During vaccine production, RNA from chimeric yellow fever-dengue (CYD) vaccine viruses (CYD1, CYD2, CYD3 and CYD4) is currently quantified using separate serotype-specific RT-qPCR assays. Here we describe the results from a proof-of-concept study on the development of a multiplex reverse transcriptase droplet digital PCR (RT-ddPCR) assay for simultaneous quantification of RNA for all four viruses. Serotype-specific simplex RT-ddPCRs were developed using the serotype-specific PCR systems (forward and reverse primers and FAM (fluorescent chromophores 6-carboxyfluorescein) and YY (Yakima Yellow)-labelled probes), used in the routine RT-qPCR. The PCR systems were specific and gave similar quantification results to those from the RT-qPCR assay. Linear regression analyses were used to select relative probe concentrations to obtain distinct clusters for each target RNA in a 2-D cluster plot in a multiplex RT-ddPCR assay. We showed the clusters were positioned as predicted in the model for each CYD RNA and were well separated. The multiplex RT-ddPCR gave similar quantification results to those obtained by the serotype-specific RT-qPCR assays for triplicate samples containing 7, 8 or 9 Log10 Geq/mL. In conclusion, these results demonstrate that it is possible to quantify RNA from four CYD serotypes with a multiplex RT-ddPCR assay in a single assay.
Keywords: Absolute quantification; Chimeric yellow fever–dengue vaccine viruses; Multiplex RT-ddPCR; RT-qPCR; Reverse transcriptase droplet digital PCR; Viral RNA quantification; nucleic acid quantification.
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