A Twisting Electronic Nanoswitch Made of DNA |
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Authors: | Dr. Yu Chuan Huang Prof. Dipankar Sen |
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Affiliation: | 1. Department of Molecular Biology & Biochemistry, Simon Fraser University, Burnaby, British Columbia V5A 1S6 (Canada);2. Department of Chemistry, Simon Fraser University, Burnaby, British Columbia V5A 1S6 (Canada) |
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Abstract: | Single‐stranded DNAs and RNAs that are rich in the nucleobase guanine form four‐stranded G‐quadruplexes, which are held together by hydrogen‐bonded guanine quartets. In aqueous solution, both DNA duplexes and G‐quadruplexes are modest conductors of electrical charge. A tight, topologically constrained DNA construct called twDNA is now reported, in which a core of four guanine‐rich single strands structurally and electronically links together four DNA double helices. The addition and removal of K+ or Sr2+ cations promote alternative conformers of twDNA, which have strikingly distinct electronic properties. Unlike DNA mechano‐electronic switches that require large conformational changes, twDNA requires only modest twisting/untwisting structural attenuations to achieve electronic switching. |
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Keywords: | cations DNA structures electrophoresis G‐quadruplexes nanostructures |
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