Droplet Volume Variability and Impact on Digital PCR Copy Number Concentration Measurements.

Digital polymerase chain reaction (dPCR) is increasingly being adopted by reference material producers and metrology institutes for value assignment, and for homogeneity and stability studies of nucleic acid reference materials. A reference method procedure should fulfill several requirements, and the uncertainty and biases should be completely understood. A bias in target concentration when inaccurate droplet volume is used in the droplet dPCR measurement equation has previously been documented.

International Comparison of Enumeration-Based Quantification of DNA Copy-Concentration Using Flow Cytometric Counting and Digital Polymerase Chain Reaction.

Enumeration-based determination of DNA copy-concentration was assessed through an international comparison among national metrology institutes (NMIs) and designated institutes (DIs). Enumeration-based quantification does not require a calibration standard thereby providing a route to "absolute quantification", which offers the potential for reliable value assignments of DNA reference materials, and International System of Units (SI) traceability to copy number 1 through accurate counting. In this study, 2 enumeration-based methods, flow cytometric (FCM) counting and the digital polymerase chain reaction (dPCR), were compared to quantify a solution of the pBR322 plasmid at a concentration of several thousand copies per microliter.

DNA methylation ratio variability may impede clinical application of cancer diagnostic markers.

Hypermethylation at promoter regions of tumour suppressor genes is diagnostic for many cancers. Many genomic regions that may be the targets for clinical diagnostic assays have been identified through use of measuring systems reliant on bisulphite conversion, but few of these promising markers are in clinical use. The comparability of a widely used DNA methylation measuring system involving bisulphite conversion was evaluated by supplying three experienced centres with methylated DNA reference material mixtures that were independently prepared and characterised by mass spectrometry and high-pressure liquid chromatography.

Digital polymerase chain reaction measured pUC19 marker as calibrant for HPLC measurement of DNA quantity.

Digital polymerase chain reaction (dPCR) is potentially a primary method for quantifying target DNA regions in a background of nontarget material and is independent of external calibrators. Accurate dPCR measurements require single-molecule detection by conventional PCR assays that may be subject to bias due to inhibition, interference, or sequence-derived PCR inefficiency. Elimination or control of such biases is essential for validation of PCR assays, but this may require a substantial investment in resources.