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

[Image: see text] 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...

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Autores principales: Hindson, Benjamin J., Ness, Kevin D., Masquelier, Donald A., Belgrader, Phillip, Heredia, Nicholas J., Makarewicz, Anthony J., Bright, Isaac J., Lucero, Michael Y., Hiddessen, Amy L., Legler, Tina C., Kitano, Tyler K., Hodel, Michael R., Petersen, Jonathan F., Wyatt, Paul W., Steenblock, Erin R., Shah, Pallavi H., Bousse, Luc J., Troup, Camille B., Mellen, Jeffrey C., Wittmann, Dean K., Erndt, Nicholas G., Cauley, Thomas H., Koehler, Ryan T., So, Austin P., Dube, Simant, Rose, Klint A., Montesclaros, Luz, Wang, Shenglong, Stumbo, David P., Hodges, Shawn P., Romine, Steven, Milanovich, Fred P., White, Helen E., Regan, John F., Karlin-Neumann, George A., Hindson, Christopher M., Saxonov, Serge, Colston, Bill W.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2011
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3216358/
https://www.ncbi.nlm.nih.gov/pubmed/22035192
http://dx.doi.org/10.1021/ac202028g
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author Hindson, Benjamin J.
Ness, Kevin D.
Masquelier, Donald A.
Belgrader, Phillip
Heredia, Nicholas J.
Makarewicz, Anthony J.
Bright, Isaac J.
Lucero, Michael Y.
Hiddessen, Amy L.
Legler, Tina C.
Kitano, Tyler K.
Hodel, Michael R.
Petersen, Jonathan F.
Wyatt, Paul W.
Steenblock, Erin R.
Shah, Pallavi H.
Bousse, Luc J.
Troup, Camille B.
Mellen, Jeffrey C.
Wittmann, Dean K.
Erndt, Nicholas G.
Cauley, Thomas H.
Koehler, Ryan T.
So, Austin P.
Dube, Simant
Rose, Klint A.
Montesclaros, Luz
Wang, Shenglong
Stumbo, David P.
Hodges, Shawn P.
Romine, Steven
Milanovich, Fred P.
White, Helen E.
Regan, John F.
Karlin-Neumann, George A.
Hindson, Christopher M.
Saxonov, Serge
Colston, Bill W.
author_facet Hindson, Benjamin J.
Ness, Kevin D.
Masquelier, Donald A.
Belgrader, Phillip
Heredia, Nicholas J.
Makarewicz, Anthony J.
Bright, Isaac J.
Lucero, Michael Y.
Hiddessen, Amy L.
Legler, Tina C.
Kitano, Tyler K.
Hodel, Michael R.
Petersen, Jonathan F.
Wyatt, Paul W.
Steenblock, Erin R.
Shah, Pallavi H.
Bousse, Luc J.
Troup, Camille B.
Mellen, Jeffrey C.
Wittmann, Dean K.
Erndt, Nicholas G.
Cauley, Thomas H.
Koehler, Ryan T.
So, Austin P.
Dube, Simant
Rose, Klint A.
Montesclaros, Luz
Wang, Shenglong
Stumbo, David P.
Hodges, Shawn P.
Romine, Steven
Milanovich, Fred P.
White, Helen E.
Regan, John F.
Karlin-Neumann, George A.
Hindson, Christopher M.
Saxonov, Serge
Colston, Bill W.
author_sort Hindson, Benjamin J.
collection PubMed
description [Image: see text] 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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spelling pubmed-32163582011-11-15 High-Throughput Droplet Digital PCR System for Absolute Quantitation of DNA Copy Number Hindson, Benjamin J. Ness, Kevin D. Masquelier, Donald A. Belgrader, Phillip Heredia, Nicholas J. Makarewicz, Anthony J. Bright, Isaac J. Lucero, Michael Y. Hiddessen, Amy L. Legler, Tina C. Kitano, Tyler K. Hodel, Michael R. Petersen, Jonathan F. Wyatt, Paul W. Steenblock, Erin R. Shah, Pallavi H. Bousse, Luc J. Troup, Camille B. Mellen, Jeffrey C. Wittmann, Dean K. Erndt, Nicholas G. Cauley, Thomas H. Koehler, Ryan T. So, Austin P. Dube, Simant Rose, Klint A. Montesclaros, Luz Wang, Shenglong Stumbo, David P. Hodges, Shawn P. Romine, Steven Milanovich, Fred P. White, Helen E. Regan, John F. Karlin-Neumann, George A. Hindson, Christopher M. Saxonov, Serge Colston, Bill W. Anal Chem [Image: see text] 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. American Chemical Society 2011-10-28 2011-11-15 /pmc/articles/PMC3216358/ /pubmed/22035192 http://dx.doi.org/10.1021/ac202028g Text en Copyright © 2011 American Chemical Society http://pubs.acs.org This is an open-access article distributed under the ACS AuthorChoice Terms & Conditions. Any use of this article, must conform to the terms of that license which are available at http://pubs.acs.org.
spellingShingle Hindson, Benjamin J.
Ness, Kevin D.
Masquelier, Donald A.
Belgrader, Phillip
Heredia, Nicholas J.
Makarewicz, Anthony J.
Bright, Isaac J.
Lucero, Michael Y.
Hiddessen, Amy L.
Legler, Tina C.
Kitano, Tyler K.
Hodel, Michael R.
Petersen, Jonathan F.
Wyatt, Paul W.
Steenblock, Erin R.
Shah, Pallavi H.
Bousse, Luc J.
Troup, Camille B.
Mellen, Jeffrey C.
Wittmann, Dean K.
Erndt, Nicholas G.
Cauley, Thomas H.
Koehler, Ryan T.
So, Austin P.
Dube, Simant
Rose, Klint A.
Montesclaros, Luz
Wang, Shenglong
Stumbo, David P.
Hodges, Shawn P.
Romine, Steven
Milanovich, Fred P.
White, Helen E.
Regan, John F.
Karlin-Neumann, George A.
Hindson, Christopher M.
Saxonov, Serge
Colston, Bill W.
High-Throughput Droplet Digital PCR System for Absolute Quantitation of DNA Copy Number
title High-Throughput Droplet Digital PCR System for Absolute Quantitation of DNA Copy Number
title_full High-Throughput Droplet Digital PCR System for Absolute Quantitation of DNA Copy Number
title_fullStr High-Throughput Droplet Digital PCR System for Absolute Quantitation of DNA Copy Number
title_full_unstemmed High-Throughput Droplet Digital PCR System for Absolute Quantitation of DNA Copy Number
title_short High-Throughput Droplet Digital PCR System for Absolute Quantitation of DNA Copy Number
title_sort high-throughput droplet digital pcr system for absolute quantitation of dna copy number
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3216358/
https://www.ncbi.nlm.nih.gov/pubmed/22035192
http://dx.doi.org/10.1021/ac202028g
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