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Programming DNA Reaction Networks Using Allosteric DNA Hairpins.

Rui QinShuang CuiXiaokang ZhangPeijun ShiShihua ZhouBin Wang
Published in: Biomolecules (2023)
The construction of DNA reaction networks with complex functions using various methods has been an important research topic in recent years. Whether the DNA reaction network can perform complex tasks and be recycled directly affects the performance of the reaction network. Therefore, it is very important to design and implement a DNA reaction network capable of multiple tasks and reversible regulation. In this paper, the hairpin allosteric method was used to complete the assembly task of different functional nucleic acids. In addition, information conversion of the network was realized. In this network, multiple hairpins were assembled into nucleic acid structures with different functions to achieve different output information through the cyclic use of trigger strands. A method of single-input dual-output information conversion was proposed. Finally, the network with signal amplification and reversible regulation was constructed. In this study, the reversible regulation of different functional nucleic acids in the same network was realized, which shows the potential of this network in terms of programmability and provides new ideas for constructing complex and multifunctional DNA reaction networks.
Keyphrases
  • nucleic acid
  • circulating tumor
  • single molecule
  • cell free
  • climate change
  • wastewater treatment
  • circulating tumor cells