Effect of Brønsted Acids on the Activation of Mixed Anhydride/Mixed Carbonic Anhydride and C-Terminal-Free N-Methylated Peptide Synthesis in a Micro-Flow Reactor.

Amidations employing mixed (carbonic) anhydrides have long been favoured in peptide synthesis because of their cost-effectiveness and less waste generation. Despite their long history, no study has compared the effects of additives on the activation of mixed anhydrides and carbonic anhydrides. In this study, we investigated the amidation of mixed (carbonic) anhydride in the presence of a base and/or Brønsted acids.

Peptide Cyclization by the Use of Acylammonium Species.

Although cyclic peptides have become increasingly important as drugs, the most conventional peptide cyclization method using moderately active coupling agents suffers from a lot of waste and high cost as well as long reaction times and burdensome purification. Herein, we report an unconventional approach to peptide cyclization that uses acylammonium species generated from inexpensive and less wasteful Me NBn and ClCO i-Pr. Using this approach, we observed the desired rapid activation of the C-terminus of cyclization precursors by an acylammonium ion for rapid and epimerization/dimerization-free cyclization of synthetically challenging peptides, including a difficult cyclization involving N-methyl amide bond formation.