Nine polyphenols in the aerial parts of Mentha longifolia have been separated by chromatographic techniques. Their structures have been confirmed by HPLC/electrospray ionization-MS/MS. The compounds identified included rosmarinic acid, salvianolic acid L, dedihydro–salvianolic acid, luteolin–glucuronide, luteolin–diglucuronide, luteolin–glucopyranosyl–rhamnopyranoside, and eriodictyol–glucopyranosyl–rhamnopyranoside. The extracts of M. longifolia and M. piperita field plants, in vitro plants, callus tissues, and cell suspension cultures were profiled, and their polyphenol composition was compared in different tissues and quantified using ultra-performance column liquid chromatography (UPLC)/triple-quadrupole-MS in the selected-ion recording detection mode. Determination of desired compounds was based on calibration curves obtained for standards, which were previously isolated from M. longifolia aerial parts. The UPLC profiles revealed considerable differences in the synthesis of secondary metabolites among samples coming from field plants, in vitro plants, callus tissues, and cell suspension cultures. Plant tissues coming from field cultivation (for both M. piperita and M. longifolia) contained several phenolic compounds (flavonoids and phenolic acids), whereas plants from in vitro conditions, callus tissues, and suspension cultures contained only a few of them. Rosmarinic acid dominated in all of these samples. These results show that under in vitro conditions, the metabolism of phenolics undergoes a fundamental change.
The effects of two elicitors: jasmonic acid and methyl jasmonate on cell growth as well as on rosmarinic acid accumulation in cell suspension cultures of Mentha 9 piperita were investigated. The highest rosmarinic acid accumulation 117.95 mg g -1 DW (12% DW) was measured 24 h after addition of 100 lM methyl jasmonate. A similar concentration 110.12 mg g -1 DW was detected 48 h after application of 200 lM jasmonic acid. Those values were nearly 1.5 times higher compared to the control sample, without elicitation. There was no substantial influence of elicitors on rosmarinic acid secretion into the culture media. Extracellular concentrations of rosmarinic acid were similar to the values from the control variants. It was documented that suspension cultures of M. piperita treated with elicitors showed a decrease in biomass accumulation when compared to the control.
Roots and leaves of Carlina acaulis L. are still used in ethnomedicine in many European countries; however, the limited occurrence of the plants and protection of this species necessitate a search for alternative ways for obtaining this plant material. In this study, in vitro cultures, hydroponic cultures, and field cultivation were applied to obtain the C. acaulis plant material. Its quality was evaluated using antioxidant activity tests and high performance liquid chromatography analysis. Our study showed that the antioxidant activity and the content of chlorogenic and 3,5-di-caffeoylquinic acid in roots of plants cultivated in hydroponics and field conditions were comparable. However, the amount of carlina oxide was significantly higher in plants from the field. The flavonoid content in leaves obtained from both cultivation systems was at the same level; however, the antioxidant activity and the content of the investigated metabolites were higher in the soil cultivation system. The callus line exhibited high differentiation in phytochemical compositions depending on the treatments and medium compositions.
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