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W3020813620 abstract "Synthetic DNA has emerged as a powerful self-assembled material for the engineering of nanoscale supramolecular devices and materials. Recently dissipative self-assembly of DNA-based supramolecular structures has emerged as a novel approach providing access to a new class of kinetically controlled DNA materials with unprecedented life-like properties. So far, dissipative control has been achieved using DNA-recognizing enzymes as energy dissipating units. Although highly efficient, enzymes pose limits in terms of long-term stability and inhibition of enzyme activity by waste products. Herein, we provide the first example of kinetically controlled DNA nanostructures in which energy dissipation is achieved through a non-enzymatic chemical reaction. More specifically, inspired by redox signalling, we employ redox cycles of disulfide-bond formation/breakage to kinetically control the assembly and disassembly of tubular DNA nanostructures in a highly controllable and reversible fashion." @default.
W3020813620 created "2020-05-01" @default.
W3020813620 creator A5018935401 @default.
W3020813620 creator A5029984666 @default.
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W3020813620 date "2020-07-09" @default.
W3020813620 modified "2023-10-02" @default.
W3020813620 title "Transient DNA‐Based Nanostructures Controlled by Redox Inputs" @default.
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W3020813620 doi "https://doi.org/10.1002/anie.202002180" @default.
W3020813620 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32339410" @default.
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