Peptaibols as a model for the insertions of chemical modifications.

Peptaibols are linear non ribosomal peptides which have been the object of intense research efforts regarding their synthesis and the elucidation of the mechanism allowing their insertion in biological membranes. Forty years after their discovery they are still considered as model compounds and suitable probes for the investigation of new approaches aiming to test the efficacy of new coupling reagents, to physically and spectroscopically investigate the way by which they interact with the lipid bilayer and to develop artificial membrane pores. The stable helical secondary structure adopted by the peptaibols turn to be an adequate platform for gaining insight on the structural modifications induced by the substitution of the amide bond by 1,2,3-triazoles, but also for monitoring the impact of newly designed α,α-dialkyl glycine with fluorinated and silylated side chains as 2-aminoisobutyric acid mimic. Peptaibols secondary structure dictated by Aib high content has inspired the development of foldamers. Challenges and investigations on the above mentioned topics are discussed in this brief review.