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Turmeric has been used as a medicine, a condiment, and a dye since at least 600 B.C., while ginger has been used extensively throughout history for its medicinal purposes. The Agronomy and Economy of Turmeric and Ginger brings these two important plants together in one reference book, explaining their history, production techniques, and nutritional and medicinal properties in detail. This book is intuitively organized by plant and use, allowing quick access to information. It puts the uniquely Indian use and history of turmeric and ginger plants into a global context of produc
Turmeric --- Ginger --- Technology, Industry, and Agriculture --- Zingiberaceae --- Biological Products --- Complementary Therapies --- Technology, Industry, Agriculture --- Therapeutics --- Zingiberales --- Complex Mixtures --- Chemicals and Drugs --- Angiosperms --- Analytical, Diagnostic and Therapeutic Techniques and Equipment --- Embryophyta --- Streptophyta --- Viridiplantae --- Plants --- Eukaryota --- Organisms --- Phytotherapy --- Plant Preparations --- Agriculture --- Curcuma --- Health & Biological Sciences --- Earth & Environmental Sciences --- Plant Sciences --- Pharmacy, Therapeutics, & Pharmacology --- Therapeutic use --- Economic aspects --- Therapeutic use. --- Economic aspects. --- Amomum zingiber --- Canton ginger --- Common ginger --- True ginger --- Zingiber officinale --- Zingiber officinalis --- Zingiber zingeber --- Zingiber zingiber --- Common turmeric --- Curcuma domestica --- Curcuma longa --- Indian saffron --- Saffron, Indian --- Tumeric --- Spices
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The plant-derived polyphenol curcumin has been used in promoting health and combating disease for thousands of years. Its therapeutic effects have been successfully utilized in Ayurvedic and Traditional Chinese Medicine in order to treat inflammatory diseases. Current results from modern biomolecular research reveal the modulatory effects of curcumin on a variety of signal transduction pathways associated with inflammation and cancer. In this context, curcumin’s antioxidant, anti-inflammatory, anti-tumorigenic, and even anti-metastatic activities are discussed. On the cellular level, the reduced activity of several transcription factors (such as NFkB or AP-1) and the suppression of inflammatory cytokines, matrix degrading enzymes, metastasis related genes and even microRNAs are reported. On functional levels, these molecular effects translate into reduced proliferative, invasive, and metastatic capacity, as well as induced tumor cell apoptosis. All these effects have been observed not only in vitro but also in animal models. In combination with anti-neoplastic drugs like Taxol, kinase inhibitors, and radiation therapy, curcumin potentiates the drugs’ therapeutic power and can protect against undesired side effects. Natural plant-derived compounds like curcumin have one significant advantage: They do not usually cause side effects. This feature qualifies curcumin for primary prevention in healthy persons with a predisposition to cancer, arteriosclerosis, or chronic inflammatory diseases. Nonetheless, curcumin is considered safe, although potential toxic effects stemming from high dosages, long-term intake, and pharmacological interactions with other compounds have yet to be assessed. This Special Issue examines in detail and updates current research on the molecular targets, protective effects, and modes of action of natural plant-derived compounds and their roles in the prevention and treatment of human diseases.
minerals --- cancer treatment --- chitosan --- n/a --- neurodegeneration --- antioxidant activity --- senescence --- tumor proliferation --- nanoparticles --- antimicrobial agents --- oxidative metabolites --- drug discovery --- Akt/mTOR signaling --- micronutrients --- ulcerative colitis --- transmission electron microscopy --- metabolic reprogramming --- curcumin --- death receptor --- chaperone-mediated autophagy --- wound healing --- brain ischemia --- autophagy --- Alzheimer’s disease --- genes --- transthyretin --- inflammatory bowel disease --- cellular pathway --- centrifugal partition chromatography --- nutrition --- amyloid --- Curcuma longa --- protein aggregation --- supportive care --- IL-17 --- senolytics --- complementary medicine --- macronutrients --- structure activity relationship --- gastroprotection --- Zingiberaceae --- anti-inflamation --- TLC bioautography --- microbiota --- glioblastoma multiforme --- amyloidosis --- SHMT2 --- antioxidants --- silica --- apoptosis --- reflux esophagitis --- gastric ulcer --- TLC-MS --- anti-cancer --- anticancer --- ImageJ --- anti-tumor --- delivery system --- wound --- Helicobacter pylori --- direct protein binding --- protein misfolding --- tumor growth --- diet --- Crohn’s disease --- hydrostatic counter-current chromatography --- ageing --- renal cell cancer --- gastric cancer --- amino-acids --- STAT3 --- mechanism of action --- inflamm-aging --- mitophagy --- necrotizing enterocolitis --- cell cycling --- vitamins --- turmeric tuber --- cancer --- tau protein --- Alzheimer's disease --- Crohn's disease
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Herbal and plant extracts show diverse activities and have been used for centuries as natural medicines for many health problems and diseases. Through the isolation and analysis of the compounds in the extracts, it is possible to understand why the extracts exhibit those activities, as well as the chemical metabolism of compounds that occur in plants and herbs. Recently, there have been increasing attempts to develop herbal and plant extracts into functional foods and drugs, but the legal requirements are becoming stricter. We need sophisticatedly defined extracts through the isolation and analysis of compounds comprising them in order to meet the legal requirements and to pursue quality control strategies in the production of functional foods and drugs. This Special Issue Book compiled the 15 recent research and review articles that highlight the isolation, profiling, and analysis of compounds in herbal and plant extracts, as well as quality control and standardized processing strategies for extracts with characteristic compounds.
Polygala tenuifolia --- phenolic glycosides --- saponins --- anti-inflammatory effect --- bioactive compound --- isatidis folium --- HPLC-PDA-ESI-MS/MS --- antiwrinkle activity --- quality control --- response surface methodology --- Boesenbergia rotunda --- Zingiberaceae --- flavonoid --- 4-hydroxypanduratin --- vasorelaxation --- tribe Clauseneae --- DNA barcode --- volatile compounds --- antioxidant activity --- ACE inhibitory activity --- anticancer activity --- α-glucosidase inhibitory activity --- avocado oil --- fatty acids --- hearing loss --- zebrafish --- hair cell --- Schisandra chinensis --- Omija --- dibenzocyclooctadiene lignans --- seed --- flower --- fermented beverage --- dried tepals --- total phenolic content --- total anthocyanin content --- vitamin C --- ultrasound assisted extraction --- biorefining --- fibrosarcoma --- metastasis --- natural products --- plants --- protease inhibitors --- tumor cells --- bombacoideae --- pharmacology --- phytochemical ingredients --- bioactive compounds --- medicine --- Hippophae rhamnoides --- Elaeagnaceae --- citrate derivatives --- nuclear magnetic resonance (NMR) --- electronic circular dichroism (ECD) --- Dendrobium --- Orchidaceae --- D. nobile --- D. candidum --- D. nobile × candidum --- gamma-irradiated mutant --- metabolomics --- cytotoxicity --- Morus sp. pl. --- cultivar --- mulberry --- 1-DNJ --- HPLC-ESI-MS --- HILIC --- Inonotus obliquus --- inotodiol --- noncompartment analysis --- pharmacokinetic study --- Coreopsis rosea --- Coreopsis verticillata --- mutant cultivar --- dipeptidyl peptidase-IV --- analytical tools --- data analysis --- genetically modified crops --- mass spectrometry --- metabolomics databases --- metabolomics software tools --- omics --- plant biology --- n/a
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