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DNA is a natural genetic polymer capable of storing and preserving genetic information in biological systems. Due to its natural information storage capacity, recent scientific progress demonstrates that DNA has the potential to exceed standard information storage technologies. However, DNA

DNA is a natural genetic polymer capable of storing and preserving genetic information in biological systems. Due to its natural information storage capacity, recent scientific progress demonstrates that DNA has the potential to exceed standard information storage technologies. However, DNA is limited in its information storage capacities due to its susceptibility to degradation in the presence of naturally occurring nucleases. Threose nucleic acid (TNA), an unnatural genetic polymer with a 3'->2'phosphodiester-linked threose sugar backbone, has promising potential to overcome this limitation. TNA is not a substrate for natural nucleases and thus shows a dramatic increase in stability compared to DNA. However, TNA transcription has a tendency to generate G:G mispairs and lead to a gradual loss of information within the template. It was hypothesized that the mutation occurs through a G:G Hoogsteen base pair that forms preferentially over the canonical G:C Watson-Crick base pair. Incorporation of 7-deaza-dG into a four letter template effectively eliminated G:G mispairings and improved the replication fidelity from 60% to 99.6% with only four errors in a thousand. These results have laid the groundwork for further research to increase the length of the TNA product synthesized and to test TNA's ability to store genetic information.
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Details

Title
  • 7-deaza-dG Promotes the Faithful Transcription of 4 Nucleotide TNA Polymers
Contributors
Date Created
2014-05
Resource Type
  • Text
  • Machine-readable links