Abstract
The concept of chemical capacitance as introduced by Hong and Mauzerall (Proc. Natl. Acad. Sci. U.S.A. 1974. 71:1564) is critically reexamined. This novel capacitance was introduced to explain the time-course of flash-induced photocurrents observed in lipid bilayer membranes containing porphyrins. According to Hong and Mauzerall, the chemical capacitance results from a combination of three fundamental capacitances: the geometric membrane capacitance and the two interfacial double layer capacitances. The concept of chemical capacitance is questioned for the following reasons: (i) The system analysis is insufficiently determinate. (ii) The measured chemical capacitance is approximately 0.16% of that predicted by the theory. (iii) The fact that only 20% of the membrane area is illuminated was not considered in the analysis. The latter point offers an alternative explanation of the capacitance in question: this capacitance may reflect that fraction of the total membrane capacitance that is photochemically active. If so, the concept of chemical capacitance lacks general significance.
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