Sven Pecoraro scite author profile

Genetically modified plants, in the following referred to as genetically modified organisms or GMOs, have been commercially grown for almost two decades. In 2010 approximately 10% of the total global crop acreage was planted with GMOs (James, 2011). More than 30 countries have been growing commercial GMOs, and many more have performed field trials. Although the majority of commercial GMOs both in terms of acreage and specific events belong to the four species: soybean, maize, cotton and rapeseed, there are another 20+ species where GMOs are commercialized or in the pipeline for commercialization. The number of GMOs cultivated in field trials or for commercial production has constantly increased during this time period. So have the number of species, the number of countries involved, the diversity of novel (added) genetic elements and the global trade. All of these factors contribute to the increasing complexity of detecting and correctly identifying GMO derived material. Many jurisdictions, including the European Union (EU), legally distinguish between authorized (and therefore legal) and un-authorized (and therefore illegal) GMOs. Information about the developments, field trials, authorizations, cultivation, trade and observations made in the official GMO control laboratories in different countries around the world is often limited, despite several attempts such as the OECD BioTrack for voluntary dissemination of data. This lack of information inevitably makes it challenging to detect and identify GMOs, especially the un-authorized GMOs. The present paper reviews the state of the art technologies and approaches in light of coverage, practicability, sensitivity and limitations. Emphasis is put on exemplifying practical detection of un-authorized GMOs. Although this paper has a European (EU) bias when examples are given, the contents have global relevance.

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Molecular characterization of an unauthorized genetically modified Bacillus subtilis production strain identified in a vitamin B 2 feed additive

Paracchini

Petrillo

Reiting³

et al. 2017

Food Chemistry

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Optimization of digital droplet polymerase chain reaction for quantification of genetically modified organisms

Gerdes¹,

Iwobi²,

Busch³

et al. 2016

Biomolecular Detection and Quantification

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Droplet digital PCR for routine analysis of genetically modified foods (GMO) – A comparison with real-time quantitative PCR

Iwobi¹,

Gerdes²,

Busch³

et al. 2016

Food Control

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Development of an event-specific Real-time PCR detection method for the transgenic Bt rice line KMD1

Babekova

Funk

Pecoraro

et al. 2008

Eur Food Res Technol

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Sven Pecoraro

Detecting un-authorized genetically modified organisms (GMOs) and derived materials

Molecular characterization of an unauthorized genetically modified Bacillus subtilis production strain identified in a vitamin B 2 feed additive

Optimization of digital droplet polymerase chain reaction for quantification of genetically modified organisms

Droplet digital PCR for routine analysis of genetically modified foods (GMO) – A comparison with real-time quantitative PCR

Development of an event-specific Real-time PCR detection method for the transgenic Bt rice line KMD1

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