Issue 30, 2014

Mechanistic insight into benzenethiol catalyzed amide bond formations from thioesters and primary amines

Abstract

The influence of arylthiols on cysteine-free ligation, i.e. the reaction between an alkyl thioester and a primary amine forming an amide bond, was studied in a polar aprotic solvent. We reacted the ethylthioester of hippuric acid with cyclohexylamine in the absence or presence of various quantities of thiophenol (PhSH) in a slurry of disodium hydrogen phosphate in dry DMF. Quantitative conversions into the resulting amide were observed within a few hours in the presence of equimolar amounts of thiophenol. Ab initio calculations showed that the reaction mechanism in DMF is similar to the well-known aqueous reaction mechanism. The energy barrier of the catalyzed amidation reaction is approximately 40 kJ mol−1 lower than the non-catalyzed amidation reaction. At least partially this can be explained by a hydrogen bond from the amine to the π-electrons of the thiophenol, stabilizing the transition state in the aromatic thioester amidation reaction. Under similar conditions, cysteine-free ligation was achieved by coupling a fully side-chain protected 15 amino acid phosphopeptide thioester to the free N-terminal of a side-chain protected 9 amino acid peptide producing the corresponding 24 amino acid phosphopeptide.

Graphical abstract: Mechanistic insight into benzenethiol catalyzed amide bond formations from thioesters and primary amines

Supplementary files

Article information

Article type
Paper
Submitted
29 Jan 2014
Accepted
03 Jun 2014
First published
26 Jun 2014

Org. Biomol. Chem., 2014,12, 5745-5751

Mechanistic insight into benzenethiol catalyzed amide bond formations from thioesters and primary amines

N. Stuhr-Hansen, N. Bork and K. Strømgaard, Org. Biomol. Chem., 2014, 12, 5745 DOI: 10.1039/C4OB00073K

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