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Selected Publication:

Type of publication: Journal Article
Type of document: Full Paper

Year: 2016

Authors: Ruzicka, J; Schmiderer, C; Novak, J

Title: DNA-Based Identification of Valeriana officinalis s.l.: a Multiplexed Amplification Refractory Mutation System (MARMS) and High Resolution Melting Curve Analysis (HRMA).

Source: Plant Molecular Biology Reporter 2016; 34: 909-922

Authors Vetmeduni Vienna:

Novak Johannes
Ruzicka Joana
Schmiderer Corinna

Vetmed Research Units
Institute of Animal Nutrition and Functional Plant Compounds

Project(s): PLANT food supplements: Levels of Intake, Benefit and Risk Assessment

The wide distribution of Valeriana officinalis as a herbal remedy as well as the considerably higher concentration of putative mutagenic valepotriate metabolites in other drug-delivering valerian species like Valeriana procera Kunth and Valeriana jatamansi Jones ex Roxb. illustrate the necessity of secure authentication of roots of Valeriana officinalis s.l., especially as the morphologically similar roots of the acutely toxic Veratrum album can be mistaken for those of Valeriana officinalis. We developed two DNA-based systems, a multiplex amplification refractory mutation system (MARMS), and a high-resolution melting curve analysis (HRMA) assay, both based on a sequence mutation within the atpB-rbcL region. With both methods, identification of Valeriana officinalis s.l. was possible. With the HRMA, the characteristic melting curve of 33 samples of Valeriana officinalis s.l. and of two commercial samples of Valerianae radix was distinct from the melting curves of all other Valeriana species (60 accessions), and from the closely related genera Centranthus and Valerianella. Since adulteration of Valeriana with toxic Veratrum species was reported previously, Veratrum primers were included in a multiplex PCR-HRM analysis. This system allowed the detection of a Veratrum admixture down to the level of 0.01 %. Although the advantages, in terms of sensitivity, specificity and practicality of the HRM for analysis of degraded plant material were superior to the MARMS assay, both methods are suitable for routine analysis. The results demonstrated the general ability of HRMA to detect specific (toxic) adulterations in drugs in a semiquantitative way.

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