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alpha- and 3(10)-helix interconversion: A quantum-chemical study on polyalanine systems in the gas phase and in aqueous solvent

  1. Author:
    Topol, I. A.
    Burt, S. K.
    Deretey, E.
    Tang, T. H.
    Perczel, A.
    Rashin, A.
    Csizmadia, I. G.

  2. Author Address

    NCI, Adv Biomed Comp Ctr, SAIC Frederick, POB B, Frederick, MD 21702 USA. NCI, Adv Biomed Comp Ctr, SAIC Frederick, Frederick, MD 21702 USA. Univ Toronto, Dept Chem, Toronto, ON M5S 3H6, Canada. Lorand Eotvos Univ, Inst Organ Chem, H-1117 Budapest, Hungary. BioChemComp Inc, Teaneck, NJ 07666 USA. Topol IA NCI, Adv Biomed Comp Ctr, SAIC Frederick, POB B, Frederick, MD 21702 USA.
    1. Year: 2001
  2. Journal: Journal of the American Chemical Society
    1. 123
    2. 25
    3. Pages: 6054-6060
  4. Type of Article: Article
  1. Abstract:

    Helices are among the predominant secondary structures in globular proteins. About 90% of the residues in them are found to be in the alpha -helical conformation, and another 10% in the 3(10) conformation. There is a standing controversy between experimental and some theoretical results, and controversy among theoretical results concerning the predominance of each conformation, in particular, helices, We address this controversy by ab initio Hartree-Fock and density functional theory studies of helices with different lengths in a vacuum and in the aqueous phase. Our results show that (1) in a vacuum, all oligo(Ala) helices of 4-10 residues adopt the 3(10) - conformation; (2) in aqueous solution, the 6-10 residue peptides adopt the alpha -helical conformation; (3) there might be two intermediates between these helical conformers allowing for their interconversion. The relevance of these results to the structure and folding of proteins is discussed.

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