Literature DB >> 15159783

Electrophoretic manipulation of single DNA molecules in nanofabricated capillaries.

L C Campbell1, M J Wilkinson, A Manz, P Camilleri, C J Humphreys.   

Abstract

We demonstrate the use of nanofabricated capillaries, integrated as part of a microfluidic structure, to study the electrophoretic behaviour of single, fluorescently-labelled, molecules of DNA as a function of capillary size. The nanocapillaries, fabricated using a focused ion beam, have cross-sections down to 150 x 180 nm. Control of single-molecule direction and velocity was achieved using voltage manipulation. DNA mobility was found to increase with decreasing cross-section, which we interpret in terms of reduced electro-osmotic counter-flow. Such nanofabricated capillaries as part of larger fluidic structures have great potential for biotechnology, particularly single molecule manipulation and analysis.

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Year:  2004        PMID: 15159783     DOI: 10.1039/b312592k

Source DB:  PubMed          Journal:  Lab Chip        ISSN: 1473-0189            Impact factor:   6.799


  15 in total

1.  Surface charge, electroosmotic flow and DNA extension in chemically modified thermoplastic nanoslits and nanochannels.

Authors:  Franklin I Uba; Swathi R Pullagurla; Nichanun Sirasunthorn; Jiahao Wu; Sunggook Park; Rattikan Chantiwas; Yoon-Kyoung Cho; Heungjoo Shin; Steven A Soper
Journal:  Analyst       Date:  2015-01-07       Impact factor: 4.616

2.  Conformational analysis of single DNA molecules undergoing entropically induced motion in nanochannels.

Authors:  J T Mannion; C H Reccius; J D Cross; H G Craighead
Journal:  Biophys J       Date:  2006-06-15       Impact factor: 4.033

3.  High throughput fabrication of disposable nanofluidic lab-on-chip devices for single molecule studies.

Authors:  Jeroen A van Kan; Ce Zhang; Piravi Perumal Malar; Johan R C van der Maarel
Journal:  Biomicrofluidics       Date:  2012-07-30       Impact factor: 2.800

Review 4.  Beyond gel electrophoresis: microfluidic separations, fluorescence burst analysis, and DNA stretching.

Authors:  Kevin D Dorfman; Scott B King; Daniel W Olson; Joel D P Thomas; Douglas R Tree
Journal:  Chem Rev       Date:  2012-11-12       Impact factor: 60.622

5.  Large laterally ordered nanochannel arrays from DNA combing and imprinting.

Authors:  Jingjiao Guan; Pouyan E Boukany; Orin Hemminger; Nan-Rong Chiou; Weibin Zha; Megan Cavanaugh; L James Lee
Journal:  Adv Mater       Date:  2010-09-22       Impact factor: 30.849

6.  Electrokinetically-driven transport of DNA through focused ion beam milled nanofluidic channels.

Authors:  Laurent D Menard; J Michael Ramsey
Journal:  Anal Chem       Date:  2012-12-24       Impact factor: 6.986

7.  Fabrication of sub-5 nm nanochannels in insulating substrates using focused ion beam milling.

Authors:  Laurent D Menard; J Michael Ramsey
Journal:  Nano Lett       Date:  2010-12-20       Impact factor: 11.189

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

Authors:  Kumuditha M Weerakoon-Ratnayake; Franklin I Uba; Nyoté J Oliver-Calixte; Steven A Soper
Journal:  Anal Chem       Date:  2016-03-22       Impact factor: 6.986

Review 9.  Conductivity-based detection techniques in nanofluidic devices.

Authors:  Zachary D Harms; Daniel G Haywood; Andrew R Kneller; Stephen C Jacobson
Journal:  Analyst       Date:  2015-05-19       Impact factor: 4.616

10.  Poly(dimethylsiloxane)-based protein preconcentration using a nanogap generated by junction gap breakdown.

Authors:  Jeong Hoon Lee; Seok Chung; Sung Jae Kim; Jongyoon Han
Journal:  Anal Chem       Date:  2007-07-12       Impact factor: 6.986
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