Biopolymers 2008-01-01

Correlation between symmetry breaker position and the preferences of conformationally constrained homopeptides: a molecular dynamics investigation.

Juan Torras, David Zanuy, Marco Crisma, Claudio Toniolo, Oscar Betran, Carlos Alemán

Index: Biopolymers 90(5) , 695-706, (2008)

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Abstract

The conformational tendencies of C(alpha,alpha)-diethylglycine (Deg)-based peptides have been studied in solution using all atom molecular dynamics simulations. Specifically, the conformational effects of breaking the symmetry of the host Tfa-(Deg)(5)-OtBu (Tfa, trifluoroacetyl; OtBu, tert-butoxy) pentapeptide with punctual replacements at different sequence positions of one Deg residue by its corresponding guest chiral analogue, L-alpha-aminobutyric acid (L-Abu), have been examined by simulating the following peptides: Tfa-(Deg)(5)-OtBu, Tfa-(Deg)(2)-L-Abu-(Deg)(2)-OtBu, Tfa-(Deg)(3)-L-Abu-Deg-OtBu, and Tfa-(Deg)(4)-L-Abu-OtBu. Simulations show that only the Deg homopeptide is able to stabilize a 2.0(5) helix, even though a kinked arrangement with all the Deg residues adopting a fully-extended conformation was found to be stable when the L-Abu residue is introduced in the middle of the sequence. On the other hand, when the L-Abu residue is closer to the C-end of the sequence, the peptide chain prefers a partially folded 3(10)-helix. Additional simulations on Tfa-(Deg)(3)-L-Abu-(Deg)(3)-OtBu highlighted that, when the size of the Deg segments increases, their tendency to adopt a 2.0(5) helix predominates over the preferred folded conformation of L-Abu. The overall picture extracted after more than 300 ns of molecular dynamics simulation is that breaking the alpha-carbon symmetry of achiral C(alpha)-tetrasubstituted amino acids is a promising strategy to build up polypeptides with modulated conformational tendencies.(c) 2008 Wiley Periodicals, Inc.