Litcius/Paper detail

Potentially Prebiotic Synthesis of Aminoacyl-RNA via a Bridging Phosphoramidate-Ester Intermediate

Samuel J. Roberts, Ziwei Liu, John D. Sutherland

2022Journal of the American Chemical Society40 citationsDOIOpen Access PDF

Abstract

Translation according to the genetic code is made possible by selectivity both in aminoacylation of tRNA and in anticodon/codon recognition. In extant biology, tRNAs are selectively aminoacylated by enzymes using high-energy intermediates, but how this might have been achieved prior to the advent of protein synthesis has been a largely unanswered question in prebiotic chemistry. We have now elucidated a novel, prebiotically plausible stereoselective aminoacyl-RNA synthesis, which starts from RNA-amino acid phosphoramidates and proceeds via phosphoramidate-ester intermediates that subsequently undergo conversion to aminoacyl-esters by mild acid hydrolysis. The chemistry avoids the intermediacy of high-energy mixed carboxy-phosphate anhydrides and is greatly favored under eutectic conditions, which also potentially allow for the requisite pH fluctuation through the variable solubility of CO2 in solid/liquid water.

Topics & Concepts

ChemistryPhosphoramidateAminoacylationAmino acidRNAGenetic codeTransfer RNACombinatorial chemistryPhosphonateOrganic chemistryStereochemistryBiochemistryGeneOrigins and Evolution of LifeRNA and protein synthesis mechanismsEnzyme Structure and Function