The analytical potential of chemoreception at bilayer lipid membranes

Abstract The potential use of the bilayer lipid membrane as an electrochemical sensor is discussed through a study of model systems known to cause increased membrane conductance. The limit of detection for amphotericin B, a molecule capable of forming membrane pores, is in the region of 1O -9 M. The current—time profile is discussed in terms of a mechanism which involves micelle formation in the aqueous and lipid phases. Unlike previous experiments, two current maxima with time are observed for valinomycin response (limit of detection 1O -11 M). The first transient signal is attributed to increased membrane permeability caused by a conformational change in valinomycin in the “surface” volume of the bilayer. Selective interactions at membranes and the nature of membrane responses are discussed in terms of analytical parameters.

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