Author: Keightley, Maria Cristina; Sillekens, Peter; Schippers, Wim; Rinaldo, Charles; George, Kirsten St.
Title: Realâ€time NASBA detection of SARSâ€associated coronavirus and comparison with realâ€time reverse transcriptionâ€PCR Cord-id: mnht73a7 Document date: 2005_10_27
ID: mnht73a7
Snippet: Severe acute respiratory syndrome (SARS) exhibits a high mortality rate and the potential for rapid epidemic spread. Additionally, it has a poorly defined clinical presentation, and no known treatment or prevention methods. Collectively, these factors underscore the need for early diagnosis. Molecular tests have been developed to detect SARS coronavirus (SARSâ€CoV) RNA using real time reverse transcription polymerase chain reaction (RTâ€PCR) with varying levels of sensitivity. However, RNA amp
Document: Severe acute respiratory syndrome (SARS) exhibits a high mortality rate and the potential for rapid epidemic spread. Additionally, it has a poorly defined clinical presentation, and no known treatment or prevention methods. Collectively, these factors underscore the need for early diagnosis. Molecular tests have been developed to detect SARS coronavirus (SARSâ€CoV) RNA using real time reverse transcription polymerase chain reaction (RTâ€PCR) with varying levels of sensitivity. However, RNA amplification methods have been demonstrated to be more sensitive for the detection of some RNA viruses. We therefore developed a realâ€time nucleic acid sequenceâ€based amplification (NASBA) test for SARSâ€CoV. A number of primer/beacon sets were designed to target different regions of the SARSâ€CoV genome, and were tested for sensitivity and specificity. The performance of the assays was compared with RTâ€PCR assays. A multiâ€target realâ€time NASBA application was developed for detection of SARSâ€CoV polymerase (Pol) and nucleocapsid (N) genes. The N targets were found to be consistently more sensitive than the Pol targets, and the realâ€time NASBA assay demonstrates equivalent sensitivity when compared to testing by realâ€time RTâ€PCR. A multiâ€target realâ€time NASBA assay has been successfully developed for the sensitive detection of SARSâ€CoV. J. Med. Virol. 77:602–608, 2005. © 2005 Wileyâ€Liss, inc.
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