Abstract
Mastoparan-X, a 14-residue peptide found in wasp venom, does not adopt a well-defined structure in water, but it folds into an alpha-helix upon addition of trifluoroethanol (TFE). At low levels of TFE, the peptide is partially folded, passing through intermediate stages of folding as the amount of TFE is increased. These partially folded states have been characterized by CD and NMR spectroscopy, and methods to estimate the helical content from CD, chemical shift, and nuclear overhauser effect (NOE) data are compared. Variation in the sign and intensity of NOE cross-peaks is observed in different regions of the peptide, indicative of greater mobility of the sidechains compared to the backbone of the peptide. Furthermore, variation in the sidechain mobility is observed, both between sidechains of different amino acids and within the sidechain of a given amino acid. By monitoring chemical shifts and NOE intensities as the TFE concentration is increased, the initiation site for helix formation could be identified. Furthermore, details of the peptide structure and dynamics during the folding process were elucidated.
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