Are antimicrobial resistance genes key targets to detect genetically modified microorganisms in fermentation products?

As genetically modified microorganisms (GMM), commonly used by the food and feed industry to produce additives, enzymes and flavourings, are frequently harbouring antimicrobial resistance (AMR) genes as selection markers, health and environmental concerns were consequently raised. For this reason, the interest of the competent authorities to control such microbial fermentation products has strongly increased, especially since several recent accidental contaminations of unauthorized GMM, or associated recombinant DNA, in bacterial fermentation products intended for the European food and feed chain. However, no global screening strategy is currently available in enforcement laboratories to assess the presence of GMM harbouring AMR genes and/or the presence of full-length AMR genes. Moreover, the confidentiality of the related GMM dossiers strongly hampers the development of methods to perform such control. To overcome this issue, an analysis of related publicly available patents was performed in this study to identify all reported AMR genes. On this basis, the aminoglycoside adenyltransferase (aadD) gene, conferring a resistance to both kanamycin and neomycin, was identified as a key target to cover a large spectrum of GM bacteria. A real-time PCR method to screen for its potential presence as well as a nested-PCR method associated with a sequencing analysis to assess its full-length were developed to target this aadD gene. The performance of these new methods were successfully evaluated in terms of specificity, sensitivity and applicability, allowing their easy implementation in enforcement laboratories. Moreover, the integration of these newly developed methods to our very recently proposed strategy, initially targeting GMM carrying a chloramphenicol resistance gene, allows to drastically increase the detection spectrum of GM bacteria producing fermentation food and feed products. The data generated by the proposed strategy represents therefore a crucial support for the competent authorities, especially to evaluate potential risks for the food and feed safety. •GMM, or its DNA, carrying AMR genes were found in bacterial fermentation products.•The presence of AMR genes in food/feed products is an important health concern.•Related patents were analysed to identify AMR genes commonly used in GMM.•For the most frequent AMR gene, a real-time PCR and a nested-PCR were developed.•Its full-length presence is assessed by this strategy to highlight potential risks.