Membrane Helix Orientation from Linear Dichroism of Infrared Attenuated Total Reflection Spectra

Abstract

Oriented multilamellar systems containing phospholipids and peptides have been formed on a germanium internal reflection element. Attenuated total reflection infrared spectra have been recorded and the linear dichroism of peptide amide I and amide II bands measured. Using peptides for which the orientation had been previously studied under similar experimental conditions by 15N solid-state nuclear magnetic resonance spectroscopy, important conclusions were drawn on the approach to be used to derive secondary structure orientation in a membrane from dichroic ratios. In particular, it is shown that the influence of the film thickness and refractive index on the orientation determination can be evaluated from the value of R ATRiso, i.e., the dichroic ratio of a dipole oriented at the magic angle or with isotropic mobility. A series of peptides was used to test the validity of our suggestions on various helix orientations in the membrane. These include magainin 2 and hydrophobic (hΦ20) model peptides, the transmembrane segment of glycophorin (GLY), and LAH 4, a designed peptide antibiotic that changes between a transmembrane and an in-plane orientation in a pH-dependent manner.