DNAmoreDB - A Database of Deoxyribozymes

Published on 2013 in J. Am. Chem. Soc. volume 135 issue 23.

PubMed ID: 23697866

DOI:10.1021/ja4032488

Abstract:

We recently used in vitro selection to identify many deoxyribozymes that catalyze DNA phosphodiester bond hydrolysis and create 5′-phosphate and 3′-hydroxyl termini. Alternatively, numerous deoxyribozymes have been identified for catalysis of RNA cleavage by 2′-hydroxyl transesterification, forming 2′,3′-cyclic phosphate and 5′-hydroxyl termini. In this study, we investigated the ability of DNA to catalyze RNA cleavage by hydrolysis rather than transesterification, although normally the hydrolysis reaction is substantially disfavored relative to transesterification. Via a series of in vitro selection experiments, we found that reselection of a DNA-hydrolyzing deoxyribozyme leads either to transesterification or hydrolysis, depending on exclusion or inclusion of a stringent selection pressure for hydrolysis. An entirely new selection starting from a random DNA pool, using an all-RNA substrate and imposing the same selection pressure, also leads to RNA hydrolysis. Collectively, these results establish experimentally that small DNA sequences have the catalytic ability to direct a chemical reaction down a disfavored pathway, even when a more favorable mechanism is readily available. Our view of DNA catalysis is therefore expanded beyond merely increasing the rates of reactions that would have occurred more slowly without the catalyst.



DNAzymes linked to this article:

Name Isolated sequence Length Reaction
6SE3 CGCTAGATACGTGAATGTGTTTGACAGAGCCGGTCATCAA      40 RNA cleavage
6SE10 CGATAGATAACGGGGTGGATTTGCAACCGCAGTACATATA      40 RNA cleavage
6SE11 GGCTAGAGAAGCGAGTGTGTTTGCTACAACGGGCCGTTAA      40 RNA cleavage
6SE12 CGATAGATACGTAGGAGCGTTAGCTATAGCCGTACATAGA      40 RNA cleavage
6SE15 GGCCATATAACTCGGAGAGTTTCCTAGAGCTGTGCGTGAA      40 RNA cleavage
6SE22 GGCTAGGGAAGCGGCTACGTACACCTCAGCGGGCACATAA      40 RNA cleavage
6SE30 GGCTAGAGAAGCGGATGAGTTTCCTATAGATATCCGGCCA      40 RNA cleavage
9SE20 CGCTAGATAAGTGGGCGCGTTTGCTGTAGTTGTCCTACGA      40 RNA cleavage
9SE22 CGCTAGATAAGTGGATGCGTTTGCTGTAGTTGTCCTTCAA      40 RNA cleavage
9SE23 CGCCAGATAAGTGGAGGCTTTTGCTAGAGTTGTCCTTTAA      40 RNA cleavage
9SH2 CCCTATACAAGTGGGAGGATTAGCCATAGGCGTGGGGCAA      40 RNA cleavage
9SH3 GGCTAGAATAGTGGGGGCGATTGATCTAGGGGGCGCTTAA      40 RNA cleavage
9SH5 CCCTAGATAAGGGGGTGCGTATTCTTTGGGTGCCCCGAAA      40 RNA cleavage
9SH18 AGGCAGAAAAGTGGGTACTCTTGTTAGAGCTCTACATATA      40 RNA cleavage
9SK1 GGAGAGCTCGTGTGTGAGAGCATTAAGTGAACTGACTGGT      40 RNA cleavage
9SK2 TACGGACGGGGCGTAGCGGATTGAACTGCAGAGCAGAGTG      40 RNA cleavage
9SK5 GGGGCAGTAGGAGGTTAGGCCAGGGAGAGAGGAAGGTAGG      40 RNA cleavage
9SK17 GCCAGCGATCAAAGACGGCGAGTTGTACCCATAGGTGTCT      40 RNA cleavage
9SK29 GAGAGTGTACGGTTACGCACTAGCTAACAGGAGTTCGTGC      40 RNA cleavage
9SK31 CCGGGCTGCGAAGTTGGCGATAAGCTACCGTAGGACGCTT      40 RNA cleavage
6SE20 GGCTAGAGCAGCGGGTGTGTTTGCTATACCCGGCCCTATA      40 RNA cleavage
9SE33 CGCCAGATAAGTGGAGACTTTTGCTATAGTTGTCCTTGTA      40 RNA cleavage
9SH25 CGCCCGTTGGCAGGGTGCGCTTGTTATCGTTGTCCTGCAG      40 RNA cleavage
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