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Prebiotically plausible oligoribonucleotide ligation facilitated by chemoselective acetylation.


ABSTRACT: The recent synthesis of pyrimidine ribonucleoside-2',3'-cyclic phosphates under prebiotically plausible conditions has strengthened the case for the involvement of ribonucleic acid (RNA) at an early stage in the origin of life. However, a prebiotic conversion of these weakly activated monomers, and their purine counterparts, to the 3',5'-linked RNA polymers of extant biochemistry has been lacking (previous attempts led only to short oligomers with mixed linkages). Here we show that the 2'-hydroxyl group of oligoribonucleotide-3'-phosphates can be chemoselectively acetylated in water under prebiotically credible conditions, which allows rapid and efficient template-directed ligation. The 2'-O-acetyl group at the ligation junction of the product RNA strand can be removed under conditions that leave the internucleotide bonds intact. Remarkably, acetylation of mixed oligomers that possess either 2'- or 3'-terminal phosphates is selective for the 2'-hydroxyl group of the latter. This newly discovered chemistry thus suggests a prebiotic route from ribonucleoside-2',3'-cyclic phosphates to predominantly 3',5'-linked RNA via partially 2'-O-acetylated RNA.

SUBMITTER: Bowler FR 

PROVIDER: S-EPMC4074891 | biostudies-literature | 2013 May

REPOSITORIES: biostudies-literature

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Prebiotically plausible oligoribonucleotide ligation facilitated by chemoselective acetylation.

Bowler Frank R FR   Chan Christopher K W CK   Duffy Colm D CD   Gerland Béatrice B   Islam Saidul S   Powner Matthew W MW   Sutherland John D JD   Xu Jianfeng J  

Nature chemistry 20130414 5


The recent synthesis of pyrimidine ribonucleoside-2',3'-cyclic phosphates under prebiotically plausible conditions has strengthened the case for the involvement of ribonucleic acid (RNA) at an early stage in the origin of life. However, a prebiotic conversion of these weakly activated monomers, and their purine counterparts, to the 3',5'-linked RNA polymers of extant biochemistry has been lacking (previous attempts led only to short oligomers with mixed linkages). Here we show that the 2'-hydrox  ...[more]

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