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The role of proline-containing peptide triads in β-sheet formation: A kinetic study

Authors :
Seiichiro Higashiya
Gaius A. Takor
Jason P. Seeley
John T. Welch
Vitali Sikirzhytski
Igor K. Lednev
Source :
Biopolymers. 103:339-350
Publication Year :
2015
Publisher :
Wiley, 2015.

Abstract

The design of biomimetic materials through molecular self-assembly is a growing area of modern nanotechnology. With problems of protein folding, self-assembly, and sequence–structure relationships as essential in nanotechnology as in biology, the effect of the nucleation of β-hairpin formation by proline on the folding process has been investigated in model studies. Previously such studies were limited to investigations of the influence of proline on the formation of turns in short peptide sequences. The effect of proline-based triads on the folding of an 11-kDa amyloidogenic peptide GH6[(GA)3GY(GA)3GE]8GAH6 (YE8) was investigated by selective substitution of the proline-substituted triads at the γ-turn sites. The folding and fibrillation of the singly proline-substituted polypeptides, e.g., GH6[(GA)3GY(GA)3GE]7(GA)3GY(GA)3PDGAH6 (8PD), and doubly proline-substituted polypeptides, e.g., GH6[(GA)3GY(GA)3GE]3(GA)3GY(GA)3PD[(GA)3GY(GA)3GE]3(GA)3GY(GA)3PDGAH6 (4,8PD), were directly monitored by circular dichroism and deep UV resonance Raman and fluorescence spectroscopies. These findings were used to identify the essential folding domains, i.e., the minimum number of β-strands necessary for stable folding. These experimental findings may be especially useful in the design and construction of peptidic materials for a wide range of applications as well as in understanding the mechanisms of folding critical to fibril formation. © 2015 Wiley Periodicals, Inc. Biopolymers 103: 339–350, 2015.

Details

ISSN :
00063525
Volume :
103
Database :
OpenAIRE
Journal :
Biopolymers
Accession number :
edsair.doi...........7bd73fc5ede8ec162cd8c4101052ee6c
Full Text :
https://doi.org/10.1002/bip.22622