AI Article Synopsis
- A new quantitative RT-PCR method was developed to measure enterovirus RNA in urban sludge, utilizing Taq-Man technology and the ABI Prism 7700 system.
- The method involves a one-step RT-PCR with a dual-labeled probe targeting the enterovirus's 5' noncoding region, and includes a specially engineered poliovirus RNA standard for accurate quantification.
- This technique effectively removes PCR inhibitors, allowing for high sensitivity and reproducibility, making it suitable for screening large samples, with further confirmation done through cell culture.
Article Abstract
We have developed a quantitative RT-PCR method that can be used to determine the amount of enterovirus RNA in urban sludge samples. This method combines Taq-Man technology with the ABI Prism 7700 real-time sequence detection system. We optimized a one-step RT-PCR that uses a dual-labeled fluorogenic probe to quantify the 5' noncoding region of enteroviruses. For accurate quantification of the number of copies, a Mahoney type 1 poliovirus RNA standard was designed and produced using genetic engineering. This fragment, quantified using the Ribogreen method, was used in serial dilutions as an external standard. The method had a 7-log dynamic range (5 to 2 x 10(7)). PCR inhibitors were removed by extracting viral RNA (after virus concentration) using the RNeasy mini kit with added polyvinylpyrrolidone (PVP) and running the amplification reaction with a mixture containing PVP and T4 gene 32 protein. This real-time quantification of enterovirus RNA allows large numbers of samples to be screened. Its sensitivity, simplicity and reproducibility render it suitable as a screening method with which to characterize enteroviruses, the presence of infectious particles being subsequently confirmed by cell culture.
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| http://dx.doi.org/10.2144/00291st03 | DOI Listing |
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