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Functional characterization of terpene synthases and chemotypic variation in three lavender species of section Stoechas
Author(s) -
Benabdelkader Tarek,
Guitton Yann,
Pasquier Bernard,
Magnard Jean Louis,
Jullien Frédéric,
Kameli Abdelkrim,
Legendre Laurent
Publication year - 2015
Publication title -
physiologia plantarum
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.351
H-Index - 146
eISSN - 1399-3054
pISSN - 0031-9317
DOI - 10.1111/ppl.12241
Subject(s) - chemotype , camphor , lavandula , terpene , germacrene , lavender , botany , sesquiterpene , lavandula angustifolia , biology , monoterpene , essential oil , traditional medicine , biochemistry , medicine
Lavandula pedunculata (Mill.) Cav. subsp. lusitanica , Lavandula stoechas L. subsp. stoechas and Lavandula viridis l'Hér. are three lavender taxa that belong to the botanical section Stoechas and are widely used as aromatherapy, culinary herb or folk medicine in many Mediterranean regions. The analysis of their bioactive volatile constituents revealed the presence of 124 substances, the most abundant being the bicyclic monoterpenes fenchone, camphor and 1,8‐cineole that give these three species their respective chemotypes. Most noteworthy was fenchone which, with its reduced form fenchol, made 48% of the total volatile constituents of L. pedunculata while present at 2.9% in L. stoechas and undetectable in L. viridis . In order to provide a molecular explanation to the differences in volatile compounds of these three species, two monoterpene synthases ( monoTPS ) and one sesquiterpene synthase ( sesquiTPS ) were cloned in L. pedunculata and functionally characterized as fenchol synthase ( Lp FENS), α‐pinene synthase ( Lp PINS) and germacrene A synthase ( Lp GEAS). The two other lavender species contained a single orthologous gene for each of these three classes of TPS with similar enzyme product specificities. Expression profiles of FENS and PINS genes matched the accumulation profile of the enzyme products unlike GEAS . This study provides one of the rare documented cases of chemotype modification during plant speciation via changes in the level of plant TPS gene expression, and not functionality.