Optics and Precision Engineering, Volume. 26, Issue 3, 647(2018)
Identification of florescent droplets at low concentrations for droplet digital PCR
[1] [1] VOGELSTEIN B, KINZLER K W. Digital PCR[J]. Proceedings of the National Academy of Sciences of the United States of America, 1999, 96(16): 9236-9241.
[2] [2] HUGGETT J F, FOY C A, BENES V, et al.. The digital MIQE guidelines: Minimum information for publication of quantitative digital PCR experiments[J]. Clinical Chemistry, 2013, 59(6): 892-902.
[3] [3] PERKEL J M. The digital PCR revolution[J]. Science, 2014, 344(6180): 212-214.
[4] [4] ZHAN CH, YAN L, WANG L, et al.. The development and application of digital PCR[J]. Fudan University Journal of Medical Sciences, 2015, 42(6): 786-789. (in Chinese)
[5] [5] STRAIN M C, LADA S M, LUONG T, et al.. Highly precise measurement of HIV DNA by droplet digital PCR[J]. PLoS One, 2013, 8(4): e55943.
[7] [7] HINDSON B J, NESS K D, MASQUELIER D A, et al.. High-throughput droplet digital PCR system for absolute quantitation of DNA copy number[J]. Analytical Chemistry, 2011, 83(22): 8604-8610.
[8] [8] PEKIN D, SKHIRI Y, BARET J C, et al.. Quantitative and sensitive detection of rare mutations using droplet-based microfluidics[J]. Lab on a Chip, 2011, 11(13): 2156-2166.
[9] [9] HENRICH T J, GALLIEN S, LI J Z, et al.. Low-level detection and quantitation of cellular HIV-1 DNA and 2-LTR circles using droplet digital PCR[J]. Journal of Virological Methods, 2012, 186(1-2): 68-72.
[10] [10] LIU F F, ZHANG L, WANG J, et al.. Quantifi cation of DNA by digital polymerase chain reaction and uncertainty evaluation of determination result[J]. Chemical Analysis and Meterage, 2013, 22(1): 18-22. (in Chinese)
[11] [11] JONES M, WILLIAMS J, GRTNER K, et al.. Low copy target detection by droplet digital PCR through application of a novel open access bioinformatic pipeline, 'definetherain'[J]. Journal of Virological Methods, 2014, 202: 46-53.
[12] [12] TRYPSTEEN W, VYNCK M, DE NEVE J, et al.. ddpcRquant: threshold determination for single channel droplet digital PCR experiments[J]. Analytical and Bioanalytical Chemistry, 2015, 407(19): 5827-5834.
[13] [13] LIEVENS A, JACCHIA S, KAGKLI D, et al.. Measuring digital PCR quality: performance parameters and their optimization[J]. PLoS One, 2016, 11(5): e0153317.
[14] [14] JACOBS B K M, GOETGHEBEUR E, CLEMENT L. Impact of variance components on reliability of absolute quantification using digital PCR[J]. BMC Bioinformatics, 2014, 15: 283.
[15] [15] MAJUMDAR N, WESSEL T, MARKS J. Digital PCR modeling for maximal sensitivity, dynamic range and measurement precision[J]. PLoS One, 2015, 10(3): e0118833.
[16] [16] PINHEIRO L B, COLEMAN V A, HINDSON C M, et al.. Evaluation of a droplet digital polymerase chain reaction format for DNA copy number quantification[J]. Analytical Chemistry, 2012, 84(2): 1003-1011.
[17] [17] BALKEMA A A, DE HAAN L. Residual life time at great age[J]. The Annals of Probability, 1974, 2(5): 792-804.
[18] [18] PICKANDS J. Statistical-inference using extreme order statistics[J]. The Annals of Statistics, 1975, 3(1): 119-131.
Get Citation
Copy Citation Text
LIU Cong, DONG Wen-fei, ZHANG Tao, ZHOU Wu-ping, JIANG Ke-ming, LI Hai-wen. Identification of florescent droplets at low concentrations for droplet digital PCR[J]. Optics and Precision Engineering, 2018, 26(3): 647
Category:
Received: Jun. 5, 2017
Accepted: --
Published Online: Apr. 25, 2018
The Author Email: