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Literature DB >> 22482776

Digital polymerase chain reaction in an array of femtoliter polydimethylsiloxane microreactors.

Yongfan Men, Yusi Fu, Zitian Chen, Peter A Sims, William J Greenleaf, Yanyi Huang.

Abstract

We developed a simple, compact microfluidic device to perform high dynamic-range digital polymerase chain reaction (dPCR) in an array of isolated 36-femtoliter microreactors. The density of the microreactors exceeded 20000/mm(2). This device, made from polydimethylsiloxane (PDMS), allows the samples to be loaded into all microreactors simultaneously. The microreactors are completely sealed through the deformation of a PDMS membrane. The small volume of the microreactors ensures a compact device with high reaction efficiency and low reagent and sample consumption. Future potential applications of this platform include multicolor dPCR and massively parallel dPCR for next generation sequencing library preparation.

Entities: Chemical

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Year: 2012 PMID： 22482776 DOI： 10.1021/ac300761n

Source DB: PubMed Journal: Anal Chem ISSN： 0003-2700 Impact factor: 6.986

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Cited

14 in total

Digital polymerase chain reaction in an array of femtoliter polydimethylsiloxane microreactors.

1. Chip in a lab: Microfluidics for next generation life science research.

Review 2. Advances in microfluidic materials, functions, integration, and applications.

3. Reconfigurable microfluidics combined with antibody microarrays for enhanced detection of T-cell secreted cytokines.

4. High aspect ratio induced spontaneous generation of monodisperse picolitre droplets for digital PCR.

5. Genomic DNA extraction from cells by electroporation on an integrated microfluidic platform.

6. Scalable microfluidics for single-cell RNA printing and sequencing.

7. The μSCAPE System: 3-Dimensional Profiling of Microfluidic Architectural Features Using a Flatbed Scanner.

8. A Self-Priming Microfluidic Chip with Cushion Chambers for Easy Digital PCR.

9. Femtolitre chemistry assisted by microfluidic pen lithography.

10. Reverse Transcription Polymerase Chain Reaction in Giant Unilamellar Vesicles.