AI Article Synopsis
- Human rhinoviruses (HRV) include over 150 genotypes and are significant respiratory pathogens, necessitating effective molecular detection methods for diagnosis and surveillance.
- Comparing reverse transcription-quantitative PCR (RT-qPCR) and reverse transcription-digital PCR (RT-dPCR), this study finds that RT-dPCR is more accurate for quantifying HRV RNA, especially with consensus primers that work across multiple genotypes.
- RT-dPCR's advantage lies in its stability against sequence mismatches in primer/probe binding regions, making it a promising approach for quantifying diverse viruses like HRV in future studies.
Article Abstract
Human rhinoviruses (HRV) comprise 3 species representing more than 150 genotypes. As an important human respiratory pathogen, molecular detection is an indispensable tool for diagnosis and surveillance. However, the sequence diversity of HRV genotypes poses challenges for developing robust molecular methods that detect all genotypes with equal efficiencies. This study compares the accuracies of reverse transcription-quantitative PCR (RT-qPCR) and reverse transcription-digital PCR (RT-dPCR) for quantifying HRV RNA using genotype-specific primers and probes and a consensus primer/probe set targeting the 5' noncoding region of HRV. When using consensus primers and probes for the quantification of HRV, RT-dPCR outperformed RT-qPCR by consistently and accurately quantifying HRV RNAs across more genotype groups, despite the presence of up to 2 target-sequence mismatches within the primer or probe binding region. Because it does not rely on amplification efficiency, which can be affected by sequence mismatches in primer/probe binding regions, RT-dPCR may be the optimal molecular method for future HRV quantification studies and for quantitating other viruses with high sequence diversity.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5277513 | PMC |
| http://dx.doi.org/10.1128/JCM.01970-16 | DOI Listing |
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