Affiliation:
1. Department of Chemistry, Purdue University, West Lafayette, IN 47907
Abstract
Peptide formation from amino acids is thermodynamically unfavorable but a recent study provided evidence that the reaction occurs at the air/solution interfaces of aqueous microdroplets. Here, we show that i) the suggested amino acid complex in microdroplets undergoes dehydration to form oxazolone; ii) addition of water to oxazolone forms the dipeptide; and iii) reaction of oxazolone with other amino acids forms tripeptides. Furthermore, the chirality of the reacting amino acids is preserved in the oxazolone product, and strong chiral selectivity is observed when converting the oxazolone to tripeptide. This last fact ensures that optically impure amino acids will undergo chain extension to generate pure homochiral peptides. Peptide formation in bulk by wet-dry cycling shares a common pathway with the microdroplet reaction, both involving the oxazolone intermediate.
Funder
DOD | Multidisciplinary University Research Initiative
NSF | Directorate for Mathematical and Physical Sciences
Publisher
Proceedings of the National Academy of Sciences
Reference66 articles.
1. Amino acids in meteorites
2. From Interstellar Amino Acids to Prebiotic Catalytic Peptides: A Review
3. S. Pizzarello, G. W. Cooper, G. J. Flynn, “The nature and distribution of the organic material in carbonaceous chondrites and interplanetary dust particles” in Meteorites and the Early Solar System II, D. S. Lauretta, H. Y. McSween, Eds. (University of Arizona Press, 2021), pp. 625–652.
4. Water–Air Interfaces as Environments to Address the Water Paradox in Prebiotic Chemistry: A Physical Chemistry Perspective
5. Opinion: Studies on the origin of life — the end of the beginning
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