Interaction of the noncovalent molecular adapter, beta-cyclodextrin, with the staphylococcal alpha-hemolysin pore
- PMID: 11023901
- PMCID: PMC1301087
- DOI: 10.1016/S0006-3495(00)76445-9
Interaction of the noncovalent molecular adapter, beta-cyclodextrin, with the staphylococcal alpha-hemolysin pore
Abstract
Cyclodextrins act as noncovalent molecular adapters when lodged in the lumen of the alpha-hemolysin (alphaHL) pore. The adapters act as binding sites for channel blockers, thereby offering a basis for the detection of a variety of organic molecules with alphaHL as a biosensor element. To further such studies, it is important to find conditions under which the dwell time of cyclodextrins in the lumen of the pore is extended. Here, we use single-channel recording to explore the pH- and voltage-dependence of the interaction of beta-cyclodextrin (betaCD) with alphaHL. betaCD can access its binding site only from the trans entrance of pores inserted from the cis side of a bilayer. Analysis of the binding kinetics shows that there is a single binding site for betaCD, with an apparent equilibrium dissociation constant that varies by >100-fold under the conditions explored. The dissociation rate constant for the neutral betaCD molecule varies with pH and voltage, a result that is incompatible with two states of the alphaHL pore, one of high and the other of low affinity. Rather, the data suggest that the actual equilibrium dissociation constant for the alphaHL. betaCD complex varies continuously with the transmembrane potential.
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