Open AccessUV Resonance Raman Investigation of a 310-Helical Peptide Reveals a Rough Energy Landscape
Author(s) -
Zeeshan Ahmed,
Sanford A. Asher
Publication year - 2006
Publication title -
biochemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.43
H-Index - 253
eISSN - 1520-4995
pISSN - 0006-2960
DOI - 10.1021/bi060858m
Subject(s) - raman spectroscopy , resonance (particle physics) , energy landscape , peptide , nuclear magnetic resonance , resonance raman spectroscopy , energy (signal processing) , materials science , chemistry , biophysics , physics , atomic physics , biochemistry , optics , biology , quantum mechanics
We used UVRRS at 194 and 204 nm excitation to examine the backbone conformation of a 13-residue polypeptide (gp41(659-671)) that has been shown by NMR to predominantly fold into a 3(10)-helix. Examination of the conformation sensitive AmIII(3) region indicates the peptide has significant populations of beta-turn, PPII, 3(10)-helix, and pi-helix-like conformations but little alpha-helix. We estimate that at 1 degree C on average six of the 12 peptide bonds are in folded conformations (predominantly 3(10)- and pi-helix), while the other six are in unfolded (beta-turn/PPII) conformations. The folded and unfolded populations do not change significantly as the temperature is increased from 1 to 60 degrees C, suggesting a unique energy landscape where the folded and unfolded conformations are essentially degenerate in energy and exhibit identical temperature dependences.
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