A systematic study of fundamentals in α-helical coiled coil mimicry by alternating sequences of β- and γ-amino acids.

Aimed at understanding the crucially important structural features for the integrity of α-helical mimicry by βγ-sequences, an α-amino acid sequence in a native peptide was substituted by differently arranged βγ-sequences. The self- and hetero-assembly of a series of αβγ-chimeric sequences based on a 33-residue GCN4-derived peptide was investigated by means of molecular dynamics, circular dichroism, and a disulfide exchange assay. Despite the native-like behavior of βγ alternating sequences such as retention of α-helix dipole and the formation of 13-membered α-helix turns, the αβγ-chimeras with different βγ substitution patterns do not equally mimic the structural behavior of the native parent peptide in solution.

Synthetic strategies to alpha-trifluoromethyl and alpha-difluoromethyl substituted alpha-amino acids.

The combination of the unique physical and chemical properties of fluorine with proteinogenic amino acids represents a new approach to the design of biologically active compounds including peptides with improved pharmacological parameters. Therefore, the development of routine synthetic methods which enable the effective and selective introduction of fluorine into the desired amino acids from readily available starting materials is of significant synthetic importance. The scope of this critical review is to summarize the most frequently employed strategies for the synthesis of alpha-difluoromethyl and alpha-trifluoromethyl substituted alpha-amino acids (114 references).