BioTechniques (May 2012)

Automated high multiplex qPCR platform for simultaneous detection and quantification of multiple nucleic acid targets

  • Louis Hlousek,
  • Sergey Voronov,
  • Vesselin Diankov,
  • Amy B. Leblang,
  • Patrick J. Wells,
  • Donna M. Ford,
  • Jork Nolling,
  • Kyle W. Hart,
  • Patricio A. Espinoza,
  • Michael R. Bristol,
  • Gregory J. Tsongalis,
  • Belinda Yen-Lieberman,
  • Vladimir I. Slepnev,
  • Lilly I. Kong,
  • Ming-Chou Lee

DOI
https://doi.org/10.2144/0000113852
Journal volume & issue
Vol. 52, no. 5
pp. 316 – 324

Abstract

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Quantitative PCR (qPCR) using real-time detection of amplification is limited to a small number of targets within a single reaction. The ICEPlex system, using our scalable target analysis routine (STAR) technology, was developed to provide an automated, high multiplexing PCR solution. ICEPlex combines PCR thermal cycling with dynamic, sequential amplicon separation by capillary electrophoresis and two-color quantitative detection in a single integrated system. In contrast to probe-based qPCR, ICEPlex directly measures amplicon accumulation through incorporation of labeled primers. Three orders of magnitude of optical detection range and at least 7 logs of detectable target concentration range are demonstrated. The system can separate more than 50 amplicons per color channel, ranging from 100 to 500 bases, providing broad multiplexing capabilities for a wide spectrum of nucleic acid amplification applications. ICEPlex can be used for analysis of viral DNA or RNA targets, detection of genetic variants, and for reverse-transcriptase PCR gene expression panels.

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