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This book collected recent innovative research and review articles on analytical techniques, production protocols, biotechnological tools, and new insights into bioactivities of ginsenosides including the effects on epithelial-mesenchymal transition, hippocampal neurogenesis and inflammation as well as on diseases such as ischemic stroke, autoimmune diseases, and allergic disorders. Additionally, the analysis through molecular docking and an overview of the Panax ginseng pharmacopuncture were also presented.

Medicine --- Ginseng berries --- UPLC-QTOF/MS --- HR-MAS NMR spectroscopy --- ginsenoside --- primary metabolite --- notoginseng leaf triterpenes --- HMGB1 --- cerebral ischemia and reperfusion injury --- inflammation --- MAPK --- NF-κB --- Panax ginseng --- wild ginseng --- pharmacopuncture --- safety --- clinical trials --- ocotillol type ginsenoside epimers --- stereoselective ADME characteristics --- molecular docking analysis --- homology modeling --- molecular interaction --- Rg3 --- Th17 --- RORγt --- EAE --- Lactobacillus ginsenosidimutans --- complete genome sequence --- novel glycoside hydrolases --- bioconversion --- recombinant enzyme --- ginsenoside Rg3(S) --- gram unit production --- Asian ginseng --- American ginseng --- Panax quinquefolium L. --- ginsenosides --- anti-inflammation --- pro-resolving --- ginseng --- macrophage --- M2 polarization --- ginsenoside CK --- neurogenesis --- cell proliferation --- neuroprotection --- dammarane-type triterpene saponin --- ginsenoside MT1 --- transglycosylation --- biotransformation --- biotechnology --- Anxa2 --- epithelial-mesenchymal transition --- (20S)G-Rh2 --- bioreactor --- cell suspension --- hairy root --- polyploidy --- protoplast --- Panax sp. --- polysaccharides --- allergy --- immune system --- n/a --- compound M1 --- hepatoprotective --- anti-cancer --- anti-diabetic

Choose an application

• Reference Manager
• EndNote
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This book collected recent innovative research and review articles on analytical techniques, production protocols, biotechnological tools, and new insights into bioactivities of ginsenosides including the effects on epithelial-mesenchymal transition, hippocampal neurogenesis and inflammation as well as on diseases such as ischemic stroke, autoimmune diseases, and allergic disorders. Additionally, the analysis through molecular docking and an overview of the Panax ginseng pharmacopuncture were also presented.

Medicine --- Ginseng berries --- UPLC-QTOF/MS --- HR-MAS NMR spectroscopy --- ginsenoside --- primary metabolite --- notoginseng leaf triterpenes --- HMGB1 --- cerebral ischemia and reperfusion injury --- inflammation --- MAPK --- NF-κB --- Panax ginseng --- wild ginseng --- pharmacopuncture --- safety --- clinical trials --- ocotillol type ginsenoside epimers --- stereoselective ADME characteristics --- molecular docking analysis --- homology modeling --- molecular interaction --- Rg3 --- Th17 --- RORγt --- EAE --- Lactobacillus ginsenosidimutans --- complete genome sequence --- novel glycoside hydrolases --- bioconversion --- recombinant enzyme --- ginsenoside Rg3(S) --- gram unit production --- Asian ginseng --- American ginseng --- Panax quinquefolium L. --- ginsenosides --- anti-inflammation --- pro-resolving --- ginseng --- macrophage --- M2 polarization --- ginsenoside CK --- neurogenesis --- cell proliferation --- neuroprotection --- dammarane-type triterpene saponin --- ginsenoside MT1 --- transglycosylation --- biotransformation --- biotechnology --- Anxa2 --- epithelial-mesenchymal transition --- (20S)G-Rh2 --- bioreactor --- cell suspension --- hairy root --- polyploidy --- protoplast --- Panax sp. --- polysaccharides --- allergy --- immune system --- compound M1 --- hepatoprotective --- anti-cancer --- anti-diabetic

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Discovered over 40 years ago, the annexin proteins were found to be a structurally conserved subgroup of Ca2+-binding proteins. While the initial research on annexins focused on their signature feature of Ca2+-dependent binding to membranes, over the years, the biennial “Annexin” conference series has highlighted additional diversity in the functions attributed to the annexin family of proteins. The roles of these proteins now extend from basic science to biomedical research, and are being translated into clinical settings. Research on annexins involves a global network of researchers and the 10th biennial Annexin conference brought together over 80 researchers from ten European countries, USA, Brazil, Singapore, Japan, and Australia for 3 days in September 2019. In this conference, the discussions focused on two distinct themes — the role of annexins in cellular organization and health and disease. The articles published in this Special Issue cover these two main themes discussed at the conference, offering a glimpse into some of the notable findings in the field of annexin biology

Research & information: general --- inflammation --- nigericin --- pyroptosis --- mass spectrometry --- lipidomics --- anxA2 --- Birbeck granules --- Langerhans cell --- A2t --- annexin --- plasma membrane repair --- membrane curvature --- membrane curvature sensing --- membrane shaping --- interdisciplinary research --- cell rupture --- membrane damage --- bias analysis --- G protein-coupled receptor (GPCR) --- formyl peptide receptor 1 --- danger-associated molecular pattern (DAMP) --- pathogen-associated molecular pattern (PAMP) --- annexin A1 peptide Ac2-26 --- cholesterol --- AnxA6 --- chaperone-mediated autophagy --- endolysosomes --- NPC1 --- Lamp2A --- annexin A2 --- microdomain --- cross-linker --- quartz crystal microbalance with dissipation monitoring (QCM-D) --- mucin-1 --- claudin-1 --- zona occludens --- ERK1/2 pathway --- angiogenesis --- F-actin polymerization --- BeWo spheroids --- Ishikawa cells --- influenza --- RNA-sequencing --- transcriptomics --- autophagy --- Annexin-A1 --- infection --- adherens junction --- macroautophagy --- breast cancer --- estrogen receptor negative --- Annexin A2 --- metastasis --- annexin-A6 --- membrane repair --- human skeletal muscle --- cap subdomain --- fluorescence --- electron microscopy --- CLEM --- annexin A6 --- RasGRF2 --- EGFR --- cell growth --- cell motility --- acquired resistance --- tyrosine kinase inhibitors --- muscle injury --- plasma membrane --- vesicle --- muscular dystrophy --- annexinA2 egress --- exocytosis --- chromaffin cells --- thrombosis --- Annexin A1 --- formyl peptide receptors --- sickle cell disease --- sepsis --- Annexin --- membrane --- injury --- virus --- lipid --- cancer