Mutation Scanning in a Single and a Stacked Genetically Modified (GM) Event by Real-Time PCR and High Resolution Melting (HRM) Analysis

Genetic mutations must be avoided during the production and use of seeds. In the European Union (EU), Directive 2001/18/EC requires any DNA construct introduced via transformation to be stable. Establishing genetic stability is critical for the approval of genetically modified organisms (GMOs). In t...

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Autores principales: Ben Ali, Sina-Elisabeth, Madi, Zita Erika, Hochegger, Rupert, Quist, David, Prewein, Bernhard, Haslberger, Alexander G., Brandes, Christian
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2014
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4264145/
https://www.ncbi.nlm.nih.gov/pubmed/25365178
http://dx.doi.org/10.3390/ijms151119898
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author Ben Ali, Sina-Elisabeth
Madi, Zita Erika
Hochegger, Rupert
Quist, David
Prewein, Bernhard
Haslberger, Alexander G.
Brandes, Christian
author_facet Ben Ali, Sina-Elisabeth
Madi, Zita Erika
Hochegger, Rupert
Quist, David
Prewein, Bernhard
Haslberger, Alexander G.
Brandes, Christian
author_sort Ben Ali, Sina-Elisabeth
collection PubMed
description Genetic mutations must be avoided during the production and use of seeds. In the European Union (EU), Directive 2001/18/EC requires any DNA construct introduced via transformation to be stable. Establishing genetic stability is critical for the approval of genetically modified organisms (GMOs). In this study, genetic stability of two GMOs was examined using high resolution melting (HRM) analysis and real-time polymerase chain reaction (PCR) employing Scorpion primers for amplification. The genetic variability of the transgenic insert and that of the flanking regions in a single oilseed rape variety (GT73) and a stacked maize (MON88017 × MON810) was studied. The GT73 and the 5' region of MON810 showed no instabilities in the examined regions. However; two out of 100 analyzed samples carried a heterozygous point mutation in the 3' region of MON810 in the stacked variety. These results were verified by direct sequencing of the amplified PCR products as well as by sequencing of cloned PCR fragments. The occurrence of the mutation suggests that the 5' region is more suitable than the 3' region for the quantification of MON810. The identification of the single nucleotide polymorphism (SNP) in a stacked event is in contrast to the results of earlier studies of the same MON810 region in a single event where no DNA polymorphism was found.
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spelling pubmed-42641452014-12-12 Mutation Scanning in a Single and a Stacked Genetically Modified (GM) Event by Real-Time PCR and High Resolution Melting (HRM) Analysis Ben Ali, Sina-Elisabeth Madi, Zita Erika Hochegger, Rupert Quist, David Prewein, Bernhard Haslberger, Alexander G. Brandes, Christian Int J Mol Sci Article Genetic mutations must be avoided during the production and use of seeds. In the European Union (EU), Directive 2001/18/EC requires any DNA construct introduced via transformation to be stable. Establishing genetic stability is critical for the approval of genetically modified organisms (GMOs). In this study, genetic stability of two GMOs was examined using high resolution melting (HRM) analysis and real-time polymerase chain reaction (PCR) employing Scorpion primers for amplification. The genetic variability of the transgenic insert and that of the flanking regions in a single oilseed rape variety (GT73) and a stacked maize (MON88017 × MON810) was studied. The GT73 and the 5' region of MON810 showed no instabilities in the examined regions. However; two out of 100 analyzed samples carried a heterozygous point mutation in the 3' region of MON810 in the stacked variety. These results were verified by direct sequencing of the amplified PCR products as well as by sequencing of cloned PCR fragments. The occurrence of the mutation suggests that the 5' region is more suitable than the 3' region for the quantification of MON810. The identification of the single nucleotide polymorphism (SNP) in a stacked event is in contrast to the results of earlier studies of the same MON810 region in a single event where no DNA polymorphism was found. MDPI 2014-10-31 /pmc/articles/PMC4264145/ /pubmed/25365178 http://dx.doi.org/10.3390/ijms151119898 Text en © 2014 by the authors; licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Ben Ali, Sina-Elisabeth
Madi, Zita Erika
Hochegger, Rupert
Quist, David
Prewein, Bernhard
Haslberger, Alexander G.
Brandes, Christian
Mutation Scanning in a Single and a Stacked Genetically Modified (GM) Event by Real-Time PCR and High Resolution Melting (HRM) Analysis
title Mutation Scanning in a Single and a Stacked Genetically Modified (GM) Event by Real-Time PCR and High Resolution Melting (HRM) Analysis
title_full Mutation Scanning in a Single and a Stacked Genetically Modified (GM) Event by Real-Time PCR and High Resolution Melting (HRM) Analysis
title_fullStr Mutation Scanning in a Single and a Stacked Genetically Modified (GM) Event by Real-Time PCR and High Resolution Melting (HRM) Analysis
title_full_unstemmed Mutation Scanning in a Single and a Stacked Genetically Modified (GM) Event by Real-Time PCR and High Resolution Melting (HRM) Analysis
title_short Mutation Scanning in a Single and a Stacked Genetically Modified (GM) Event by Real-Time PCR and High Resolution Melting (HRM) Analysis
title_sort mutation scanning in a single and a stacked genetically modified (gm) event by real-time pcr and high resolution melting (hrm) analysis
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4264145/
https://www.ncbi.nlm.nih.gov/pubmed/25365178
http://dx.doi.org/10.3390/ijms151119898
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