DNA circuits as amplifiers for the detection of nucleic acids on a paperfluidic platform

Peter B. Allen; Seyed A. Arshad; Bingling Li; Xi Chen; Andrew D. Ellington

doi:10.1039/C2LC40373K

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Lab on a Chip

Issue 16, 2012

Miniaturisation for chemistry, physics, biology, materials science and bioengineering

Impact Factor 5.67 24 Issues per Year Indexed in MEDLINE

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DNA circuits as amplifiers for the detection of nucleic acids on a paperfluidic platform

Peter B. Allen,^a Seyed A. Arshad,^a Bingling Li,^a Xi Chen^a and Andrew D. Ellington^a

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University of Texas at Austin, Chemistry and Biochemistry Dept., 1 University Station, USA
E-mail: andy.ellington@mail.utexas.edu

Lab Chip, 2012,12, 2951-2958

DOI: 10.1039/C2LC40373K
Received 18 Apr 2012, Accepted 25 May 2012
First published online 30 May 2012

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This article describes the use of non-enzymatic nucleic acid circuits based on strand exchange reactions to detect target sequences on a paperfluidic platform. The DNA circuits that were implemented include a non-enzymatic amplifier and transduction to a fluorescent reporter; these yield an order of magnitude improvement in detection of an input nucleic acid signal. To further improve signal amplification and detection, we integrated the enzyme-free amplifier with loop-mediated isothermal amplification (LAMP). By bridging the gap between the low concentrations of LAMP amplicons and the limits of fluorescence detection, the non-enzymatic amplifier allowed us to detect as few as 1200 input templates in a paperfluidic format.

Abstract from Analytical Abstracts 2012

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Peter B. Allen
Seyed A. Arshad
Bingling Li
Xi Chen
Andrew D. Ellington

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