A versatile “Synthesis Tag” (SynTag) for the chemical synthesis of aggregating peptides and proteins

Solid-phase peptide synthesis (SPPS) and native chemical ligation (NCL) are powerful methods for obtaining peptides and proteins that are otherwise inaccessible. Nonetheless, numerous sequences are difficult to prepare via SPPS, and cleaved peptides often have low aqueous solubility. To address these challenges, we developed a “Synthesis Tag” consisting of six arginines connected via a cleavable MeDbz linker. “SynTag” effectively improves batch- and flow-SPPS of “difficult sequences”, enhances solubility of the cleaved peptides and provides direct access to native sequences by hydrolysis, or peptide thioesters for NCL. We demonstrate its utility in the first chemical synthesis of the MYC transactivation domain with a single NCL. We envisage SynTag to become a broadly applicable tool that enables the synthesis and study of previously unattainable peptides and proteins

Late-Stage Aryl C-H Bond Cyclopropenylation with Cyclopropenium Cations.

Herein, we disclose the first regio-, site- and chemoselective late-stage (hetero)aryl C-H bond cyclopropenylation with cyclopropenium cations (CPCs). The process is fast, operationally simple and showed an excellent functional group tolerance in densely-functionalized drug molecules, natural products, agrochemicals and fluorescent dyes. Moreover, we discovered that the installation of the cyclopropene ring in drug molecules could not only be used to shield against metabolic instability but also as a synthetic tool to reach medicinally-relevant sp3-rich scaffolds exploiting the highly-strained nature of the cyclopropene ring with known transformations