A joint application of experimental and computational approaches has revealed the exceptionally high attitude of crabrolin, a 13‐residue peptide with sequence FLPLILRKIVTAL‐NH2, to adopt alpha‐helix conformation not only in membrane‐mimicking solvents but also in the presence of a not negligible amount of water. Our study shows that this propensity essentially resides in the intrinsic thermodynamic stability of alpha‐helix conformation whose kinetic stability is drastically reduced in water solvent. Our analysis suggests that this is due to two effects enhanced by water: a more local effect consisting of the demolition of intra‐peptide H‐bonds, essential for the alpha‐helix formation, and a bulk – electrostatic – effect favoring conformational states more polar than alpha‐helix.

Aschi, M., Bozzi, A., Luzi, C., Bouchemal, N., Sette, M. (2017). Crabrolin, a natural antimicrobial peptide: structural properties. JOURNAL OF PEPTIDE SCIENCE, 23(9), 693-700 [10.1002/psc.3013].

Crabrolin, a natural antimicrobial peptide: structural properties

Sette M.
2017-06-05

Abstract

A joint application of experimental and computational approaches has revealed the exceptionally high attitude of crabrolin, a 13‐residue peptide with sequence FLPLILRKIVTAL‐NH2, to adopt alpha‐helix conformation not only in membrane‐mimicking solvents but also in the presence of a not negligible amount of water. Our study shows that this propensity essentially resides in the intrinsic thermodynamic stability of alpha‐helix conformation whose kinetic stability is drastically reduced in water solvent. Our analysis suggests that this is due to two effects enhanced by water: a more local effect consisting of the demolition of intra‐peptide H‐bonds, essential for the alpha‐helix formation, and a bulk – electrostatic – effect favoring conformational states more polar than alpha‐helix.
5-giu-2017
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore BIO/10 - BIOCHIMICA
English
Con Impact Factor ISI
antimicrobial peptides; crabrolin; nuclear magnetic resonance; circular dichroism; molecular dynamics
https://onlinelibrary.wiley.com/doi/10.1002/psc.3013
Aschi, M., Bozzi, A., Luzi, C., Bouchemal, N., Sette, M. (2017). Crabrolin, a natural antimicrobial peptide: structural properties. JOURNAL OF PEPTIDE SCIENCE, 23(9), 693-700 [10.1002/psc.3013].
Aschi, M; Bozzi, A; Luzi, C; Bouchemal, N; Sette, M
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/219350
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