Ultra fast miniaturized real-time PCR: 40 cycles in less than six minutes

We have designed, fabricated and tested a real-time PCR chip capable of conducting one thermal cycle in 8.5 s. This corresponds to 40 cycles of PCR in 5 min and 40 s. The PCR system was made of silicon micromachined into the shape of a cantilever terminated with a disc. The thin film heater and a te...

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Detalles Bibliográficos
Autores principales: Neuzil, Pavel, Zhang, Chunyan, Pipper, Juergen, Oh, Sharon, Zhuo, Lang
Formato: Texto
Lenguaje:English
Publicado: Oxford University Press 2006
Materias:
Methods Online
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1904101/
https://www.ncbi.nlm.nih.gov/pubmed/16807313
http://dx.doi.org/10.1093/nar/gkl416
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author Neuzil, Pavel
Zhang, Chunyan
Pipper, Juergen
Oh, Sharon
Zhuo, Lang
author_facet Neuzil, Pavel
Zhang, Chunyan
Pipper, Juergen
Oh, Sharon
Zhuo, Lang
author_sort Neuzil, Pavel
collection PubMed
description We have designed, fabricated and tested a real-time PCR chip capable of conducting one thermal cycle in 8.5 s. This corresponds to 40 cycles of PCR in 5 min and 40 s. The PCR system was made of silicon micromachined into the shape of a cantilever terminated with a disc. The thin film heater and a temperature sensor were placed on the disc perimeter. Due to the system's thermal constant of 0.27 s, we have achieved a heating rate of 175°C s(−1) and a cooling rate of −125°C s(−1). A PCR sample encapsulated with mineral oil was dispensed onto a glass cover slip placed on the silicon disc. The PCR cycle time was then determined by heat transfer through the glass, which took only 0.5 s. A real-time PCR sample with a volume of 100 nl was tested using a FAM probe. As the single PCR device occupied an area of only a few square millimeters, devices could be combined into a parallel system to increase throughput.
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spelling pubmed-19041012007-06-28 Ultra fast miniaturized real-time PCR: 40 cycles in less than six minutes Neuzil, Pavel Zhang, Chunyan Pipper, Juergen Oh, Sharon Zhuo, Lang Nucleic Acids Res Methods Online We have designed, fabricated and tested a real-time PCR chip capable of conducting one thermal cycle in 8.5 s. This corresponds to 40 cycles of PCR in 5 min and 40 s. The PCR system was made of silicon micromachined into the shape of a cantilever terminated with a disc. The thin film heater and a temperature sensor were placed on the disc perimeter. Due to the system's thermal constant of 0.27 s, we have achieved a heating rate of 175°C s(−1) and a cooling rate of −125°C s(−1). A PCR sample encapsulated with mineral oil was dispensed onto a glass cover slip placed on the silicon disc. The PCR cycle time was then determined by heat transfer through the glass, which took only 0.5 s. A real-time PCR sample with a volume of 100 nl was tested using a FAM probe. As the single PCR device occupied an area of only a few square millimeters, devices could be combined into a parallel system to increase throughput. Oxford University Press 2006 2006-06-28 /pmc/articles/PMC1904101/ /pubmed/16807313 http://dx.doi.org/10.1093/nar/gkl416 Text en © 2006 The Author(s)
spellingShingle Methods Online
Neuzil, Pavel
Zhang, Chunyan
Pipper, Juergen
Oh, Sharon
Zhuo, Lang
Ultra fast miniaturized real-time PCR: 40 cycles in less than six minutes
title Ultra fast miniaturized real-time PCR: 40 cycles in less than six minutes
title_full Ultra fast miniaturized real-time PCR: 40 cycles in less than six minutes
title_fullStr Ultra fast miniaturized real-time PCR: 40 cycles in less than six minutes
title_full_unstemmed Ultra fast miniaturized real-time PCR: 40 cycles in less than six minutes
title_short Ultra fast miniaturized real-time PCR: 40 cycles in less than six minutes
title_sort ultra fast miniaturized real-time pcr: 40 cycles in less than six minutes
topic Methods Online
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1904101/
https://www.ncbi.nlm.nih.gov/pubmed/16807313
http://dx.doi.org/10.1093/nar/gkl416
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