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A Poisson-Independent Approach to Precision Nucleic Acid Quantification in Microdroplets

Reya Ganguly, Chang‐Soo Lee

2024ACS Applied Bio Materials9 citationsDOI

Abstract

Digital PCR (dPCR) has become indispensable in nucleic acid (NA) detection across various fields, including viral diagnostics and mutant detection. However, misclassification of partitions in dPCR can significantly impact accuracy. Despite existing methods to minimize misclassification bias, accurate classification remains elusive, especially for nonamplified target partitions. To address these challenges, this study introduces an innovative microdroplet-based competitive PCR platform for nucleic acid quantification in microfluidic devices independent of Poisson statistics. In this approach, the target concentration (T) is determined from the concentration of competitor DNA (C) at the equivalence point (E.P.), where C/T is 1. Competitive PCR ensures that the ratio of target to competitor DNA remains constant during amplification, reflected in the resultant fluorescence intensity, allowing the quantification of target DNA concentration at the equivalence point. The unique amplification technique eliminates Poisson distribution, addressing misclassification challenges. Additionally, our approach reduces the need for post-PCR procedures and shortens analytical time. We envision this platform as versatile, reproducible, and easily adaptable for driving significant progress in molecular biology and diagnostics.

Topics & Concepts

Digital polymerase chain reactionNucleic acidPoisson distributionMicrofluidicsEquivalence (formal languages)Biological systemDNAComputer scienceComputational biologyNanotechnologyBiologyMaterials scienceMathematicsPolymerase chain reactionStatisticsGeneticsDiscrete mathematicsGeneInnovative Microfluidic and Catalytic Techniques InnovationMicrofluidic and Capillary Electrophoresis ApplicationsBiosensors and Analytical Detection
A Poisson-Independent Approach to Precision Nucleic Acid Quantification in Microdroplets | Litcius