AI Article Synopsis
- Six unnatural nucleotides with fluorine-substituted phenyl nucleobases were created and studied for their incorporation into DNA.
- All the unnatural self-pairs fit into B-form DNA without causing significant structural changes and maintain similar thermal stability and selectivity.
- However, the efficiency of extending self-pair strands differs significantly based on the specific fluorine substitution, with 3-fluorobenzene showing the best replication efficiency and selectivity among the candidates.
Article Abstract
Six unnatural nucleotides featuring fluorine-substituted phenyl nucleobase analogues have been synthesized, incorporated into DNA, and characterized in terms of the structure and replication properties of the self-pairs they form. Each unnatural self-pair is accommodated in B-form DNA without detectable structural perturbation, and all are thermally stable and selective to roughly the same degree. Furthermore, the efficiency of polymerase-mediated mispair synthesis is similar for each unnatural nucleotide in the template. In contrast, the efficiency of polymerase-mediated self-pair extension is highly dependent on the specific fluorine substitution pattern. The most promising unnatural base pair candidate of this series is the 3-fluorobenzene self-pair, which is replicated with reasonable efficiency and selectivity.
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| http://dx.doi.org/10.1021/ja049961u | DOI Listing |
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