Exploring Phage Peptide Scaffolds: Tyrosinase-Mediated Cyclization for Selective Generation of Bioactive Cyclic Peptides.

Phage display is an ideal platform for selecting peptide hits and offers a diverse array of cyclic binders with high affinity. While many recently developed phage display platforms incorporate chemical strategies, the vast majority of these are detrimental to the phage life cycle due to cross-reactivity with the capsid protein. In contrast, enzyme catalysis, which combines high efficiency and biocompatibility, offers a promising approach for phage-based cyclic peptide display.

A facile strategy for the construction of a phage display cyclic peptide library for the selection of functional macrocycles.

Cyclic peptides represent invaluable scaffolds in biological affinity, providing diverse collections for discovering functional molecules targeting challenging biological entities and protein-protein interactions. The field increasingly focuses on developing cyclization strategies and chemically modified combinatorial libraries in conjunction with M13 phage display, to identify macrocyclic peptide inhibitors for traditionally challenging targets. Here, we introduce a cyclization strategy utilizing -phthalaldehyde (OPA) for the discovery of active macrocycles characterized by asymmetric scaffolds with side-chain cyclization.