Effect of pressure on the secondary structure of coiled coil peptide GCN4-p1

It has recently been demonstrated that pressure induces folding of the alpha-helix of an alanine-based peptide (AK20), which is a monomer in water (Imamura and Kato, Proteins 2009;76:911-918). The present study focused on a coiled coil peptide GCN4-p1, the alpha-helices of which associate via a hydrophobic core, to examine whether the pressure stability of the alpha-helices depends on the hydrophobic core. Fourier transform infrared spectroscopy was used to investigate the effect of pressure on the secondary structures of GCN4-p1, The infrared spectra of GCN4-p1 shows the two amide I' peaks at similar to 1650 and similar to 1630 cm(-1) stemming from the solvent-inaccessible alpha-helix and the solvent-accessible alpha-helix, respectively. The intensities of both the peaks increase with increasing pressure, whereas they decrease with increasing temperature. This indicates that pressure induces both the alpha-helices of GCN4-p1 to fold. The present result suggests that the positive volume change upon unfolding of an alpha-helix is a common characteristic of peptides. The pressure-induced stabilization of the alpha-helices is discussed in comparison with the pressure denaturation of proteins. (C) 2009 Elsevier B.V. All rights reserved.