DNAmoreDB - A Database of Deoxyribozymes

Published on 2005 in J. Am. Chem. Soc. volume 127 issue 9.

PubMed ID: 15740125

DOI:10.1021/ja044881b

Abstract:

We recently used in vitro selection to identify 7S11, a deoxyribozyme that synthesizes 2‘,5‘-branched RNA. The 7S11 DNA enzyme mediates the nucleophilic attack of an adenosine 2‘-hydroxyl group at a 5‘-triphosphate, forming 2‘,5‘-branched RNA in a reaction that resembles the first step of in vivo RNA splicing. Here, we describe 7S11 characterization experiments that have two important implications for nucleic acid chemistry and biochemistry. First, on the basis of a comprehensive analysis of its substrate sequence requirements, 7S11 is shown to be generally applicable for the synthesis of a wide range of 2‘,5‘-branched RNAs. Strict substrate sequence requirements are found at the two RNA nucleotides that directly form the branched linkage, and these requirements correspond to those nucleotides found most commonly at these two positions in natural spliced RNAs. Outside of these two nucleotides, most substrate sequences are tolerated with useful ligation activity, although rates and yields vary. Because chemical synthesis approaches to branched RNA are extremely limited in scope, the deoxyribozyme-based route using 7S11 will enable many experiments that require branched RNA. Second, comprehensive nucleotide covariation experiments demonstrate that 7S11 and its RNA substrates adopt a three-helix-junction structure in which the branch-site nucleotide is located at the intersection of the three helices. Because many natural ribozymes have multi-helix junctions, 7S11 is an interesting model system for catalytic nucleic acids.



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