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Non‐Enzymatic RNA Backbone Proofreading through Energy‐Dissipative Recycling
Author(s) -
Mariani Angelica,
Sutherland John D.
Publication year - 2017
Publication title -
angewandte chemie
Language(s) - English
Resource type - Journals
eISSN - 1521-3757
pISSN - 0044-8249
DOI - 10.1002/ange.201703169
Subject(s) - rna , proofreading , chemistry , enzyme , dissipative system , duplex (building) , nucleic acid , hydrolysis , dna , combinatorial chemistry , biochemistry , physics , polymerase , quantum mechanics , gene
Non‐enzymatic oligomerization of activated ribonucleotides leads to ribonucleic acids that contain a mixture of 2′,5′‐ and 3′,5′‐linkages, and overcoming this backbone heterogeneity has long been considered a major limitation to the prebiotic emergence of RNA. Herein, we demonstrate non‐enzymatic chemistry that progressively converts 2′,5′‐linkages into 3′,5′‐linkages through iterative degradation and repair. The energetic costs of this proofreading are met by the hydrolytic turnover of a phosphate activating agent and an acylating agent. With multiple rounds of this energy‐dissipative recycling, we show that all‐3′,5′‐linked duplex RNA can emerge from a backbone heterogeneous mixture, thereby delineating a route that could have driven RNA evolution on the early earth.