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2021

Drosera rotundifolia L. is a carnivorous plant used in traditional medicine for its therapeutic properties. Because of its small size, its collection in nature is laborious and different cultivation methods have been studied to ensure availability. However, only a few studies exist where the lab-grown sundew tissue and field-grown sundew would have been compared in their functionality or metabolic profiles. In this study, the antioxidant and antiviral activities of lab-grown and field-grown sundew extracts and their metabolic profiles are examined. The effect of drying methods on the chromatographic profile of the extracts is also shown. Antioxidant activity was significantly higher (5–6 ti…

Antioxidantmedicine.medical_treatmentMetabolitePharmaceutical ScienceSecondary metabolite01 natural sciencesAnalytical Chemistry03 medical and health scienceschemistry.chemical_compoundDrug DiscoverymedicineViability assayFood sciencePhysical and Theoretical Chemistry030304 developmental biology0303 health sciencesCarnivorous plantbiologyChemistry010401 analytical chemistryOrganic Chemistrybiology.organism_classificationIn vitro0104 chemical sciencesDrosera rotundifoliaChemistry (miscellaneous)Molecular MedicineComposition (visual arts)medicine.drugMolecules

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Field-Grown and In Vitro Propagated Round-Leaved Sundew (Drosera rotundifolia L.) Show Differences in Metabolic Profiles and Biological Activities

2021

Drosera rotundifolia L. is a carnivorous plant used in traditional medicine for its therapeutic properties. Because of its small size, its collection in nature is laborious and different cultivation methods have been studied to ensure availability. However, only a few studies exist where the lab-grown sundew tissue and field-grown sundew would have been compared in their functionality or metabolic profiles. In this study, the antioxidant and antiviral activities of lab-grown and field-grown sundew extracts and their metabolic profiles are examined. The effect of drying methods on the chromatographic profile of the extracts is also shown. Antioxidant activity was significantly higher (5–6 ti…

antioksidantitantimikrobiset yhdisteetPlant Extractssecondary metabolitesOrganic chemistrylihansyöjäkasvitphenolic compoundsfenoliset yhdisteetIn Vitro TechniquesluonnonaineetAntiviral AgentsDroseraArticleCell LinePlant Leavesantiviral propertiesQD241-441antioxidantsA549 CellsMetabolomeHumansDrosera rotundifolia<i>Drosera rotundifolia</i>Cell ProliferationMolecules

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The contribution of insect prey to the total nitrogen content of sundews (Drosera spp.) determined in situ by stable isotope analysis.

2003

Summary • The contribution of insect prey to total N in the carnivorous plants, Drosera rotundifolia and D. intermedia , was quantified in situ and without any experimental manipulation using natural abundance stable isotope analysis. • Samples of D. rotundifolia and D. intermedia , insects and noncarnivorous reference plants were collected from three contrasting locations across Britain. The proportion of Drosera nitrogen obtained from insect prey was calculated by a mixing model using δ 15 N values from the different plant groups. • The mean proportion of Drosera N derived from prey was 50%. There were significant differences in this proportion between sites, and significant differences w…

Carnivorous plantbiologyDroseraPhysiologyfungifood and beveragesPlant Sciencebiology.organism_classificationIsotopes of nitrogenPredationDrosera rotundifoliaDrosera intermediaBotanybehavior and behavior mechanismsDroseraceaeIsotope analysisThe New phytologistReferences

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Search results for "Drosera rotundifolia"

2021

Field-Grown and In Vitro Propagated Round-Leaved Sundew (Drosera rotundifolia L.) Show Differences in Metabolic Profiles and Biological Activities

2021

The contribution of insect prey to the total nitrogen content of sundews (Drosera spp.) determined in situ by stable isotope analysis.

2003