Helix nucleation kinetics from molecular simulations in explicit solvent.
Proteins
; 42(1): 77-84, 2001 Jan 01.
Article
em En
| MEDLINE
| ID: mdl-11093262
We study the reversible folding/unfolding of short Ala and Gly-based peptides by molecular dynamics simulations of all-atom models in explicit water solvent. A kinetic analysis shows that the formation of a first alpha-helical turn occurs within 0.1-1 ns, in agreement with the analyses of laser temperature jump experiments. The unfolding times exhibit Arrhenius temperature dependence. For a rapidly nucleating all-Ala peptide, the helix nucleation time depends only weakly on temperature. For a peptide with enthalpically competing turn-like structures, helix nucleation exhibits an Arrhenius temperature dependence, corresponding to the unfolding of enthalpic traps in the coil ensemble. An analysis of structures in a "transition-state ensemble" shows that helix-to-coil transitions occur predominantly through breaking of hydrogen bonds at the helix ends, particularly at the C-terminus. The temperature dependence of the transition-state ensemble and the corresponding folding/unfolding pathways illustrate that folding mechanisms can change with temperature, possibly complicating the interpretation of high-temperature unfolding simulations. The timescale of helix formation is an essential factor in molecular models of protein folding. The rapid helix nucleation observed here suggests that transient helices form early in the folding event.
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Coleções:
01-internacional
Base de dados:
MEDLINE
Assunto principal:
Solventes
/
Dobramento de Proteína
Tipo de estudo:
Prognostic_studies
Idioma:
En
Revista:
Proteins
Ano de publicação:
2001
Tipo de documento:
Article