Biology – Quantitative Biology – Biomolecules
Scientific paper
2003-11-08
Biology
Quantitative Biology
Biomolecules
14 pages, 10 figures
Scientific paper
The determination of the folding mechanisms of proteins is critical to understand the topological change that can propagate Alzheimer and Creutzfeld-Jakobs diseases, among others. The computational community has paid considerable attention to this problem; however, the associated time scale, typically on the order of milliseconds or more, represents a formidable challenge. Ab initio protein folding from long molecular dynamics (MD) simulations or ensemble dynamics is not feasible with ordinary computing facilities and new techniques must be introduced. Here we present a detailed study of the folding of a 16-residue beta-hairpin, described by a generic energy model and using the activation-relaxation technique. From a total of 90 trajectories at 300 K, three folding pathways emerge. All involve a simultaneous optimization of the complete hydrophobic and hydrogen bonding interactions. The first two follow closely those observed by previous theoretical studies. The third pathway, never observed by previous all-atom folding, unfolding and equilibrium simulations, can be described as a reptation move of one strand of the beta-sheet with respect to the other. This reptation move indicates that non-native interactions can play a dominant role in the folding of secondary structures. These results point to a more complex folding picture than expected for a simple beta-hairpin.
Derreumaux Philippe
Mousseau Normand
Wei Guanghong
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