Genetic diversity and chemical variability of Lippia spp. (Verbenaceae)

• Main Authors: Milene C. Almeida, Ediedia S. Pina, Camila Hernandes, Sonia M. Zingaretti, Silvia H. Taleb-Contini, Fátima R. G. Salimena, Svetoslav N. Slavov, Simone K. Haddad, Suzelei C. França, Ana M. S. Pereira, Bianca W. Bertoni
• Format: Article
• Language: English
• Published: BMC 2018-10-01
• Series: BMC Research Notes
• Subjects: Lippia origanoides; Phytomedicine; AFLP; ITS2; CG/MS; Phylogenetic relationships
• Online Access: http://link.springer.com/article/10.1186/s13104-018-3839-y

Abstract Background The genus Lippia comprises 150 species, most of which have interesting medicinal properties. Lippia sidoides (syn. L. origanoides) exhibits strong antimicrobial activity and is included in the phytotherapy program implemented by the Brazilian Ministry of Health. Since species of Lippia are morphologically very similar, conventional taxonomic methods are sometimes insufficient for the unambiguous identification of plant material that is required for the production of certified phytomedicines. Therefore, genetic and chemical analysis with chemotype identification will contribute to a better characterization of Lippia species. Methods Amplified Length Polymorphism and Internal Transcribed Spacer molecular markers were applied to determine the plants’ genetic variability, and the chemical variability of Lippia spp. was determined by essential oil composition. Results Amplified Length Polymorphism markers were efficient in demonstrating the intra and inter-specific genetic variability of the genus and in separating the species L. alba, L. lupulina and L. origanoides into distinct groups. Phylogenetic analysis using Amplified Length Polymorphism and markers produced similar results and confirmed that L. alba and L. lupulina shared a common ancestor that differ from L. origanoides. Carvacrol, endo-fenchol and thymol were the most relevant chemical descriptors. Conclusion Based on the phylogenetic analysis it is proposed that L. grata should be grouped within L. origanoides due to its significant genetic similarity. Although Amplified Length Polymorphism and Internal Transcribed Spacer markers enabled the differentiation of individuals, the genotype selection for the production of certified phytomedicines must also consider the chemotype classification that reflects their real medicinal properties.