentials. Similar patterns of block could also be generated in more detailed models of ion permeation. These results illustrate that the observation of relief of block at high potentials is not a sufficient criterion for establishing that a blocker is permeant in a channel that has a complex permeation cycle.
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