Electric field-induced orientation of l- and dl-phosphatidylcholine bilayers

Membrane orientation induced by an alternating electric field has been examined for the l-enantiomer and racemic dipalmitoylphosphatidylcholine (DPPC) bilayers. The orientation effect was measured by bending curvature of hairpin-like deformation of the multilamellar cylindrical tubes with varying field-strength, frequency and tube size. It has been observed that both l- and dl-DPPC tubes are similar in the profiles of field-strength dependence and frequency dependence on the curvature deformation, but different in the deformed curvatures. dl-DPPC tubes deform largely as compared with l-DPPC tubes. The square of the deformed curvature of dl-DPPC tubes is larger than that of l-DPPC by about 37% on average. The result indicates that the racemic membrane is responsive to the electric field as compared with the l-enantiomer membrane. This suggests that a hybrid arrangement of head groups of the racemic lipid leads an effective response of the membrane due to the head group orientation.