Real-time reverse transcription PCR for detection and quantitative analysis of equine influenza virus

Michelle Quinlivan; Eugene Dempsey; Fergus Ryan; Sean Arkins; Ann Cullinane

doi:10.1128/JCM.43.10.5055-5057.2005

Real-time reverse transcription PCR for detection and quantitative analysis of equine influenza virus

Michelle Quinlivan
, Eugene Dempsey
, Fergus Ryan
, Sean Arkins
, Ann Cullinane

Research output: Contribution to journal › Article › peer-review

Abstract

Equine influenza is a cause of epizootic respiratory disease of the equine. The detection of equine influenza virus using real-time Light Cycler reverse transcription (RT)-PCR technology was evaluated over two influenza seasons with the analysis of 171 samples submitted for viral respiratory disease. Increased sensitivity was found in overall viral detection with this system compared to Directigen Flu A and virus isolation, which were 40% and 23%, respectively, that of the RT-PCR. The assay was also evaluated as a viable replacement for the more traditional methods of quantifying equine influenza virus, 50% egg infectious dose and 50% tissue culture infectious dose. There was a significant positive correlation (P < 0.05) between the quantitative RT-PCR and both of these assays.

Original language	English
Pages (from-to)	5055-5057
Number of pages	3
Journal	Journal of Clinical Microbiology
Volume	43
Issue number	10
DOIs	https://doi.org/10.1128/JCM.43.10.5055-5057.2005
Publication status	Published - Oct 2005

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10.1128/JCM.43.10.5055-5057.2005

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title = "Real-time reverse transcription PCR for detection and quantitative analysis of equine influenza virus",

abstract = "Equine influenza is a cause of epizootic respiratory disease of the equine. The detection of equine influenza virus using real-time Light Cycler reverse transcription (RT)-PCR technology was evaluated over two influenza seasons with the analysis of 171 samples submitted for viral respiratory disease. Increased sensitivity was found in overall viral detection with this system compared to Directigen Flu A and virus isolation, which were 40\% and 23\%, respectively, that of the RT-PCR. The assay was also evaluated as a viable replacement for the more traditional methods of quantifying equine influenza virus, 50\% egg infectious dose and 50\% tissue culture infectious dose. There was a significant positive correlation (P < 0.05) between the quantitative RT-PCR and both of these assays.",

author = "Michelle Quinlivan and Eugene Dempsey and Fergus Ryan and Sean Arkins and Ann Cullinane",

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AU - Dempsey, Eugene

AU - Ryan, Fergus

AU - Arkins, Sean

AU - Cullinane, Ann

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N2 - Equine influenza is a cause of epizootic respiratory disease of the equine. The detection of equine influenza virus using real-time Light Cycler reverse transcription (RT)-PCR technology was evaluated over two influenza seasons with the analysis of 171 samples submitted for viral respiratory disease. Increased sensitivity was found in overall viral detection with this system compared to Directigen Flu A and virus isolation, which were 40% and 23%, respectively, that of the RT-PCR. The assay was also evaluated as a viable replacement for the more traditional methods of quantifying equine influenza virus, 50% egg infectious dose and 50% tissue culture infectious dose. There was a significant positive correlation (P < 0.05) between the quantitative RT-PCR and both of these assays.

AB - Equine influenza is a cause of epizootic respiratory disease of the equine. The detection of equine influenza virus using real-time Light Cycler reverse transcription (RT)-PCR technology was evaluated over two influenza seasons with the analysis of 171 samples submitted for viral respiratory disease. Increased sensitivity was found in overall viral detection with this system compared to Directigen Flu A and virus isolation, which were 40% and 23%, respectively, that of the RT-PCR. The assay was also evaluated as a viable replacement for the more traditional methods of quantifying equine influenza virus, 50% egg infectious dose and 50% tissue culture infectious dose. There was a significant positive correlation (P < 0.05) between the quantitative RT-PCR and both of these assays.

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JF - Journal of Clinical Microbiology

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Real-time reverse transcription PCR for detection and quantitative analysis of equine influenza virus

Abstract

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