Vanilla authenticity control by DNA barcoding and isotope data aggregation

Originating from the seedpods of orchids, Vanilla belongs to the most widely appreciated flavours worldwide. Besides the seedpods (beans) also Vanilla extracts and isolated vanillin as the major characteristic aroma compound are commercially used. Different consumer demands and national regulations...

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Bibliographic Details
Published in:Flavour and fragrance journal 2017-07, Vol.32 (4), p.228-237
Main Authors: Geißler, Katrin, Greule, Markus, Schäfer, Uwe, Hans, Joachim, Geißler, Torsten, Meier, Lars, Keppler, Frank, Krammer, Gerhard
Format: Article
Language:English
Subjects:
Agglomeration
Aroma
Aroma compounds
Authenticity
Beans
Clusters
Control methods
Curcumin
Data management
Data processing
Deoxyribonucleic acid
DNA
Eugenol
Flavors
Gene sequencing
Iodides
isotope ratio mass spectrometry
Lignin
Markets
Mass spectrometry
Mass spectroscopy
methoxy group
NMR
Nuclear magnetic resonance
Quality control
Spectroscopy
Value analysis
Vanilla
Vanillin
δ13C ratio
δ2H ratio
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Summary:Originating from the seedpods of orchids, Vanilla belongs to the most widely appreciated flavours worldwide. Besides the seedpods (beans) also Vanilla extracts and isolated vanillin as the major characteristic aroma compound are commercially used. Different consumer demands and national regulations require appropriate quality control of products arising from the Vanilla plants. Depending on the kind of product and its position in the supply or value chain, different methods for quality control and authentication have to be applied. When examining plant material for instance DNA barcoding can be used, whereas for Vanilla extracts and vanillin analytical quality control is frequently employed. As one of the first chemically synthesized flavouring substances with its first production in the late 19th century vanillin is nowadays manufactured via multiple different chemical and natural routes. To discriminate commercial vanillin qualities by their precursors with respect to the chemical and natural origin stable isotope ratio mass spectrometry (sIRMS) and 1H nuclear resonance spectroscopy (NMR) are the most recognized techniques. This article describes new features to discriminate vanillin from different origins using the δ13C and δ2H ratios of the methoxy group after derivatization with hydriodic acid and subsequent measurement of the released gaseous methyl iodide (CH3I) with sIRMS. The combination of available analytical data by means of multiparametric statistical tools allows for the clear segregation of critical provenience clusters for vanillin, such as (natural) eugenol‐derived qualities from (synthetic) lignin‐ or curcumin‐based products. The approach supports quality and authenticity control for Vanilla‐based products, aiding in meeting customer expectations in this demanding market segment. Different consumer demands and national regulations require appropriate quality control of products such as vanillin. To discriminate commercial vanillin qualities by their precursors with respect to the chemical and natural origin stable isotope ratio mass spectrometry (sIRMS) is usually applied. This article describes new features to discriminate vanillin from different origins using the δ13C and δ2H ratios of the methoxy group after derivatization with hydriodic acid and subsequent measurement of the released gaseous methyl iodide with sIRMS.
ISSN:0882-5734
1099-1026
DOI:10.1002/ffj.3379