Combining DNA Barcoding and Chemical fingerprints to authenticate Lavender raw material.

OBJECTIVE: This study was initiated and conducted by several laboratories, 3 of the main cosmetic ingredient suppliers and 4 brands of cosmetics in France. Its objective is to show the interest and robustness of coupling chemical and genetic analyses in the identification of plant species. In this study, the Lavandula genus was used. METHODS: In this study, we used two analytical methods. Chemical analysis from UHPLC (ultra-high-performance liquid chromatography) and genetic analysis from barcoding with genetic markers. RESULTS: Eleven lavender species were selected (botanically authenticated) and analysed. The results show that three chemical compounds (coumaric acid hexoside, ferulic acid hexoside and rosmarinic acid) and three genetic markers (RbcL, trnH-psbA and ITS) are of interest for the differentiation of species of the genus lavandula. CONCLUSION: The results show that the combination of complementary analytical methods is a relevant system to prove the botanical identification of lavender species. This first study, carried out on a plant of interest for cosmetics, demonstrates the need for authentication using a tool combining genetic and chemical analysis as an advance over traditional investigation methods used alone, in terms of identification and authentication reliability.

OBJECTIF: Cette étude a été lancée et menée par plusieurs laboratoires, trois des principaux fournisseurs d'ingrédients cosmétiques et quatre marques de cosmétiques en France. Son objectif est de montrer qu'associer les analyses chimiques et génétiques dans l'identification des espèces végétales présente un intérêt et est une approche solide. Dans cette étude, c'est le genre Lavandula qui a été utilisé. MÉTHODES: Dans cette étude, nous avons fait appel à deux méthodes analytiques. L'analyse chimique, à partir de la chromatographie en phase liquide à haute performance (ultra-high-performance liquid chromatography, UHPLC), et l'analyse génétique en procédant à un codage à barres avec des marqueurs génétiques. RÉSULTATS: Onze espèces de lavande ont été sélectionnées (authentifiées du point de vue botanique) et analysées. Les résultats montrent que trois composés chimiques (acide coumarique hexoside, acide ferulique hexoside et acide rosmarinique) et trois marqueurs génétiques (RbcL, trnH-psbA et ITS) présentent un intérêt pour la différenciation des espèces du genre lavandula. CONCLUSION: Les résultats montrent que la combinaison de méthodes analytiques complémentaires est un système pertinent pour prouver l'identification végétale des espèces de lavande. Cette première étude, réalisée sur une plante qui offre un intérêt pour les cosmétiques, démontre la nécessité de procéder à une authentification à l'aide d'un outil qui conjugue analyse génétique et chimique ; elle représente une avancée par rapport aux méthodes d'investigation traditionnelles utilisées seules, en termes d'identification et de fiabilité de l'authentification.

Study of Some Zanthoxylum Species by Chemical and DNA Analysis Approaches.

The authentication and traceability of spices is a major concern for industrials and consumers. We focused on species from Zanthoxylum genera which are used for many different applications by local populations and also for trading as spices (dried pericarps or whole fruits). In this case, literature gives contradictory data about botanical names, and commercial labelling is often confusing. We studied commercial fruits pericarps extracts obtained by supercritical CO2 and analyzed them by GC/MS. The very complex volatile and semi volatile fractions composition of each extract is described. The barcoding method including molecular biology and phylogenetic analyses was also developed in order to check the commercial botanical identification of the raw material. This is a robust method to identify species in berries samples. We used one genetic marker to identify two Rutaceae clusters, including several species of Zanthoxylum genus. These results indicate that Fagara and Zanthoxylum groups could be considered as two different genera. Combination of chemical analysis and DNA analysis provides an original approach to increase chemical and botanical Zanthoxylum genus knowledge.

Cytokinin signalling inhibitory fields provide robustness to phyllotaxis.

How biological systems generate reproducible patterns with high precision is a central question in science. The shoot apical meristem (SAM), a specialized tissue producing plant aerial organs, is a developmental system of choice to address this question. Organs are periodically initiated at the SAM at specific spatial positions and this spatiotemporal pattern defines phyllotaxis. Accumulation of the plant hormone auxin triggers organ initiation, whereas auxin depletion around organs generates inhibitory fields that are thought to be sufficient to maintain these patterns and their dynamics. Here we show that another type of hormone-based inhibitory fields, generated directly downstream of auxin by intercellular movement of the cytokinin signalling inhibitor ARABIDOPSIS HISTIDINE PHOSPHOTRANSFER PROTEIN 6 (AHP6), is involved in regulating phyllotactic patterns. We demonstrate that AHP6-based fields establish patterns of cytokinin signalling in the meristem that contribute to the robustness of phyllotaxis by imposing a temporal sequence on organ initiation. Our findings indicate that not one but two distinct hormone-based fields may be required for achieving temporal precision during formation of reiterative structures at the SAM, thus indicating an original mechanism for providing robustness to a dynamic developmental system.