Litcius/Paper detail

Advancing quantitative PCR with color cycle multiplex amplification

Wei Chen, Kerou Zhang, Fei Huang, Lan‐Juan Zhao, George C Waldren, Qi Jiang, Sherry X. Chen, Bonnie Wang, Wei Guo, David Y. Zhang, Jinny Xuemeng Zhang

2024Nucleic Acids Research19 citationsDOIOpen Access PDF

Abstract

Quantitative PCR (qPCR) is the gold standard for detection and quantitation of known DNA targets, but the scarcity of spectrally distinct fluorophores and filter sets limits the number of detectable targets. Here, we introduce color cycle multiplex amplification (CCMA) to significantly increase the number of detectable DNA targets in a single qPCR reaction using standard instrumentation. In CCMA, presence of one DNA target species results in a pre-programmed pattern of fluorescence increases. This pattern is distinguished by cycle thresholds (Cts) through rationally designed delays in amplification. For example, we design an assay wherein Staphylococcus aureus sequentially induces FAM, then Cy5.5, then ROX fluorescence increases with more than 3 cycles between each signal. CCMA offers notably higher potential for multiplexing because it uses fluorescence permutation rather than combination. With 4 distinct fluorescence colors, CCMA theoretically allows the detection of up to 136 distinct DNA target sequences using fluorescence permutation. Experimentally, we demonstrated a single-tube qPCR assay screening 21 sepsis-related bacterial DNA targets in samples of blood, sputum, pleural effusion and bronchoalveolar lavage fluid, with 89% clinical sensitivity and 100% clinical specificity, showing its potential as a powerful tool for advanced quantitative screening in molecular diagnostics.

Topics & Concepts

BiologyMultiplexMolecular biologyReal-time polymerase chain reactionPolymerase chain reactionDNAFluorescenceComputational biologyGeneticsGeneQuantum mechanicsPhysicsMolecular Biology Techniques and ApplicationsBacterial Identification and Susceptibility TestingGenomics and Phylogenetic Studies