Literature DB >> 26135474

Construction of RNA-Quantum Dot Chimera for Nanoscale Resistive Biomemory Application.

Taek Lee1, Ajay Kumar Yagati2, Fengmei Pi1, Ashwani Sharma1, Jeong-Woo Choi3, Peixuan Guo1.   

Abstract

RNA nanotechnology offers advantages to construct thermally and chemically stable nanoparticles with well-defined shape and structure. Here we report the development of an RNA-QD (quantum dot) chimera for resistive biomolecular memory application. Each QD holds two copies of the pRNA three-way junction (pRNA-3WJ) of the bacteriophage phi29 DNA packaging motor. The fixed quantity of two RNAs per QD was achieved by immobilizing the pRNA-3WJ with a Sephadex aptamer for resin binding. Two thiolated pRNA-3WJ serve as two feet of the chimera that stand on the gold plate. The RNA nanostructure served as both an insulator and a mediator to provide defined distance between the QD and gold. Immobilization of the chimera nanoparticle was confirmed with scanning tunneling microscopy. As revealed by scanning tunneling spectroscopy, the conjugated pRNA-3WJ-QD chimera exhibited an excellent electrical bistability signal for biomolecular memory function, demonstrating great potential for the development of resistive biomolecular memory and a nano-bio-inspired electronic device for information processing and computing.

Entities:  

Keywords:  RNA nanotechnology; biomolecular electronics; nanoscale resistive biomolecular memory; pRNA−quantum dot chimera; phi29 DNA packaging motor

Mesh:

Substances:

Year:  2015        PMID: 26135474      PMCID: PMC4642448          DOI: 10.1021/acsnano.5b03269

Source DB:  PubMed          Journal:  ACS Nano        ISSN: 1936-0851            Impact factor:   15.881


  36 in total

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  16 in total

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6.  Azurin/CdSe-ZnS-Based Bio-Nano Hybrid Structure for Nanoscale Resistive Memory Device.

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Review 7.  Advancement of the Emerging Field of RNA Nanotechnology.

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10.  Size, Shape, and Sequence-Dependent Immunogenicity of RNA Nanoparticles.

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