The development of genetic detection protocols for field applications is an important aspect of modern medical diagnostic technology and environmental monitoring. In this paper, we report a rapid, portable, and inexpensive DNA hybridization technique using a bead-based microfluidic platform that functions by passing fluorescently labeled target DNA through a chamber packed with functionalized beads within a microfluidic channel. DNA hybridization is then assessed using a digital camera attached to a Clare Chemical DR-45M dark reader non-UV transilluminator that uses visible light as an excitation source and a blue and amber filter to reveal fluorescence. This microfluidic approach significantly enhances hybridization by reducing the diffusion time between target DNA and the silica surface. The use of probe-functionalized beads as solid support also enhances the sensitivity and limit of detection due to a larger surface area per unit volume. This platform could be adapted for use in medical applications and environmental monitoring, including the detection of harmful organisms in the ballast water of ships.
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June 2009
Research Article|
May 04 2009
Rapid on-chip genetic detection microfluidic platform for real world applications
Satyajyoti Senapati;
Satyajyoti Senapati
1Department of Chemical and Biomolecular Engineering,
University of Notre Dame
, Indiana 46556, USA
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Andrew R. Mahon;
Andrew R. Mahon
2Department of Biological Sciences, Center for Aquatic Conservation,
University of Notre Dame
, Indiana 46556, USA
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Jason Gordon;
Jason Gordon
3Special Programs Division,
Midwest Research Institute
, 425 Volker Boulevard, Kansas City, Missouri 64110, USA
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Carsten Nowak;
Carsten Nowak
4Conservation Genetics Group, Senckenberg Research Institute and Natural History Museum,
Research Station Gelnhausen
, Clamecystrasse 12, 63571 Gelnhausen, Germany
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Shramik Sengupta;
Shramik Sengupta
5Department of Biological Engineering,
University of Missouri
, Columbia, Missouri 65211, USA
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Thomas H. Q. Powell;
Thomas H. Q. Powell
2Department of Biological Sciences, Center for Aquatic Conservation,
University of Notre Dame
, Indiana 46556, USA
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Jeffrey Feder;
Jeffrey Feder
a)
2Department of Biological Sciences, Center for Aquatic Conservation,
University of Notre Dame
, Indiana 46556, USA
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David M. Lodge;
David M. Lodge
b)
2Department of Biological Sciences, Center for Aquatic Conservation,
University of Notre Dame
, Indiana 46556, USA
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Hsueh-Chia Chang
Hsueh-Chia Chang
c)
1Department of Chemical and Biomolecular Engineering,
University of Notre Dame
, Indiana 46556, USA
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a)
Electronic mail: feder.2@nd.edu.
b)
Electronic mail: dlodge@nd.edu.
c)
Electronic mail: hchang@nd.edu
Biomicrofluidics 3, 022407 (2009)
Article history
Received:
February 14 2009
Accepted:
April 09 2009
Citation
Satyajyoti Senapati, Andrew R. Mahon, Jason Gordon, Carsten Nowak, Shramik Sengupta, Thomas H. Q. Powell, Jeffrey Feder, David M. Lodge, Hsueh-Chia Chang; Rapid on-chip genetic detection microfluidic platform for real world applications. Biomicrofluidics 1 June 2009; 3 (2): 022407. https://doi.org/10.1063/1.3127142
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