A Mechanistic Explanation for the Regioselectivity of Nonenzymatic RNA Primer Extension

A working model of nonenzymatic RNA primer extension could illuminate how prebiotic chemistry transitioned to biology. All currently known experimental reconstructions of nonenzymatic RNA primer extension yield a mixture of 2′-5′ and 3′-5′ internucleotide linkages. Although long seen as a major problem, the causes of the poor regioselectivity of the reaction are unknown. We used a combination of different leaving groups, nucleobases, and templating sequences to uncover the factors that yield selective formation of 3′-5′ internucleotide linkages. We found that fast and high yielding reactions selectively form 3′-5′ linkages. Additionally, in all cases with high 3′-5′ regioselectivity, Watson–Crick base pairing between the RNA monomers and the template is observed at the extension site and at the adjacent downstream position. Mismatched base-pairs and other factors that would perturb the geometry of the imidazolium bridged intermediate lower both the rate and regioselectivity of the reaction.