Formation of amide bonds without a condensation agent and implications for origin of life

Abstract

AMIDE bonds are of central importance for biochemistry; in the guise of peptide bonds, they form the backbone of proteins. The formation of amide bonds without the assistance of enzymes poses a major challenge for theories of the orgin of life. Enzyme-free formation of amide bonds between amino acids has been demonstrated in the presence of condensing agents such as cyanamide^1–4. Here we report the formation of amide bonds in aqueous solution in the absence of any condensing agent. We find that the formation of pyrite (FeS₂) from FeS and H₂S can provide the driving force for reductive acetylation of amino acids with mercaptoacetic acid (HSCH₂COOH). The redox energy of pyrite formation permits the activation of the carboxylic acid group, which is converted to a species that reacts readily with amines. This process provides support for the chemo-autotrophic theory^5–8 for the origin of life, in which pyrite formation supplies the energy source for the first autocatalytic reproduction cycle.