Spectroscopic Signature for Stable β-Amyloid Fibrils versus β-Sheet-Rich Oligomers

Abstract: We use two-dimensional IR (2D IR) spectroscopy to explore fibril formation for the two predominant isoforms of the β-amyloid (Aβ1–40 and Aβ1–42) protein associated with Alzheimer’s disease. Two-dimensional IR spectra resolve a transition at 1610 cm−1 in Aβ fibrils that does not appear in other Aβ aggregates, even those with predominantly β-sheet-structure-like oligomers. This transition is not resolved in linear IR spectroscopy because it lies under the broad band centered at 1625 cm−1, which is the traditiona… Show more

“…A minor peak at 1700 cm −1 can be assigned to the protonated COOH; this peak is more intense in the powder form, and we inferred this is due to partial deprotonation in the gel state. By contrast, the shoulder at 1623 cm −1 arises in the self‐assembled state and corresponds to the traditional signature of amyloid fibrils . The signal at 1600 cm −1 was already reported for Phe‐derived supramolecular xerogels, however, it is present also in the FTIR spectrum of N‐ (4‐nitrobenzoyl)‐Phe in its non‐assembled state, and could be due to the aromatic C=C stretching .…”

Self‐Assembly of an Amino Acid Derivative into an Antimicrobial Hydrogel Biomaterial

“…A minor peak at 1700 cm −1 can be assigned to the protonated COOH; this peak is more intense in the powder form, and we inferred this is due to partial deprotonation in the gel state. By contrast, the shoulder at 1623 cm −1 arises in the self‐assembled state and corresponds to the traditional signature of amyloid fibrils . The signal at 1600 cm −1 was already reported for Phe‐derived supramolecular xerogels, however, it is present also in the FTIR spectrum of N‐ (4‐nitrobenzoyl)‐Phe in its non‐assembled state, and could be due to the aromatic C=C stretching .…”

Self‐Assembly of an Amino Acid Derivative into an Antimicrobial Hydrogel Biomaterial

“…The spectroscopic signatures of the stable amyloid fibrils have been also distinguished from oligomeric intermediates using more sensitive 2D-IR spectroscopy. A unique transition at 1610 cm −1 is observed in the 2D-IR spectra of the mature fibrils of both Aβ 1–40 and Aβ 1–42 [52]. This band does not appear in other Aβ aggregates including β-sheet-structure-like oligomers, and is not seen in linear IR spectroscopy because it is occluded by the broad band at ~1625 cm −1 .…”

Vibrational Approach to the Dynamics and Structure of Protein Amyloids

“…[45][46][47] These approximations are insufficient for nearest neighbor interactions which are therefore modeled from density functional theory calculations of small peptides. [48][49][50][51][52][53] Conformational dynamics can be accounted for either by statistical variation of the parameters, [54][55][56] by averaging spectra of snapshot structures from molecular dynamics simulations [57][58][59] or by direct time-domain approaches which also take into account motional narrowing. [60][61][62][63] The relevant model structure for this work are antiparallel b-sheets.…”

Insight into the internal structure of amyloid-β oligomers by isotope-edited Fourier transform infrared spectroscopy