Abstract
Reasons for believing that primitive mechanisms of translation may have employed thiol esters of the amino acids rather than oxygen esters are summarized. It is suggested that coenzyme A (HSCoA), which fulfills the role of aminoacyl transfer in the synthesis of peptide antibiotics, is a primitive analogue of tRNA which performs a similar role in protein synthesis. HSCoA—an adenylic acid moiety containing phosphates esterified at the 3′ and 5′ positions and linked to a peptide-like structure terminating in a reactive thiol—possesses chemical features suggestive of both peptides and polynucleotides. Examination of the chemistry of HSCoA-like molecules shows that a rather similar compound can carry out a repeating intramolecular peptide synthesis in the absence of enzymes. Condensation of further nucleotides onto the adenylic acid moiety gives rise to parallel modes of peptide and oligonucleotide synthesis. A “self-improving” ability to select available amino acids is inherent in the proposed mechanism of peptide synthesis. The hypothesis plausibly explains the universal occurrence of a sulphur-containing amino acid at the N terminus of nascent proteins.
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