Covert mortality nodavirus (CMNV), an emerging RNA virus, is the pathogen of viral covert mortality disease (VCMD), which has emerged as a cause of serious losses in shrimp aquaculture in China. To improve VCMD diagnosis, a one-step, real-time TaqMan probe-based reverse transcription quantitative PCR (RT-qPCR) was developed in this study. The TaqMan RT-qPCR was optimized firstly, whereby the best results were obtained with 0.2 μM of each primer, 0.2 μM probe, and 0.5 μL Enzyme Mix II. The optimal reaction program was determined as 15 min at 51ºC for reverse transcription and 5 min at 95 ºC, followed by 40 cycles of denaturation at 94 ºC for 10 s, and annealing and extension at 52.7 ºC for 30 s. The optimized assay detected as little as 9.6 pg total RNA from CMNV-infected shrimp and 5.7 copies of the target plasmid. The RT-qPCR assay for CMNV with a high correlation coefficient (r2 = 0.996) was developed basing on the standard curve generated by plotting the threshold cycle values (y) against the common logarithmic copies (log10nc as x; nc is copy number) of pMD20-CMNV. The diagnostic sensitivity and specificity of this assay versus the previously reported RT-qPCR was 96.2% and 98.0%, respectively. This method is highly specific to CMNV, as it showed no cross-reactivity with other common shrimp viruses. It is anticipated that the newly developed and optimized RT-qPCR assay will be instrumental for the rapid diagnosis and quantitation of CMNV.
Keywords: CMNV; Covert mortality nodavirus; RT-qPCR; TaqMan.
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