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Book
Current Medicinal Chemistry, ISSN 0929-8673, 01/2006, Volume 13, Issue 2, pp. 199 - 222
Journal Article
Journal Article
Food Chemistry, ISSN 0308-8146, 02/2014, Volume 145, pp. 1031 - 1038
This work aimed to assess the richness of the food halophytes and on phenolics and essential oils (EOs) and to evaluate the antioxidant and antibacterial... 
Antioxidant activities | Antibacterial activities | Food halophytes | Essential oils | Phenolics | GC–GC/MS | Climate | Antioxidants - chemistry | Oils, Volatile - chemistry | Gram-Positive Bacteria - drug effects | Plant Extracts - pharmacology | Solvents - chemistry | Antioxidants - metabolism | Estuaries | Tannins - biosynthesis | Oils, Volatile - pharmacology | Iron Chelating Agents - metabolism | Inula - growth & development | Tannins - analysis | Polyphenols - biosynthesis | Apiaceae - chemistry | Plant Components, Aerial - growth & development | Phenols - pharmacology | Anti-Bacterial Agents - analysis | Iron Chelating Agents - analysis | Gram-Negative Bacteria - drug effects | Plant Components, Aerial - metabolism | Ethnopharmacology | Phenols - analysis | Tannins - pharmacology | Polyphenols - analysis | Polyphenols - chemistry | Monoterpenes - metabolism | Monoterpenes - analysis | Phenols - chemistry | Anti-Bacterial Agents - biosynthesis | Anti-Bacterial Agents - pharmacology | Plant Extracts - chemistry | Polyphenols - pharmacology | Tannins - chemistry | Iron Chelating Agents - chemistry | Apiaceae - growth & development | Monoterpenes - pharmacology | Anti-Bacterial Agents - chemistry | Inula - metabolism | Gram-Positive Bacteria - growth & development | Antioxidants - analysis | Tunisia | Acetone - chemistry | Inula - chemistry | Reproducibility of Results | Plant Components, Aerial - chemistry | Antioxidants - pharmacology | Phenols - metabolism | Iron Chelating Agents - pharmacology | Gram-Negative Bacteria - growth & development | Monoterpenes - chemistry | Apiaceae - metabolism | Dietary Supplements
Journal Article
Molecules, ISSN 1420-3049, 06/2017, Volume 22, Issue 6, p. 935
A new ferulic acid ester named 4-methyl-3-trans-hexenylferulate (1), together with eight known phenolic acid esters (2-9), was isolated from the methanolic... 
4-Methyl-3-trans-hexenylferulate | Phenolic acid esters | 4-Methoxyphenethylferulate | Nitric oxide | Notopterygium incisum | Human intestinal Caco-2 cell | RAW 264.7 macrophage cell | phenolic acid esters | nitric oxide | NO PRODUCTION | BIOCHEMISTRY & MOLECULAR BIOLOGY | 4-methoxyphenethylferulate | CHEMISTRY, MULTIDISCIPLINARY | COUMARINS | POLYACETYLENES | SEEDS | GUIDED ISOLATION | NITRIC-OXIDE PRODUCTION | INHIBITION | FERULIC ACID | 4-methyl-3-trans-hexenylferulate | human intestinal Caco-2 cell | Plant Extracts - chemistry | Coumaric Acids - chemistry | Plant Extracts - pharmacology | Absorption, Physiological | Humans | Anti-Inflammatory Agents, Non-Steroidal - chemistry | Esters | Anti-Inflammatory Agents, Non-Steroidal - isolation & purification | Anti-Inflammatory Agents, Non-Steroidal - pharmacology | Hydroxybenzoates - pharmacology | Rhizome - chemistry | Hydroxybenzoates - chemistry | Apiaceae - chemistry | Anti-Inflammatory Agents, Non-Steroidal - metabolism | Caco-2 Cells | Hydroxybenzoates - metabolism | Coumaric Acids - metabolism | Plant Extracts - isolation & purification | Macrophage Activation | Hydroxybenzoates - isolation & purification | Macrophages - metabolism | Coumaric Acids - isolation & purification | Plant Roots - chemistry | Macrophages - drug effects | Lipopolysaccharides - chemistry | Nitric Oxide - metabolism | Coumaric Acids - pharmacology | Antiinflammatory agents | Roots | Membrane permeability | Mass spectroscopy | Inflammation | Bioavailability | Macrophages | Ferulic acid | Lipopolysaccharides | Magnetic resonance spectroscopy | Rhizomes | Acids | Lysine | Intestine | Monolayers | Phenols | NMR spectroscopy | Mass spectrometry
Journal Article
Journal of Photochemistry & Photobiology, B: Biology, ISSN 1011-1344, 08/2019, Volume 197, pp. 111556 - 111556
Facile green synthesis of copper nanoparticles from different biological procedures has been indicated, but among all, biosynthesis of copper nanoparticles... 
Antimicrobial | Cytotoxicity | Falcaria vulgaris leaf | Antioxidant | Copper nanoparticles | Cutaneous wound | CELLS | ACID | BIOCHEMISTRY & MOLECULAR BIOLOGY | LEAVES | NANOMATERIALS | GREEN | SILVER NANOPARTICLES | BIOPHYSICS | Human Umbilical Vein Endothelial Cells | Plant Extracts - chemistry | Antioxidants - chemistry | Gram-Positive Bacteria - drug effects | Humans | Male | Antifungal Agents - chemical synthesis | Antifungal Agents - chemistry | Microbial Sensitivity Tests | Copper - chemistry | Anti-Bacterial Agents - chemistry | Apiaceae - chemistry | Wound Healing - drug effects | Skin - pathology | Antifungal Agents - pharmacology | Plant Leaves - chemistry | Cell Survival - drug effects | Green Chemistry Technology | Metal Nanoparticles - chemistry | Rats | Anti-Bacterial Agents - chemical synthesis | Gram-Negative Bacteria - drug effects | Metal Nanoparticles - toxicity | Animals | Plant Leaves - metabolism | Anti-Bacterial Agents - pharmacology | Candida - drug effects | Apiaceae - metabolism | Skin - drug effects | Infrared spectroscopy | Fourier transforms | Fungicides | Toxicity | Emission analysis | X-ray diffraction | Proline | Clinical trials | Iron | Biosynthesis | Nanoparticles | Antioxidants | Fungi | Leaves | Lymphocytes | Spectrum analysis | Turbidity | Biocompatibility | Inhibition | Copper | Medicinal plants | Scanning electron microscopy | Plants (botany) | Wound healing | Agar | Blood vessels | Field emission microscopy | Dextrose | Endothelial cells | Plant extracts | Herbal medicine | Dilution | Transmission electron microscopy | Butylated hydroxytoluene | Minimum inhibitory concentration | In vivo methods and tests | Umbilical vein | Viability | Index Medicus
Journal Article