An o-nitrobenzyl scaffold for peptide ligation: synthesis and applications

Abstract

Chemical ligation approaches facilitate the chemoselective assembly of unprotected peptides in aqueous solution. Here, two photolabile auxiliaries are described that enlarge the applicability of native chemical ligation to non-cysteine targets. The auxiliaries, designed to allow reaction with thioester peptides, generate an amide bond between the two initial fragments. The o-nitrobenzyl tertiary benzylamide that is formed at the ligation junction can be transformed into a native amide group under mild photolysis conditions. The veratryl auxiliary was found to be excessively labile during peptide purification and ligation. However, the auxiliary based on the o-nitrobenzyl group shows all the necessary properties for a general application in routine peptide and protein synthesis. In addition, the auxiliary linked to the N-terminus can be efficiently photolyzed, suggesting a new approach for the generation of photocaged amines. Synthesis, solid phase introduction onto peptide chains, ligation properties and photolysis in water are described, and a careful study of compatibility of the method with potentially fragile peptide side chains is reported.