Development of event-specific qPCR detection methods for genetically modified alfalfa events J101, J163 and KK179

Development of event-specific qPCR detection methods for genetically modified alfalfa events J101, J163 and KK179

Genetically modified alfalfa is authorized for cultivation in several countries since 2005. On the other hand, cultivation in or export to the European Union is not allowed and thus neither certified reference material nor official event-specific detection methods are available. Therefore, based on...

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Main Authors: Patrick Guertler, Lutz Grohmann, Heike Naumann, Melanie Pavlovic, Ulrich Busch
Format: Article
Language:English
Published: Elsevier 2019-03-01
Series:Biomolecular Detection and Quantification
Online Access:http://www.sciencedirect.com/science/article/pii/S2214753518300202
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spelling doaj-05c490d289c9412b804af1e0fbf55cab2020-11-25T01:20:32ZengElsevierBiomolecular Detection and Quantification2214-75352019-03-0117Development of event-specific qPCR detection methods for genetically modified alfalfa events J101, J163 and KK179Patrick Guertler0Lutz Grohmann1Heike Naumann2Melanie Pavlovic3Ulrich Busch4Bavarian Health and Food Safety Authority, Veterinärstr. 2, 85764 Oberschleißheim, Germany; Corresponding author.Federal Office of Consumer Protection and Food Safety, Mauerstrasse 39-42, 10117 Berlin, GermanyLower Saxony State Office for Consumer Protection and Food Safety, Food and Veterinary Institute, Dresdenstr. 2, 38124 Braunschweig, GermanyBavarian Health and Food Safety Authority, Veterinärstr. 2, 85764 Oberschleißheim, GermanyBavarian Health and Food Safety Authority, Veterinärstr. 2, 85764 Oberschleißheim, GermanyGenetically modified alfalfa is authorized for cultivation in several countries since 2005. On the other hand, cultivation in or export to the European Union is not allowed and thus neither certified reference material nor official event-specific detection methods are available. Therefore, based on patent sequence information, event-specific real-time PCR detection methods targeting the junction sequence of the alfalfa genome and the transgenic insert of the respective events J101, J163 and KK179 were developed. Newly developed plasmids were used as reference material for assay optimization and in-house validation. Plasmid standards were quantified using digital droplet PCR and LOD95%, PCR efficiency, robustness and specificity of the assays were determined using real-time PCR. A LOD95% of 10 copies per PCR reaction was observed and PCR efficiencies of 95–97 % were achieved. Different real-time PCR instruments and PCR conditions were applied to test for robustness of the assays using DNA at a concentration of 30 copies per μL for each gm alfalfa event. All replicates were positive independent of the instrument or the PCR condition. DNA from certified reference material of different genetically modified crops as well as reference materials of the three events was used to experimentally test for specificity. No unspecific amplification signal was observed for any of the assays. Validation results were in line with the “Minimum Performance Requirements for Analytical Methods of GMO Testing” of the European Network of GMO Laboratories. Furthermore, an inter-laboratory comparison study was conducted to show the transferability and applicability of the methods and to verify the assay performance parameters. Keywords: Alfalfa, Lucerne, GMO, qPCR, Detection, In-house validation, Comparative laboratory study, Medicago sativahttp://www.sciencedirect.com/science/article/pii/S2214753518300202
collection DOAJ
language English
format Article
sources DOAJ
author Patrick Guertler
Lutz Grohmann
Heike Naumann
Melanie Pavlovic
Ulrich Busch
spellingShingle Patrick Guertler
Lutz Grohmann
Heike Naumann
Melanie Pavlovic
Ulrich Busch
Development of event-specific qPCR detection methods for genetically modified alfalfa events J101, J163 and KK179
Biomolecular Detection and Quantification
author_facet Patrick Guertler
Lutz Grohmann
Heike Naumann
Melanie Pavlovic
Ulrich Busch
author_sort Patrick Guertler
title Development of event-specific qPCR detection methods for genetically modified alfalfa events J101, J163 and KK179
title_short Development of event-specific qPCR detection methods for genetically modified alfalfa events J101, J163 and KK179
title_full Development of event-specific qPCR detection methods for genetically modified alfalfa events J101, J163 and KK179
title_fullStr Development of event-specific qPCR detection methods for genetically modified alfalfa events J101, J163 and KK179
title_full_unstemmed Development of event-specific qPCR detection methods for genetically modified alfalfa events J101, J163 and KK179
title_sort development of event-specific qpcr detection methods for genetically modified alfalfa events j101, j163 and kk179
publisher Elsevier
series Biomolecular Detection and Quantification
issn 2214-7535
publishDate 2019-03-01
description Genetically modified alfalfa is authorized for cultivation in several countries since 2005. On the other hand, cultivation in or export to the European Union is not allowed and thus neither certified reference material nor official event-specific detection methods are available. Therefore, based on patent sequence information, event-specific real-time PCR detection methods targeting the junction sequence of the alfalfa genome and the transgenic insert of the respective events J101, J163 and KK179 were developed. Newly developed plasmids were used as reference material for assay optimization and in-house validation. Plasmid standards were quantified using digital droplet PCR and LOD95%, PCR efficiency, robustness and specificity of the assays were determined using real-time PCR. A LOD95% of 10 copies per PCR reaction was observed and PCR efficiencies of 95–97 % were achieved. Different real-time PCR instruments and PCR conditions were applied to test for robustness of the assays using DNA at a concentration of 30 copies per μL for each gm alfalfa event. All replicates were positive independent of the instrument or the PCR condition. DNA from certified reference material of different genetically modified crops as well as reference materials of the three events was used to experimentally test for specificity. No unspecific amplification signal was observed for any of the assays. Validation results were in line with the “Minimum Performance Requirements for Analytical Methods of GMO Testing” of the European Network of GMO Laboratories. Furthermore, an inter-laboratory comparison study was conducted to show the transferability and applicability of the methods and to verify the assay performance parameters. Keywords: Alfalfa, Lucerne, GMO, qPCR, Detection, In-house validation, Comparative laboratory study, Medicago sativa
url http://www.sciencedirect.com/science/article/pii/S2214753518300202
work_keys_str_mv AT patrickguertler developmentofeventspecificqpcrdetectionmethodsforgeneticallymodifiedalfalfaeventsj101j163andkk179
AT lutzgrohmann developmentofeventspecificqpcrdetectionmethodsforgeneticallymodifiedalfalfaeventsj101j163andkk179
AT heikenaumann developmentofeventspecificqpcrdetectionmethodsforgeneticallymodifiedalfalfaeventsj101j163andkk179
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