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. 1995 Apr;68(4):1507-17.
doi: 10.1016/S0006-3495(95)80323-1.

Rapid pH change due to bacteriorhodopsin measured with a tin-oxide electrode

B Robertson  1 E P Lukashev
Affiliations

Rapid pH change due to bacteriorhodopsin measured with a tin-oxide electrode

B Robertson et al. Biophys J. 1995 Apr.

Abstract

The photocurrent transient generated by bacteriorhodopsin (bR) on a tin-oxide electrode is due to pH change and not to charge displacement as previously assumed. Films of either randomly oriented or highly oriented purple membranes were deposited on transparent electrodes made of tin-oxide-coated glass. The membranes contained either wild-type or D96N-mutant bR. When excited with yellow light through the glass, the bR pumps protons across the membrane. The result is a rapid local pH change as well as a charge displacement. Experiments with these films show that it is the pH change rather than the displacement that produces the current transient. The calibration for the transient pH measurement is given. The sensitivity of a tin-oxide electrode to a transient pH change is very much larger than its sensitivity to a steady-state pH change.

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