Use of constrained synthetic amino acids in beta-helix proteins for conformational control.

Departament d'Enginyeria Química, ETSEIB, Universitat Politècnica de Catalunya, Diagonal 647, 08028 Barcelona, Spain.

A highly constrained amino acid has been introduced in the turn region of a beta-helix to increase the conformational stability of the native fold for nanotechnological purposes. The influence of this specific amino acid replacement in the final organization of beta-helix motifs has been evaluated by combining ab initio first-principles calculations on model systems and molecular dynamics simulations of entire peptide segments. The former methodology, which has been applied to a sequence containing three amino acids, has been used to develop adjusted templates. Calculations indicated that 1-amino-2,2-diphenylcyclopropanecarboxylic acid, a constrained cyclopropane analogue of phenylalanine, exhibits a strong tendency to form and promote folded conformations. On the other hand, molecular dynamics simulations are employed to probe the ability of such a synthetic amino acid to enhance the conformational stability of the beta-helix motif, which is the first requirement for further protein nanoengineering. A highly regular segment from a naturally occurring beta-helix protein was selected as a potential nanoconstruct module. Simulations of wild type and mutated segments revealed that the ability of the phenylalanine analogue to nucleate turn conformations enhances the conformational stability of the beta-helix motif in isolated peptide segments.

PMID: 17388467 [PubMed - indexed for MEDLINE]