화학공학소재연구정보센터
Journal of Physical Chemistry A, Vol.122, No.2, 543-553, 2018
Role of Aromatic Cross-Links in Structure and Dynamics of Model Three-Stranded beta-Sheet Peptides
A series of closely related peptide sequences that form triple-strand structures was designed with a variation of cross strand aromatic interactions and spectroscopically studied as models for beta-sheet formation and stabilities. Structures of the three-strand models were determined with NMR methods and temperature dependent equilibrium studies performed using circular dichroism and Fourier transform infrared spectroscopies. Our equilibrium data show that the presence of a direct cross-strand aromatic contact in an otherwise folded peptide does not automatically result in an increased thermal stability and can even distort the structure. The effect on the conformational dynamics was studied with infrared-detected temperature-jump relaxation methods and revealed a high sensitivity to the presence and the location of the aromatic cross-links. Aromatic contacts in the three-stranded peptides slow down the dynamics in a site-specific manner, and the impact seems to be related to the distance from the turn. With a Xxx-(D)Pro linkage as a probe with some sensitivity for the turn, small differences were revealed in the relative relaxation of the sheet strands and turn regions. In addition, we analyzed the component hairpins, which showed less uniform dynamics as compared to the parent three-stranded beta-sheet peptides.