CONFORMATIONAL PARTICULARITIES OF A(25-35) PEPTIDE DETERMINED BY INFRARED SPECTROSCOPY

Abstract

The Alzheimer’s amyloid-β (25-35) peptide retains the toxicity and ability to aggregate of the amyloid-(1-40) peptide. The study of the conformational properties of Aβ (25-35) peptide in its soluble monomeric form can play an essential role in determining the mechanism of oligomerization. In this study, we probed the secondary structure of a soluble Aβ (25-35) peptide in water solution at physiological conditions (pH 7.4). We have used Fourier Transformed Infrared Spectroscopy (FTIR) to examine the secondary structure of this peptide. The amide I bands of A (25-35) obtained from transmission-FTIR spectra consists of one main band at 1658 cm-1, at both concentrations used (200 M and 1 mM). This band show us that A (25-35) in aqueous solution was mostly organized into a -helical structure (48%). The contribution of the unordered structure was found to be about 12%. The proportion of -sheet and -turn structures are slightly lower, 12-15% and 13-14%, respectively for both concentrations. FTIR spectra of the peptide in water solution (100 µM) after incubation for 12h showed Aβ peptide conformation is critically dependent on the environmental conditions used.