Controlling Biological Activity with Light: Diarylethene-Containing Cyclic Peptidomimetics

Photobiological processes in nature are usually triggered by nonpeptidic chromophores or by modified side chains. A system is presented in which the polypeptide backbone itself can be conformationally switched by light. An amino acid analogue was designed and synthesized based on a reversibly photoisomerizable diarylethene scaffold. This analogue was incorporated into the cyclic backbone of the antimicrobial peptide gramicidin S at several sites. The biological activity of the resulting peptidomimetics could then be effectively controlled by ultraviolet/visible light within strictly defined spatial and temporal limits. Making light work: An amino acid analogue based on a reversibly photoisomerizable diarylethene scaffold was incorporated into the cyclic backbone of the antimicrobial peptide gramicidin S. The biological activity of the resulting peptidomimetics could be effectively controlled by ultraviolet/visible light within strictly defined spatial and temporal limits.