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.

Development of new natural extracts.

For over the past 20 years, a remarkable development in the study and search of natural products has been observed. This is linked to a new market trend towards ecology and also due to new regulations. This could be a rupture, but also a real booster for creativity. Usually, in the flavor and fragrance field, creativity was boosted by the arrival of new synthetic molecules. Naturals remained the traditional, century-old products, protected by secrecy and specific know-how from each company. Regulatory restrictions or eco-friendly certification constraints like hexane-free processes triggered an important brainstorming in the industry. As a result, we developed new eco-friendly processes including supercritical CO2 extraction, allowing fresh plants to be used to obtain industrial flower extracts (Jasmine Grandiflorum, Jasmine Sambac, Orange blossom). These extracts are analyzed by GC, GC/MS, GCO, and HPTLC techniques. New or unusual raw materials can also be explored, but the resulting extracts have to be tested for safety reasons. Some examples are described.

Necrodane monoterpenoids from Lavandula luisieri.

Four new irregular monoterpenoids were identified in the essential oil of Lavandula luisieri (Rozeira) Riv. Mart., a Labiatae endemic to the Iberian Peninsula. By means of spectroscopic and chemical methods, they were characterised as 3,5-dimethylene-1,4,4-trimethylcyclopentene, 5-methylene-2,3,4,4-tetramethylcyclopent-2-enone, 3,4,5,5-tetramethylcyclopenta-1,3-dienecarboxaldehyde and 3,4,5,5-tetramethylcyclopenta-1,3-dienecarboxylic acid. L. luisieri essential oil and extract showed a good activity against Candida albicans and gram positive bacteria: Staphylococcus aureus, S. epidermidis and S. pyogenes.

The fellowship of natural abundance 2H-isotopomers of monoterpenes.

Site-specific natural abundance hydrogen isotope ratios have been measured by deuterium-NMR in a wide variety of monoterpenes from numerous kinds of plants grown in different environments. Once the NMR signals have been assigned to the whole sets of isotopomers in the different molecules and schemes of connections to the parent isotopomers in the geranyl diphosphate (GPP) precursor have been defined, a very consistent set of isotopic profiles is evidenced. The results, which are incompatible with the mevalonate pathway, can be satisfactorily interpreted by considering the deoxyxylulose pathway (DOXP), which is now recognized as the usual route for monoterpene biosynthesis in plants. Strong deuterium depletion at ex-site 2 of GPP, accompanied by high isotope ratio values at site ex-6, are consistent with synthesis of GPP from isopentenyl diphosphate (IPP) and dimethylallyl diphosphate (DMAPP) molecules independently produced by the DOXP pathway. However, for a given molecular species, significant differences are observed as a function of the plant source, in particular at site ex-6 of GPP. Thus, monoterpenes from plants with a C3 metabolism are mostly characterized by relatively high values of (D/H)6, whereas C4 plants tend to show much lower values. This behavior may be attributed to more or less significant contributions of GPP resulting from the condensation of IPP with DMAPP produced by isomerization. The isotopic profile therefore enables the role of physiological and environmental factors on the relative importance of the "independent" and "isomerized" model to be estimated. More generally, isotope ratios at individual sites in geraniol can be traced back to the corresponding sites in GPP, then to sites of the IPP and DMAPP building blocks, then to the pyruvate and glyceraldehyde 3-phosphate DOXP active molecules, and finally to the carbohydrate photosynthetic precursor. Furthermore, the methylenic hydrogen atoms, which are enantiotopic in geraniol, become diastereotopic in chiral, and more specially in cyclic, monoterpenes. This provides an isotopic verification for the complete stereochemical chain of affiliation, and a way of estimating enantiomeric purity and whether intermolecular exchanges have taken place.