Results 131 to 140 of about 2,476 (180)
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Assessment of Cu accumulation in Lepidium sativum L.
SSRN Electronic Journal, 2021The aim of the current study is to evaluate Cu accumulation levels in Lepidium sativum L. growing in different media, as -1 distilled water (DW)with +125 and +250 mg. l added copper ions, and purified industrial wastewater (PIWW), with the same 2+ concentrations of copper ions in addition.
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Seven imidazole alkaloids from Lepidium sativum
Phytochemistry, 1998The seeds of Lepidium sativum afforded five new dimeric imidazole alkaloids lepidine B, C, D, E and F in addition to the known imidazole alkaloid lepidine and two new monomeric imidazole alkaloids semilepidinoside A and B. Their structure were elucidated on the basis of spectroscopic evidence.
Ulrich H., Maier +2 more
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Phenolic compounds from Lepidium sativum
Chemistry of Natural Compounds, 2007Lepidium sativum L. (Brassicaceae), garden cress or pepper grass, is the source of valuable biologically active compounds [1]. It is used in folk medicine for cancer, uterine tumors, polyps, and other neoplasms. It is used in medicine as the alcoholic tincture, which possesses sedative and anticonvulsive activity [2]. Herein we communicate results from
T. V. Orlovskaya, V. A. Chelombit’ko
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Flavonoid glycosides in Lepidium sativum seeds and their bioactivities
PhytochemistryTwelve flavonoid glycosides including five undescribed ones, lepisativutimines Q-U, were isolated and identified from Lepidium sativum seeds. Acid hydrolysis followed by acetic derivatization and GC analysis were conducted to determine the absolute configurations for sugars.
Yergazy Shybyray +4 more
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EDTA and urease effects on Hg accumulation by Lepidium sativum
Chemosphere, 2007The phytoextraction process was conducted under laboratory conditions with the use of garden cress plants (Lepidium sativum). The experiment was carried out in a model soil, which was characterized before conducting the process. Inorganic forms of mercury (HgCl(2), HgSO(4), Hg(NO(3))(2)) were used for contamination of the soil.
Beata, Smolińska, Krystyna, Cedzyńska
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Samenöl von Lepidium sativum L.
Zeitschrift für Lebensmittel-Untersuchung und -Forschung, 1973Das Samenol vonLepidium sativum L. (Gartenkresse) ist ein typisches Cruciferenol, da es Erucasaure als Komponente enthalt, wenn auch nur in geringem Mase. Der Gehalt an Linolensaure ist ziemlich hoch. Nach Raffination kann es als Speiseol verwendet werden. Daneben eignet es sich als Rohmaterial fur die Herstellung von Anstrichmitteln und Schmierseifen.
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Glucosinolate hydrolysis in Lepidium sativum––identification of the thiocyanate-forming protein
Plant Molecular Biology, 2006Glucosinolates are a class of thioglycosides found predominantly in plants of the order Brassicales whose function in anti-herbivore defense has been attributed to the products formed by myrosinase-catalyzed hydrolysis upon plant tissue damage. The most common type of hydrolysis products, the isothiocyanates, are toxic to a wide range of organisms ...
Burow, M. +3 more
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Cress seed (Lepidium sativum) mucilage, an overview
Bioactive Carbohydrates and Dietary Fibre, 2014Cress seed mucilage (Lepidium sativum L.), which is used in pharmaceuticals, has attained increased significance in the growing trend towards using natural ingredients. The physicochemical, pharmacological, functional and textural properties are here reviewed, along with its potential as a pharmaceutical excipient, herbal drug, and food ingredient ...
Fataneh Behrouzian +2 more
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Proximate analysis of Lepidium sativum leaves
ChemSearch Journal, 2015Proximate analysis of Lepidium Sativum leaves was carried out. The leaves were analyzed using standard procedures and the following results were obtained; moisture (81.85±0.85%), crude protein (5.82±0.07%), fiber (8.69±0.01%), and appreciable percentage of lipid (1.01±0.01%), Ash (3.25±0.03%) and Carbohydrate (8.08±0.02%).
Umar, A, Jimoh, WLO, Garba, MD
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