Logo Logo
Help
Contact
Switch Language to German
Okamura, Hidenori ORCID: 0000-0002-2792-9595; Crisp, Antony ORCID: 0000-0001-7173-4376; Hübner, Sarah; Becker, Sidney ORCID: 0000-0002-4746-2822; Rovó, Petra; Carell, Thomas ORCID: 0000-0001-7898-2831 (2019): Proto‐Urea‐RNA (Wöhler RNA) Containing Unusually Stable Urea Nucleosides. In: Angewandte Chemie International Edition, Vol. 58, No. 51: pp. 18691-18696
[img]
Preview
Creative Commons Attribution Non-commercial 3MB

Abstract

The RNA world hypothesis assumes that life on Earth began with nucleotides that formed information‐carrying RNA oligomers able to self‐replicate. Prebiotic reactions leading to the contemporary nucleosides are now known, but their execution often requires specific starting materials and lengthy reaction sequences. It was therefore proposed that the RNA world was likely proceeded by a proto‐RNA world constructed from molecules that were likely present on the early Earth in greater abundance. Herein, we show that the prebiotic starting molecules bis‐urea (biuret) and tris‐urea (triuret) are able to directly react with ribose. The urea‐ribosides are remarkably stable because they are held together by a network of intramolecular, bifurcated hydrogen bonds. This even allowed the synthesis of phosphoramidite building blocks and incorporation of the units into RNA. Investigations of the nucleotides’ base‐pairing potential showed that triuret:G RNA base pairs closely resemble U:G wobble base pairs. Based on the probable abundance of urea on the early Earth, we postulate that urea‐containing RNA bases are good candidates for a proto‐RNA world.