Medicinal plants have been widely used in traditional medicine due to their therapeutic properties. Although they are mostly used as herbal infusion and tincture, employment as ingredients of food supplements is increasing. However, fraud and adulteration are widespread issues. In our study, we aimed at evaluating DNA metabarcoding as a tool to identify product composition. In order to accomplish this, we analyzed fifteen commercial products with DNA metabarcoding, using two barcode regions: psbA‐trnH and ITS2. Results showed that on average, 70% (44–100) of the declared ingredients have been identified. The ITS2 marker appears to identify more species (n = 60) than psbA‐trnH (n = 35), with an ingredients’ identification rate of 52% versus 45%, respectively. Some species are identified only by one marker rather than the other. Additionally, in order to evaluate the quantitative ability of high‐throughput sequencing (HTS) to compare the plant component to the corresponding assigned sequences, in the laboratory, we created six mock mixtures of plants starting both from biomass and gDNA. Our analysis also supports the application of DNA metabarcoding for a relative quantitative analysis. These results move towards the application of HTS analysis for studying the composition of herbal teas for medicinal plants’ traceability and quality control.

Frigerio, J., Agostinetto, G., Mezzasalma, V., De Mattia, F., Labra, M., Bruno, A. (2021). Dna‐based herbal teas’ authentication: An its2 and psba‐trnh multi‐marker dna metabarcoding approach. PLANTS, 10(10) [10.3390/plants10102120].

Dna‐based herbal teas’ authentication: An its2 and psba‐trnh multi‐marker dna metabarcoding approach

Frigerio J.
Primo
;
Agostinetto G.
Secondo
;
Mezzasalma V.;De Mattia F.;Labra M.
Penultimo
;
Bruno A.
Ultimo
2021

Abstract

Medicinal plants have been widely used in traditional medicine due to their therapeutic properties. Although they are mostly used as herbal infusion and tincture, employment as ingredients of food supplements is increasing. However, fraud and adulteration are widespread issues. In our study, we aimed at evaluating DNA metabarcoding as a tool to identify product composition. In order to accomplish this, we analyzed fifteen commercial products with DNA metabarcoding, using two barcode regions: psbA‐trnH and ITS2. Results showed that on average, 70% (44–100) of the declared ingredients have been identified. The ITS2 marker appears to identify more species (n = 60) than psbA‐trnH (n = 35), with an ingredients’ identification rate of 52% versus 45%, respectively. Some species are identified only by one marker rather than the other. Additionally, in order to evaluate the quantitative ability of high‐throughput sequencing (HTS) to compare the plant component to the corresponding assigned sequences, in the laboratory, we created six mock mixtures of plants starting both from biomass and gDNA. Our analysis also supports the application of DNA metabarcoding for a relative quantitative analysis. These results move towards the application of HTS analysis for studying the composition of herbal teas for medicinal plants’ traceability and quality control.
Articolo in rivista - Articolo scientifico
DNA barcoding; DNA metabarcoding; Food fraud; Herbal teas; HTS; ITS2; PsbA‐trnH;
English
6-ott-2021
2021
10
10
2120
open
Frigerio, J., Agostinetto, G., Mezzasalma, V., De Mattia, F., Labra, M., Bruno, A. (2021). Dna‐based herbal teas’ authentication: An its2 and psba‐trnh multi‐marker dna metabarcoding approach. PLANTS, 10(10) [10.3390/plants10102120].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/333137
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