Abstract
The proton pumping activity of bacteriorhodopsin (bR) in the purple membrane adsorbed onto a thin polymer film as a solid support for electrical measurements has been examined in the presence of local anesthetics and 1-alcohols as an anesthetic model. This membrane adsorbed system provided high reproducibility of the photocurrents in bR due to the mechanical and the chemical stability and the electric properties of the thin polymer film. As the concentrations of the local anesthetics increased, the photocurrents generated by the proton pump of bR were cooperatively suppressed and the changes in the photocurrents were reversible. From the dose–response curves for the anesthetics, the concentration (EC 50) required for a 50% suppression showed a marked specificity in the order of lidocaine>bupivacaine>tetracaine>dibucaine. The suppression of the photocurrent in bR was more effective for the uncharged form of the local anesthetics than for the charged one. The absorption and fluorescence spectra suggested that the charged form of the anesthetics was bound to the purple membrane surface, while their uncharged form interacted with the hydrophobic portions of the purple membrane interior rather than with the membrane surface. From the dose–response curves for the 1-alcohols, an increase in hydrophobicity in their molecules effectively suppressed the photocurrent of bR. We found that the binding of hydrophobic organic cations such as tetracaine hydrochloride and bupivacaine hydrochloride to the blue membrane with loss of the proton pump, which was prepared by removal of the cations from the purple membrane, could regenerate the proton pumping activity. The photocurrent in bR in the purple membrane adsorbed onto a thin solid film sensitively responded to different local anesthetics.
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