Journal article
The conformations adopted by the octamer peptide (AAKA)2 in aqueous solution probed by FTIR and polarized Raman spectroscopy
Journal of Raman spectroscopy, v 37(1‐3), pp 248-254
Jan 2006
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Abstract
In an effort to further elucidate the chain length dependence of the poly‐L‐proline 31 helical structure (PPII) in short alanine‐based polypeptides, we utilize FTIR, isotropic and anisotropic Raman, and electronic circular dichroism (ECD) spectroscopies to probe the amide I′ band of the unblocked octamer H‐Ala‐Ala‐Lys‐Ala‐Ala‐Ala‐Lys‐Ala‐OD in D2O. Our results are in disagreement with recent notions suggesting that the 31 helical structure increases with an increase in the number of alanine residues.1, 2 Simulations of the spectra were carried out and found to best reproduce experimental spectra using parameters that suggest a 40/60% PPII/β‐strand (ßs) mixture. The amount of PPII in the octamer is found to be significantly lower than what was determined for unblocked alanine‐based peptides of comparable or even larger size. This is confirmed by the relatively weak ECD minimum and maximum at ∼195 and ∼220 nm, respectively, for the octamer relative to tri‐ and tetraalanine.3 In this paper we also address a recent issue concerning the validity of the delocalized character of the amide I mode in unfolded polypeptides containing a significant amount of PPII structure. We conclude that experimental evidence strongly supports the vibrational coupling model used to interpret the amide I mode in unfolded polypeptides. Copyright © 2006 John Wiley & Sons, Ltd.
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Details
- Title
- The conformations adopted by the octamer peptide (AAKA)2 in aqueous solution probed by FTIR and polarized Raman spectroscopy
- Creators
- Thomas MeaseyReinhard Schweitzer‐Stenner
- Publication Details
- Journal of Raman spectroscopy, v 37(1‐3), pp 248-254
- Publisher
- John Wiley & Sons, Ltd; Chichester, UK
- Number of pages
- 7
- Grant note
- ACS‐Petroleum Research Funds (PRF # 37406‐AC.) National Science Foundation (MCB‐0318749.)
- Resource Type
- Journal article
- Language
- English
- Academic Unit
- Chemistry
- Web of Science ID
- WOS:000235096800026
- Scopus ID
- 2-s2.0-32044437206
- Other Identifier
- 991014877791204721
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- Web of Science research areas
- Spectroscopy