Membrane-induced peptide structural changes monitored by infrared and circular dichroism spectroscopy Original Research Article

As more peptide secondary structures deduced by infrared spectroscopy (IR) have been reported in the literature, there have been overlaps in assignments of elements of secondary structure to carbonyl vibrational frequencies. We have investigated this phenomenon with regards to the use of IR for monitoring membrane-induced structural changes using conformationally diverse peptides. These IR studies, complemented by circular dichroism (CD) experiments, revealed that peptide–solvent interactions can mask membrane-induced conformational changes monitored by IR. A structural transition from random coil to α-helix upon the binding of mastoparan X to a membrane was clearly observed by CD but obscured in the amide I region of the IR spectrum. In addition, unlike the buried helical peptides gramicidin D and P16 in micelles, the amide II peak for mastoparan X was absent, likely due to H–D exchange. This suggests information on the peptideʹs membrane-bound solvent accessibility could be obtained from this region of the spectrum.