Analytical Sciences


Abstract − Analytical Sciences, 21(12), 1529 (2005).

Voltammetric Behavior of the Transfer of Mono- and Polyammonium Ions across a Phospholipid Monolayer at the Nitrobenzene/Water Interface
Hajime KATANO,* Yuji MURAYAMA,* Hirosuke TATSUMI,* Takao HIBI,* Tokuji IKEDA,* Ikuo KAMEOKA,** and Toshihide TSUKATANI**
*Department of Bioscience, Fukui Prefectural University, Matsuoka, Fukui 910-1195, Japan
**Research and Development Division, Nicca Chemical, Co. Ltd., Bunkyo, Fukui 910-8670, Japan
The influence of a phospholipid, dipalmitoyl phosphatidylcholine, layer at a nitrobenzene|water interface on the transfer of tetraethylammonium ion and a polyammonium anti-fungus agent, poly[(dimethylimino)(2-oxo-1,2-ethanediyl)imino-1,6-hexanediylimino(1-oxo-1,2-ethanediyl)(dimethylimino)-1,6-hexanediyl] ion, across the interface was studied by normal pulse voltammetry. When the phospholipid was adsorbed to form a monolayer at the nitrobenzene|water interface by its addition to the organic phase, the half-wave potential in the current vs. potential curves for the transfer of tetraethylammonium ion did not change, but the limiting current was significantly decreased at certain sampling times, indicating a retarding effect of the layer on the ion-transfer. On the other hand, in the current vs. potential curves for the transfer of the polyammonium ion, no significant change in either the half-wave potential or the limiting current was observed upon adding the phospholipid, indicating that the polyammonium ion can easily permeate through the phospholipid layer. The results suggest a new application of the voltammetric technique to the study of cell membrane permeability to polyionic bioactive compounds.