Development of real-time reverse transcription PCR for detection of Maize chlorotic mottle virus based on a novel molecular marker

Development of real-time reverse transcription PCR for detection of Maize chlorotic mottle virus based on a novel molecular marker

Maize chlorotic mottle virus (MCMV) infects maize plants and causes significant losses in corn production worldwide. In this study, a real-time TaqMan RT-PCR assay for efficient detection of MCMV was described. A pair of primers amplifying a 131-bp DNA fragment and a TaqMan probe was designed target...

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Bibliographic Details
Main Authors: Zhanmin Liu, Luxi Zhang, Cuiyun Yang, Xueying Xia
Format: Article
Language:English
Published: Taylor & Francis Group 2016-12-01
Series:Cogent Food & Agriculture
Subjects:
maize chlorotic mottle virus
real-time rt-pcr
novel molecular marker
Online Access:http://dx.doi.org/10.1080/23311932.2016.1224047
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spelling doaj-b2d986020aab4481990e7fb78e1987092021-03-02T15:42:30ZengTaylor & Francis GroupCogent Food & Agriculture2331-19322016-12-012110.1080/23311932.2016.12240471224047Development of real-time reverse transcription PCR for detection of Maize chlorotic mottle virus based on a novel molecular markerZhanmin Liu0Luxi Zhang1Cuiyun Yang2Xueying Xia3Shanghai UniversityShanghai Entry-Exit Inspection and Quarantine BureauShanghai Entry-Exit Inspection and Quarantine BureauShanghai UniversityMaize chlorotic mottle virus (MCMV) infects maize plants and causes significant losses in corn production worldwide. In this study, a real-time TaqMan RT-PCR assay for efficient detection of MCMV was described. A pair of primers amplifying a 131-bp DNA fragment and a TaqMan probe was designed targeting the novel molecular marker based on MCMV genome analysis sequences. The assay designed was highly specific, producing no signal from other viruses, and the sensitivity of the assay was 0.16 fg/reaction of total RNA, which was approximately 252-fold higher than conventional RT-PCR gel electrophoresis method. Compared with the real-time TaqMan reverse transcription PCR targeting coat protein gene, the novel assay has more specificity and sensitivity to detect MCMV in maize. Therefore, the assay is a useful tool for large or middle-scale corporations and entry-exit inspection and quarantine bureau to detect MCMV in maize seeds or plant tissues.http://dx.doi.org/10.1080/23311932.2016.1224047maize chlorotic mottle virusreal-time rt-pcrnovel molecular marker
collection DOAJ
language English
format Article
sources DOAJ
author Zhanmin Liu
Luxi Zhang
Cuiyun Yang
Xueying Xia
spellingShingle Zhanmin Liu
Luxi Zhang
Cuiyun Yang
Xueying Xia
Development of real-time reverse transcription PCR for detection of Maize chlorotic mottle virus based on a novel molecular marker
Cogent Food & Agriculture
maize chlorotic mottle virus
real-time rt-pcr
novel molecular marker
author_facet Zhanmin Liu
Luxi Zhang
Cuiyun Yang
Xueying Xia
author_sort Zhanmin Liu
title Development of real-time reverse transcription PCR for detection of Maize chlorotic mottle virus based on a novel molecular marker
title_short Development of real-time reverse transcription PCR for detection of Maize chlorotic mottle virus based on a novel molecular marker
title_full Development of real-time reverse transcription PCR for detection of Maize chlorotic mottle virus based on a novel molecular marker
title_fullStr Development of real-time reverse transcription PCR for detection of Maize chlorotic mottle virus based on a novel molecular marker
title_full_unstemmed Development of real-time reverse transcription PCR for detection of Maize chlorotic mottle virus based on a novel molecular marker
title_sort development of real-time reverse transcription pcr for detection of maize chlorotic mottle virus based on a novel molecular marker
publisher Taylor & Francis Group
series Cogent Food & Agriculture
issn 2331-1932
publishDate 2016-12-01
description Maize chlorotic mottle virus (MCMV) infects maize plants and causes significant losses in corn production worldwide. In this study, a real-time TaqMan RT-PCR assay for efficient detection of MCMV was described. A pair of primers amplifying a 131-bp DNA fragment and a TaqMan probe was designed targeting the novel molecular marker based on MCMV genome analysis sequences. The assay designed was highly specific, producing no signal from other viruses, and the sensitivity of the assay was 0.16 fg/reaction of total RNA, which was approximately 252-fold higher than conventional RT-PCR gel electrophoresis method. Compared with the real-time TaqMan reverse transcription PCR targeting coat protein gene, the novel assay has more specificity and sensitivity to detect MCMV in maize. Therefore, the assay is a useful tool for large or middle-scale corporations and entry-exit inspection and quarantine bureau to detect MCMV in maize seeds or plant tissues.
topic maize chlorotic mottle virus
real-time rt-pcr
novel molecular marker
url http://dx.doi.org/10.1080/23311932.2016.1224047
work_keys_str_mv AT zhanminliu developmentofrealtimereversetranscriptionpcrfordetectionofmaizechloroticmottlevirusbasedonanovelmolecularmarker
AT luxizhang developmentofrealtimereversetranscriptionpcrfordetectionofmaizechloroticmottlevirusbasedonanovelmolecularmarker
AT cuiyunyang developmentofrealtimereversetranscriptionpcrfordetectionofmaizechloroticmottlevirusbasedonanovelmolecularmarker
AT xueyingxia developmentofrealtimereversetranscriptionpcrfordetectionofmaizechloroticmottlevirusbasedonanovelmolecularmarker
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