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Article Abstract
Morphological and biochemical responses of feverfew plants exposed to low (5 μM) and high (35 and 70 μM) levels of Cd or Cu were investigated. Increasing metal supply notably reduced the plant biomass. Elevated Cd and Cu levels also resulted in an increase in the leaf proline content. Besides, decrease in ascorbic acid (AsA) and glutathione (GSH) contents was similar in the leaves of Cd- and Cu-treated plants, indicating altered biosynthesis of AsA and GSH under metal excess. High metal doses stimulated increase in antioxidative enzyme activities that could be related to elevated hydrogen peroxide (HO) content and subsequent lipid peroxidation. Cd was typically more accumulated in shoots and roots than Cu, leading to higher translocation factor at high Cd doses. In terms of essential oil content, it seems that Cd had an inhibitory effect during the experiment, whereas Cu was found to stimulate it only at 5 μM. Furthermore, high Cd supply enhanced the relative proportion of monoterpene hydrocarbons, while Cu increased the proportion of sesquiterpenes, especially at 5 μM. This result provides the first evidence of the response of feverfew plants to Cd or Cu by associating stress-related responses with changes in terpenoids.
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Article Synopsis
- Feverfew, a medicinal plant from the Asteraceae family, was analyzed for its phytochemical properties and potential applications in treating skin diseases.
- The study utilized hydrodistillation and advanced methods like GC-MS and HPLC to identify key compounds, revealing high levels of polyphenols, flavonoids, and antimicrobial properties in its extracts.
- Results indicated that feverfew extracts showed strong antioxidant potential and protective effects on skin cells, highlighting its promising applications in cosmetics and pharmaceuticals.