Multiplexed Target Detection Using DNA-Binding Dye Chemistry in Droplet Digital PCR

Geoffrey P. McDermott; Duc Do; Claudia Litterst; Dianna Maar; Christopher M. Hindson; Erin R. Steenblock; Tina C. Legler; Yann Jouvenot; Samuel H. Marrs; Adam Bemis; Pallavi Shah; Josephine Wong; Shenglong Wang; David Sally; Leanne Javier; Theresa Dinio; Chunxiao Han; Timothy P. Brackbill; Shawn P. Hodges; Yunfeng Ling; Niels Klitgord; George J. Carman; Jennifer R. Berman; Ryan T. Koehler; Amy L. Hiddessen; Pramod Walse; Luc Bousse; Svilen Tzonev; Eli Hefner; Benjamin J. Hindson; Thomas H. Cauly; Keith Hamby; Viresh P. Patel; John F. Regan; Paul W. Wyatt; George Karlin‐Neumann; D. P. Stumbo; Adam J. Lowe

doi:10.1021/ac403061n

Multiplexed Target Detection Using DNA-Binding Dye Chemistry in Droplet Digital PCR

Geoffrey P. McDermott(Bio-Rad (United States)), Duc Do(Bio-Rad (United States)), Claudia Litterst(Bio-Rad (United States)), Dianna Maar(Bio-Rad (United States)), Christopher M. Hindson, Erin R. Steenblock(Bio-Rad (United States)), Tina C. Legler(Bio-Rad (United States)), Yann Jouvenot(Bio-Rad (United States)), Samuel H. Marrs(Bio-Rad (United States)), Adam Bemis(Bio-Rad (United States)), Pallavi Shah(Bio-Rad (United States)), Josephine Wong(Bio-Rad (United States)), Shenglong Wang(Bio-Rad (United States)), David Sally(Bio-Rad (United States)), Leanne Javier(Bio-Rad (United States)), Theresa Dinio(Bio-Rad (United States)), Chunxiao Han(Bio-Rad (United States)), Timothy P. Brackbill(Bio-Rad (United States)), Shawn P. Hodges(Bio-Rad (United States)), Yunfeng Ling(Bio-Rad (United States)), Niels Klitgord(Bio-Rad (United States)), George J. Carman(Bio-Rad (United States)), Jennifer R. Berman(Bio-Rad (United States)), Ryan T. Koehler, Amy L. Hiddessen, Pramod Walse(Bio-Rad (United States)), Luc Bousse(Bio-Rad (United States)), Svilen Tzonev(Bio-Rad (United States)), Eli Hefner(Bio-Rad (United States)), Benjamin J. Hindson, Thomas H. Cauly(Bio-Rad (United States)), Keith Hamby(Bio-Rad (United States)), Viresh P. Patel(Bio-Rad (United States)), John F. Regan(Bio-Rad (United States)), Paul W. Wyatt(Bio-Rad (United States)), George Karlin‐Neumann(Bio-Rad (United States)), D. P. Stumbo, Adam J. Lowe(Bio-Rad (United States))

Analytical Chemistry

November 3, 2013

10.1021/ac403061n

Cited by 188

Abstract

Two years ago, we described the first droplet digital PCR (ddPCR) system aimed at empowering all researchers with a tool that removes the substantial uncertainties associated with using the analogue standard, quantitative real-time PCR (qPCR). This system enabled TaqMan hydrolysis probe-based assays for the absolute quantification of nucleic acids. Due to significant advancements in droplet chemistry and buoyed by the multiple benefits associated with dye-based target detection, we have created a "second generation" ddPCR system compatible with both TaqMan-probe and DNA-binding dye detection chemistries. Herein, we describe the operating characteristics of DNA-binding dye based ddPCR and offer a side-by-side comparison to TaqMan probe detection. By partitioning each sample prior to thermal cycling, we demonstrate that it is now possible to use a DNA-binding dye for the quantification of multiple target species from a single reaction. The increased resolution associated with partitioning also made it possible to visualize and account for signals arising from nonspecific amplification products. We expect that the ability to combine the precision of ddPCR with both DNA-binding dye and TaqMan probe detection chemistries will further enable the research community to answer complex and diverse genetic questions.

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