DNAmoreDB - A Database of Deoxyribozymes

Published on 2003 in J. Am. Chem. Soc. volume 125 issue 18.

PubMed ID: 12720447

DOI:10.1021/ja0340331

Abstract:

Deoxyribozymes that ligate RNA expand the scope of nucleic acid catalysis and allow preparation of site-specifically modified RNAs. Previously, deoxyribozymes that join a 5‘-hydroxyl and a 2‘,3‘-cyclic phosphate were identified by in vitro selection from random DNA pools. Here, the alternative strategy of in vitro evolution was used to transform the 8−17 deoxyribozyme that cleaves RNA into a family of DNA enzymes that ligate RNA. The parent 8−17 DNA enzyme cleaves native 3‘−5‘ phosphodiester linkages but not 2‘−5‘ bonds. Surprisingly, the new deoxyribozymes evolved from 8−17 create only 2‘−5‘ linkages. Thus, reversing the direction of the DNA-mediated process from ligation to cleavage also switches the selectivity in forming the new phosphodiester bond. The same change in selectivity was observed upon evolution of the 10−23 RNA-cleaving deoxyribozyme into an RNA ligase. The DNA enzymes previously isolated from random pools also create 2‘−5‘ linkages. Therefore, deoxyribozyme-mediated formation of a non-native 2‘−5‘ phosphodiester linkage from a 5‘-hydroxyl and a 2‘,3‘-cyclic phosphate is strongly favored in many different contexts.



DNAzymes linked to this article:

Name Isolated sequence Length Reaction
7Q10 TTACGTGGAGGTGGGCTCTA      20 RNA ligation
7Q5 TTTGTGGAGGTAAGCTCTG      19 RNA ligation
7P4 TTCGGTGGAGGTAAGCTCTG      20 RNA ligation
7Q2 TTCTGCGCAGGTAAGCTGTA      20 RNA ligation
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