High-Throughput Droplet Digital PCR System for Absolute Quantitation of DNA Copy Number

Benjamin J. Hindson(Bio-Rad (United States)), Kevin D. Ness(Bio-Rad (United States)), Donald A Masquelier(Bio-Rad (United States)), Phillip Belgrader(Bio-Rad (United States)), Nicholas J. Heredia(Bio-Rad (United States)), Anthony J. Makarewicz(Bio-Rad (United States)), Isaac J. Bright(Bio-Rad (United States)), Michael Y. Lucero(Bio-Rad (United States)), Amy L. Hiddessen(Bio-Rad (United States)), Tina C. Legler(Bio-Rad (United States)), Tyler K. Kitano(Bio-Rad (United States)), Michael R. Hodel(Bio-Rad (United States)), Jonathan F. Petersen(Bio-Rad (United States)), Paul W. Wyatt(Bio-Rad (United States)), Erin R. Steenblock(Bio-Rad (United States)), Pallavi Shah(Bio-Rad (United States)), Luc Bousse(Bio-Rad (United States)), Camille Troup(Bio-Rad (United States)), Jeffrey C. Mellen(Bio-Rad (United States)), Dean K. Wittmann(Bio-Rad (United States)), Nicholas G. Erndt(Bio-Rad (United States)), Thomas H. Cauley(Bio-Rad (United States)), Ryan T. Koehler(Bio-Rad (United States)), Austin P. So(Bio-Rad (United States)), Simant Dube(Bio-Rad (United States)), Klint A. Rose(Bio-Rad (United States)), Luz Montesclaros(Bio-Rad (United States)), Shenglong Wang(Bio-Rad (United States)), D. P. Stumbo(Bio-Rad (United States)), Shawn P. Hodges(Bio-Rad (United States)), Steven Romine(Bio-Rad (United States)), Fred P. Milanovich(Bio-Rad (United States)), Helen White(Salisbury District Hospital), John F. Regan(Bio-Rad (United States)), George Karlin‐Neumann(Bio-Rad (United States)), Christopher M. Hindson(Bio-Rad (United States)), Serge Saxonov(Bio-Rad (United States)), Bill W. Colston(Bio-Rad (United States))
Analytical Chemistry
October 28, 2011
10.1021/ac202028g
Cited by 2,768Open Access
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Abstract

Digital PCR enables the absolute quantitation of nucleic acids in a sample. The lack of scalable and practical technologies for digital PCR implementation has hampered the widespread adoption of this inherently powerful technique. Here we describe a high-throughput droplet digital PCR (ddPCR) system that enables processing of ~2 million PCR reactions using conventional TaqMan assays with a 96-well plate workflow. Three applications demonstrate that the massive partitioning afforded by our ddPCR system provides orders of magnitude more precision and sensitivity than real-time PCR. First, we show the accurate measurement of germline copy number variation. Second, for rare alleles, we show sensitive detection of mutant DNA in a 100,000-fold excess of wildtype background. Third, we demonstrate absolute quantitation of circulating fetal and maternal DNA from cell-free plasma. We anticipate this ddPCR system will allow researchers to explore complex genetic landscapes, discover and validate new disease associations, and define a new era of molecular diagnostics.

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