Literature DB >> 22950784

A device for performing lateral conductance measurements on individual double-stranded DNA molecules.

Laurent D Menard1, Chad E Mair, Michael E Woodson, Jean Pierre Alarie, J Michael Ramsey.   

Abstract

A nanofluidic device is described that is capable of electrically monitoring the driven translocation of DNA molecules through a nanochannel. This is achieved by intersecting a long transport channel with a shorter orthogonal nanochannel. The ionic conductance of this transverse nanochannel is monitored while DNA is electrokinetically driven through the transport channel. When DNA passes the intersection, the transverse conductance is altered, resulting in a transient current response. In 1 M KCl solutions, this was found to be a current enhancement of 5-25%, relative to the baseline transverse ionic current. Two different device geometries were investigated. In one device, the DNA was detected after it was fully inserted into and translocating through the transport nanochannel. In the other device, the DNA was detected while it was in the process of entering the nanochannel. It was found that these two conditions are characterized by different transport dynamics. Simultaneous optical and electrical monitoring of DNA translocation confirmed that the transient events originated from DNA transport through the nanochannel intersection.

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Year:  2012        PMID: 22950784      PMCID: PMC3482132          DOI: 10.1021/nn303322r

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


  44 in total

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5.  Orientation discrimination of single-stranded DNA inside the alpha-hemolysin membrane channel.

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9.  Characterization of individual polynucleotide molecules using a membrane channel.

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  13 in total

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Review 2.  Thermoplastic nanofluidic devices for biomedical applications.

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4.  Electrophoretic Separation of Single Particles Using Nanoscale Thermoplastic Columns.

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6.  SENSING DNA WITH ALTERNATING CURRENTS USING A NANOGAP SENSOR EMBEDDED IN A NANOCHANNEL DEVICE.

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7.  Single-base DNA discrimination via transverse ionic transport.

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8.  Slow DNA transport through nanopores in hafnium oxide membranes.

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Journal:  ACS Nano       Date:  2013-10-04       Impact factor: 15.881

9.  Tracking single-particle dynamics via combined optical and electrical sensing.

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10.  Single-particle electrophoresis in nanochannels.

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