AI Article Synopsis
- Thioesters derived from alpha-amino acids, like DL-Leucine-thioethyl esters (LeuSEt), can form early peptides through a process called polycondensation in buffers or water, leading to various peptide structures identified using mass-spectrometry techniques.
- In contrast, polymerizing activated forms of these thioesters results in longer peptides (up to 30 residues) with more uniform (isotactic) sequences, alongside the formation of beta-sheet structures that help in extending the peptide chains.
- Additionally, when combining different forms of leucine and valine, specific co-peptides are produced, indicating that these beta-sheets can guide the formation of certain peptide patterns but do not influence the chemical composition
Article Abstract
Thioesters of alpha-amino acids are considered as plausible monomers for the generation of the primeval peptides. DL-Leucine-thioethyl esters (LeuSEt), where the L-enantiomer was tagged with deuterium atoms, undergo polycondensation in water or in bicarbonate or imidazole buffer solutions to yield mainly heterochiral (atactic) peptides and diketopiperazine, as analyzed by MALDI-TOF and ESI mass-spectrometry. In variance, when polymerization of DL(d(10))-Leu, first activated with N,N'-carbonyldiimidazole, then initiated with ethanethiol or with DL(d(3))-LeuSEt yielded a library of peptides up to 30 detectable residues where those of homochiral sequence (isotactic) are the dominant diastereoisomers. At these conditions, racemic beta-sheets are formed and operate as stereoselective templates in the process of chain-elongation. Isotopic L:L(d(10))-Leu co-peptides were obtained in the polymerization of L(d(10))-Leu with L-LeuSEt. By contrast, mixtures of oligo-D-Leu and oligo-L(d(10))-Leu were obtained in the polymerization of mixtures of D-LeuSEt with activated L(d(10))-Leu. Isotactic co-peptides containing Leu and Val residues were formed in the polymerization of mixtures of activated DL(d(8))-Val with DL(d(3))-LeuSEt in water, implying that the racemic beta-sheets exert regio-enantio-selection but not chemo-selection. A reaction pathway is suggested, where LeuSEt operates both as initiator of the reaction as well as a multimer.
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