The molecular approach of DNA barcoding for the characterization and traceability of food products has come into common use in many European countries. However, it is important to address and solve technical and scientific issues such as the efficiency of the barcode sequences and DNA extraction methods to be able to analyze all the products that the food sector offers. The goal of this study is to collect the most defrauded and common food products and identify better workflows for species identification. A total of 212 specimens were collected in collaboration with 38 companies belonging to 5 different fields: seafood, botanicals, agrifood, spices, and probiotics. For all the typologies of specimens, the most suitable workflow was defined, and three species-specific primer pairs for fish were also designed. Results showed that 21.2% of the analyzed products were defrauded. A total of 88.2% of specimens were correctly identified by DNA barcoding analysis. Botanicals (28.8%) have the highest number of non-conformances, followed by spices (28.5%), agrifood (23.5%), seafood (11.4%), and probiotics (7.7%). DNA barcoding and mini-barcoding are confirmed as fast and reliable methods for ensuring quality and safety in the food field.

Gorini, T., Mezzasalma, V., Deligia, M., De Mattia, F., Campone, L., Labra, M., et al. (2023). Check Your Shopping Cart: DNA Barcoding and Mini-Barcoding for Food Authentication. FOODS, 12(12) [10.3390/foods12122392].

Check Your Shopping Cart: DNA Barcoding and Mini-Barcoding for Food Authentication

Gorini T.;Mezzasalma V.;De Mattia F.;Campone L.;Labra M.;Frigerio J.
2023

Abstract

The molecular approach of DNA barcoding for the characterization and traceability of food products has come into common use in many European countries. However, it is important to address and solve technical and scientific issues such as the efficiency of the barcode sequences and DNA extraction methods to be able to analyze all the products that the food sector offers. The goal of this study is to collect the most defrauded and common food products and identify better workflows for species identification. A total of 212 specimens were collected in collaboration with 38 companies belonging to 5 different fields: seafood, botanicals, agrifood, spices, and probiotics. For all the typologies of specimens, the most suitable workflow was defined, and three species-specific primer pairs for fish were also designed. Results showed that 21.2% of the analyzed products were defrauded. A total of 88.2% of specimens were correctly identified by DNA barcoding analysis. Botanicals (28.8%) have the highest number of non-conformances, followed by spices (28.5%), agrifood (23.5%), seafood (11.4%), and probiotics (7.7%). DNA barcoding and mini-barcoding are confirmed as fast and reliable methods for ensuring quality and safety in the food field.
Articolo in rivista - Articolo scientifico
DNA barcoding; food fraud; food quality; food safety; food supply chain; species identification;
English
16-giu-2023
2023
12
12
2392
open
Gorini, T., Mezzasalma, V., Deligia, M., De Mattia, F., Campone, L., Labra, M., et al. (2023). Check Your Shopping Cart: DNA Barcoding and Mini-Barcoding for Food Authentication. FOODS, 12(12) [10.3390/foods12122392].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/444038
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