Abstract

The first lab-on-chip system for picoliter droplet generation and RNA isolation, followed by reverse transcription, and PCR amplification with real-time fluorescence detection in the trapped droplets has been developed. The system utilized a shearing T-junction in a fused-silica device to generate a stream of monodisperse picoliter-scale droplets that were isolated from the microfluidic channel walls and each other by the oil-phase carrier. An off-chip valving system stopped the droplets on-chip, allowing thermal cycling for reverse transcription and subsequent PCR amplification without droplet motion. This combination of the established real-time reverse transcription-PCR assay with digital microfluidics is ideal for isolating single-copy RNA and virions from a complex environment and will be useful in viral discovery and gene-profiling applications.

Keywords

ChemistryMicrofluidicsReverse transcriptaseReverse transcription polymerase chain reactionRNAMicrofluidic chipNanotechnologyBiophysicsMolecular biologyChromatographyMessenger RNAGeneBiochemistryBiology

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Publication Info

Year
2008
Type
article
Volume
80
Issue
6
Pages
1854-1858
Citations
209
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Closed

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N. Reginald Beer, Elizabeth K. Wheeler, Lorenna Lee-Houghton et al. (2008). On-Chip Single-Copy Real-Time Reverse-Transcription PCR in Isolated Picoliter Droplets. Analytical Chemistry , 80 (6) , 1854-1858. https://doi.org/10.1021/ac800048k

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DOI
10.1021/ac800048k