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Issue 19, 2014
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Controlled transport of DNA through a Y-shaped carbon nanotube in a solid membrane

Binquan Luan,*a  Bo Zhou,b  Tien Huynha  and  Ruhong Zhou*a 
Author affiliations

* Corresponding authors

a IBM Research at T. J. Watson Center, 1101 Kitchawan Road, Yorktown Heights, USA
E-mail: bluan@us.ibm.com, ruhongz@us.ibm.com

b Department of Physics and Soft Matter Science Center, Zhejiang University, Hangzhou 310027, China

Abstract

We investigate the possible ratcheting dynamics of double-stranded DNA (dsDNA) driven through a Y-shaped carbon nanotube (Y-CNT) in a solid membrane, using all-atom molecular dynamics (MD) simulation. By applying constant or alternating biasing voltages, we found that the dsDNA molecule can be unzipped at the junction of the Y-CNT. Because of the energy barrier (a few kBT per base-pair), the motion of the entire DNA molecule was alternatively in a trapped state or a transiting state. We show that during each transiting state the same number of nucleotides were transported (DNA ratcheting). An analytical theory that is mathematically equivalent to the one for Josephson junctions was then proposed to quantitatively describe the simulation results. The controlled motion of DNA in the Y-CNT is expected to enhance the accuracy of nanopore-based DNA sequencing.

Graphical abstract: Controlled transport of DNA through a Y-shaped carbon nanotube in a solid membrane

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Publication details

The article was received on 19 May 2014, accepted on 24 Jul 2014 and first published on 29 Jul 2014


Article type: Paper
DOI: 10.1039/C4NR02754J
Author version available: Download Author version (PDF)
Citation: Nanoscale, 2014,6, 11479-11483
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    Controlled transport of DNA through a Y-shaped carbon nanotube in a solid membrane

    B. Luan, B. Zhou, T. Huynh and R. Zhou, Nanoscale, 2014, 6, 11479
    DOI: 10.1039/C4NR02754J

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