Literature DB >> 24802004

Electrochemical switching with 3D DNA tetrahedral nanostructures self-assembled at gold electrodes.

Alireza Abi1, Meihua Lin, Hao Pei, Chunhai Fan, Elena E Ferapontova, Xiaolei Zuo.   

Abstract

Nanomechanical switching of functional three-dimensional (3D) DNA nanostructures is crucial for nanobiotechnological applications such as nanorobotics or self-regulating sensor and actuator devices. Here, DNA tetrahedral nanostructures self-assembled onto gold electrodes were shown to undergo the electronically addressable nanoswitching due to their mechanical reconfiguration upon external chemical stimuli. That enables construction of robust surface-tethered electronic nanodevices based on 3D DNA tetrahedra. One edge of the tetrahedron contained a partially self-complementary region with a stem-loop hairpin structure, reconfigurable upon hybridization to a complementary DNA (stimulus DNA) sequence. A non-intercalative ferrocene (Fc) redox label was attached to the reconfigurable tetrahedron edge in such a way that reconfiguration of this edge changed the distance between the electrode and Fc.

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Year:  2014        PMID: 24802004     DOI: 10.1021/am501823q

Source DB:  PubMed          Journal:  ACS Appl Mater Interfaces        ISSN: 1944-8244            Impact factor:   9.229


  8 in total

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6.  Controllable Molecule Transport and Release by a Restorable Surface-tethered DNA nanodevice.

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Review 8.  Tetrahedral DNA nanostructures for effective treatment of cancer: advances and prospects.

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  8 in total

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