Photochemical Transformations of Peptides Containing the N-(2-Selenoethyl)glycine Moiety

Abstract: The diselenide bond has attracted considerable attention due to its ability to undergo the metathesis reaction in response to visible light. In our previous study, we demonstrated visible-light-induced diselenide metathesis of selenocysteine-containing linear peptides, allowing for the convenient generation of peptide libraries. Here, we investigated the transformation of linear and cyclic peptides containing the N-(2selenoethyl)glycine moiety. The linear peptides were highly susceptible to the metathesis reac… Show more

“…Based on this study, the authors further applied the metathesis reaction for the transformation of linear and cyclic peptides containing N -(2-selenoethyl)glycine moiety. 33 Payne et al reported the formation of asymmetric diselenide bonds between diselenide-linked protein dimer and diselenide-linked polyethylene glycol (PEG) dimer under non-reducing conditions, which was used for the functionalization of peptides and proteins via selenoether formation. 34 These studies suggest that peptides/proteins with diselenide bonds are not as stable as previously regarded.…”

Unexpected diselenide metathesis in selenocysteine-substituted biologically active peptides

“…Based on this study, the authors further applied the metathesis reaction for the transformation of linear and cyclic peptides containing N -(2-selenoethyl)glycine moiety. 33 Payne et al reported the formation of asymmetric diselenide bonds between diselenide-linked protein dimer and diselenide-linked polyethylene glycol (PEG) dimer under non-reducing conditions, which was used for the functionalization of peptides and proteins via selenoether formation. 34 These studies suggest that peptides/proteins with diselenide bonds are not as stable as previously regarded.…”

Unexpected diselenide metathesis in selenocysteine-substituted biologically active peptides