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DNA charge transport over 34 nm.

Nature chemistry (2011-02-22)
Jason D Slinker, Natalie B Muren, Sara E Renfrew, Jacqueline K Barton
RESUMEN

Molecular wires show promise in nanoscale electronics, but the synthesis of uniform, long conductive molecules is a significant challenge. Deoxyribonucleic acid (DNA) of precise length, by contrast, is synthesized easily, but its conductivity over the distances required for nanoscale devices has not been explored. Here we demonstrate DNA charge transport (CT) over 34 nm in 100-mer monolayers on gold. Multiplexed gold electrodes modified with 100-mer DNA yield sizable electrochemical signals from a distal, covalent Nile Blue redox probe. Significant signal attenuation upon incorporation of a single base-pair mismatch demonstrates that CT is DNA-mediated. Efficient cleavage of these 100-mers by a restriction enzyme indicates that the DNA adopts a native conformation accessible to protein binding. Similar electron-transfer rates measured through 100-mer and 17-mer monolayers are consistent with rate-limiting electron tunnelling through the saturated carbon linker. This DNA-mediated CT distance of 34 nm surpasses that of most reports of molecular wires.

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Sigma-Aldrich
Nile Blue A, Dye content ≥75 %
Sigma-Aldrich
Nile Blue A, certified by the Biological Stain Commission
Sigma-Aldrich
Nile Blue chloride, Dye content 85 %