Reprint

Biological Activity of Natural Secondary Metabolite Products

Edited by
August 2018
466 pages
  • ISBN978-3-03897-174-0 (Paperback)
  • ISBN978-3-03897-175-7 (PDF)

This book is a reprint of the Special Issue Biological Activity of Natural Secondary Metabolite Products that was published in

Summary
Natural secondary metabolite products, which are isolated from plants, animals, microorganisms, etc., are classified as polyketides, isoprenoids, aromatics (phenylpropanoids), alkaloids, etc. Their chemical diversity and variety of biological activities have attracted the attention of chemists, biochemists, biologists, etc. The Special Issue on "Biological Activity of Natural Secondary Metabolite Products" is intended to offer biological active natural products as candidates and/or leads for pharmaceuticals, dietary supplements, functional foods, cosmetics, food additives, etc. The research fields of this Special Issue include natural products chemistry, phytochemistry, pharmacognosy, food chemistry, bioorganic synthetic chemistry, chemical biology, molecular biology, molecular pharmacology, and other related research fields of bioactive natural secondary metabolite products. Original research and review articles on all topics in these research fields are invited. I am looking forward to receiving many submissions from outstanding experts in these research fields.
Format
  • Paperback
License
© 2018 by the authors; CC BY-NC-ND license
Keywords
HNSCC; cytotoxic activity; alkaloids; apoptosis markers; berberine; Cyclin D1; ubiquitinated-dependent proteolysis; β-TrCP; tumor growth inhibition; chakasaponin; floratheasaponin; (–)-epigallocatechin 3-O-gallate; anti-proliferative activity; tea flower; Camellia sinensis; apoptosis; Cuscuta campestris; hepatoprotective effect; carbon tetrachloride; fibrosis; antioxidant effect; Euterpe oleracea; açaí; antioxidant activity; Tripterygium regelii; diterpenoids; cytotoxicity; Heliopsis longipes; affinin; vasodilation; rat aorta; gasotransmitters; prostacyclin; manganese; Euphorbia supina; neurotoxicity; antioxidant; neuroprotection; Agrimonia pilosa Ledeb; aldose reductase; flavonoids; 1,1-diphenyl-2-picrylhydrazyl (DPPH); diabetic complication; hazelnut by-product; neolignans; diaryleptanoid; DPPH radical; caspase-3; PARP-1; Shorea roxburghii; stilbenoid; dihydroisocoumarin; quantitative analysis; hepatoprotective effect; mechanism of action; vanillin; HIF-1α; STAT3; migration; melanoma; nicotiflorin; Nymphaea candida; hepatoprotective; Concanavalin A; d-galactosamine; polyphenols; ellagic acids; muscadine grapes; geographical location; UPLC-Triple TOF-MS/MS; cancer; apoptosis; chemosensitization; microRNA; natural compound mixtures; metal derivatized natural compounds; Jatropha curcas L.; RP-HPLC-DAD analysis of flavonoids; cytoprotective activities; antioxidant; polyphenols; α-glucosidase inhibitor; Paenibacillus; type 2 diabetes; acarbose; plasma glucose; breast cancer; copper; proteasome; reactive oxygen species; wedelolactone; acteoside; isoacetoside; amyloid β peptide; Morris water maze; acetylcholine; amyloid cascade; glucosinolate; isothiocyanate; methyl jasmonate; pak choi; Brassica rapa; Pistacia vera L. variety Bronte; essential oil; antioxidant; cytoprotective activity; antimicrobial activity; spice; antibacterial activity; antifungal effect; antimicrobial property; essential oil; clove; oregano; thyme; seaweeds; algae; Fucaceae; phlorotannins; bioactivities; antioxidant; antidiabetes; anti-inflammatory; antitumor; bioavailability; hepatoprotection; Hydrangea macrophylla; NaAsO2; mitogen-activated protein kinase (MAPK); caspase-3; Alternaria alternata; alternariol; innate immunity; immunosuppression; marine sponge; natural compound; inflammation; lymphocytes