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Publication DateNew Phytologist, ISSN 0028-646X, 2/2012, Volume 193, Issue 3, pp. 665 - 672
Inorganic arsenic (iAs) is a ubiquitous human carcinogen, and rice ( ) is the main contributor to iAs in the diet. Methylated pentavalent As species are less...
Full papers | Arsenic | Arsenates | Grains | Soil microorganisms | Plant roots | Plants | Methylation | Speciation | Rice | Arsenites | food safety | Oryza sativa (rice) | arsenic methylation | arsenic | arsenic speciation | Arsenic speciation | Food safety | Arsenic methylation | TRANSLOCATION | TOXICITY | PLANT SCIENCES | METABOLISM | GRAIN | PATHWAY | RICE CULTIVARS | SPECIATION | MITIGATION | ACCUMULATION | WATER | Genes, Bacterial - genetics | Oligonucleotide Array Sequence Analysis | Humans | Bacteria - drug effects | Trifolium - growth & development | Arsenic - metabolism | Oryza - growth & development | Lycopersicon esculentum - growth & development | Arsenicals - metabolism | Arsenites - toxicity | Trifolium - drug effects | Cacodylic Acid - toxicity | Cacodylic Acid - metabolism | Lycopersicon esculentum - drug effects | Bacteria - metabolism | Plant Development | Seeds - metabolism | Seeds - drug effects | Soil Microbiology | Axenic Culture | Oryza - drug effects | Plants - drug effects | Bacteria - genetics | Plants - metabolism | Methylation - drug effects | Hydroponics | Soil | Legumes | Safety and security measures | Transferases | Genes | Mimosaceae | Soil microbiology | Arsenic compounds | Microorganisms | Beans | Analysis | Tomatoes | Food | Index Medicus
Full papers | Arsenic | Arsenates | Grains | Soil microorganisms | Plant roots | Plants | Methylation | Speciation | Rice | Arsenites | food safety | Oryza sativa (rice) | arsenic methylation | arsenic | arsenic speciation | Arsenic speciation | Food safety | Arsenic methylation | TRANSLOCATION | TOXICITY | PLANT SCIENCES | METABOLISM | GRAIN | PATHWAY | RICE CULTIVARS | SPECIATION | MITIGATION | ACCUMULATION | WATER | Genes, Bacterial - genetics | Oligonucleotide Array Sequence Analysis | Humans | Bacteria - drug effects | Trifolium - growth & development | Arsenic - metabolism | Oryza - growth & development | Lycopersicon esculentum - growth & development | Arsenicals - metabolism | Arsenites - toxicity | Trifolium - drug effects | Cacodylic Acid - toxicity | Cacodylic Acid - metabolism | Lycopersicon esculentum - drug effects | Bacteria - metabolism | Plant Development | Seeds - metabolism | Seeds - drug effects | Soil Microbiology | Axenic Culture | Oryza - drug effects | Plants - drug effects | Bacteria - genetics | Plants - metabolism | Methylation - drug effects | Hydroponics | Soil | Legumes | Safety and security measures | Transferases | Genes | Mimosaceae | Soil microbiology | Arsenic compounds | Microorganisms | Beans | Analysis | Tomatoes | Food | Index Medicus
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Loading RightsCochrane database of systematic reviews (Online), ISSN 1469-493X, 2012, Volume 9, Issue 9, p. CD007244
Background Menopause can be a distressing and disruptive time for many women, with many experiencing hot flushes, night sweats, vaginal atrophy and dryness....
MEDICINE, GENERAL & INTERNAL | ETHANOLIC EXTRACT | HORMONE-THERAPY | VASOMOTOR SYMPTOMS | DOUBLE-BLIND | CLIMACTERIC COMPLAINTS | PLACEBO-CONTROLLED TRIAL | QUALITY-OF-LIFE | CONJUGATED ESTROGENS | POSTMENOPAUSAL WOMEN | HOT FLASHES | Hot Flashes - drug therapy | Postmenopause - drug effects | Humans | Middle Aged | Perimenopause - drug effects | Trifolium | Cimicifuga - adverse effects | Randomized Controlled Trials as Topic | Sweating - drug effects | Phytotherapy - adverse effects | Female | Dehydration - drug therapy | Phytotherapy - methods | Vaginal Diseases - drug therapy
MEDICINE, GENERAL & INTERNAL | ETHANOLIC EXTRACT | HORMONE-THERAPY | VASOMOTOR SYMPTOMS | DOUBLE-BLIND | CLIMACTERIC COMPLAINTS | PLACEBO-CONTROLLED TRIAL | QUALITY-OF-LIFE | CONJUGATED ESTROGENS | POSTMENOPAUSAL WOMEN | HOT FLASHES | Hot Flashes - drug therapy | Postmenopause - drug effects | Humans | Middle Aged | Perimenopause - drug effects | Trifolium | Cimicifuga - adverse effects | Randomized Controlled Trials as Topic | Sweating - drug effects | Phytotherapy - adverse effects | Female | Dehydration - drug therapy | Phytotherapy - methods | Vaginal Diseases - drug therapy
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Loading RightsEnvironmental Science & Technology, ISSN 0013-936X, 08/2013, Volume 47, Issue 16, pp. 9496 - 9504
A knowledge gap still remains concerning the in situ influences of nanoparticles on plant systems, partly due to the absence of soil microorganisms. Arbuscular...
IRON-OXIDE NANOPARTICLES | POLLUTED SOIL | ENVIRONMENTAL SCIENCES | OXIDATIVE STRESS | HEAVY-METAL | GLOMALIN | ENGINEERING, ENVIRONMENTAL | ZNO NANOPARTICLES | SOIL AGGREGATION | COLONIZATION | PHYTOTOXICITY | SILVER NANOPARTICLES | Fungal Proteins - chemistry | Ferric Compounds - toxicity | Metal Nanoparticles - toxicity | Metal Nanoparticles - chemistry | Stress, Physiological | Trifolium - drug effects | Silver - toxicity | Symbiosis - drug effects | Trifolium - growth & development | Biomass | Glycoproteins - chemistry | Mycorrhizae - drug effects
IRON-OXIDE NANOPARTICLES | POLLUTED SOIL | ENVIRONMENTAL SCIENCES | OXIDATIVE STRESS | HEAVY-METAL | GLOMALIN | ENGINEERING, ENVIRONMENTAL | ZNO NANOPARTICLES | SOIL AGGREGATION | COLONIZATION | PHYTOTOXICITY | SILVER NANOPARTICLES | Fungal Proteins - chemistry | Ferric Compounds - toxicity | Metal Nanoparticles - toxicity | Metal Nanoparticles - chemistry | Stress, Physiological | Trifolium - drug effects | Silver - toxicity | Symbiosis - drug effects | Trifolium - growth & development | Biomass | Glycoproteins - chemistry | Mycorrhizae - drug effects
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Loading RightsTrends in Parasitology, ISSN 1471-4922, 2006, Volume 22, Issue 6, pp. 253 - 261
Apart from the obvious role of plants in herbivore nutrition, they are also a rich source of bioactive products that can operate either to the benefit or the...
CONDENSED TANNINS | HAEMONCHUS-CONTORTUS | GASTROINTESTINAL NEMATODES | SULLA HEDYSARUM-CORONARIUM | TREFOIL LOTUS-CORNICULATUS | CHICORY CICHORIUM-INTYBUS | CLOVER TRIFOLIUM-REPENS | LUCERNE MEDICAGO-SATIVA | COLUBRIFORMIS IN-VITRO | TRICHOSTRONGYLUS-COLUBRIFORMIS | PARASITOLOGY | Pest Control, Biological | Animals | Plants, Edible - chemistry | Species Specificity | Tannins - pharmacology | Tannins - adverse effects | Intestinal Diseases, Parasitic - drug therapy | Intestinal Diseases, Parasitic - veterinary | Ruminants - parasitology | Drug Resistance | Animal Feed | Nematoda - drug effects
CONDENSED TANNINS | HAEMONCHUS-CONTORTUS | GASTROINTESTINAL NEMATODES | SULLA HEDYSARUM-CORONARIUM | TREFOIL LOTUS-CORNICULATUS | CHICORY CICHORIUM-INTYBUS | CLOVER TRIFOLIUM-REPENS | LUCERNE MEDICAGO-SATIVA | COLUBRIFORMIS IN-VITRO | TRICHOSTRONGYLUS-COLUBRIFORMIS | PARASITOLOGY | Pest Control, Biological | Animals | Plants, Edible - chemistry | Species Specificity | Tannins - pharmacology | Tannins - adverse effects | Intestinal Diseases, Parasitic - drug therapy | Intestinal Diseases, Parasitic - veterinary | Ruminants - parasitology | Drug Resistance | Animal Feed | Nematoda - drug effects
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Loading RightsThe Cochrane database of systematic reviews, ISSN 1469-493X, 2013, Volume 12, Issue 12, p. CD001395
Background Vasomotor symptoms, such as hot flushes and night sweats, are very common during the menopausal transition. Hormone therapy has traditionally been...
RED-CLOVER ISOFLAVONES | Soybeans | Hot Flashes [drug therapy] | Humans | BLACK COHOSH | POSTMENOPAUSAL HORMONE-THERAPY | Trifolium | CLIMACTERIC SYMPTOMS | Randomized Controlled Trials as Topic | STANDARDIZED HOP EXTRACT | MEDICINE, GENERAL & INTERNAL | SOY-RICH DIET | DOUBLE-BLIND | Female | Isoflavones [therapeutic use] | Phytoestrogens [therapeutic use] | PLACEBO-CONTROLLED TRIAL | QUALITY-OF-LIFE | Sweating [drug effects] | WOMENS HEALTH | Hot Flashes - drug therapy | Sweating - drug effects | Isoflavones - therapeutic use | Phytoestrogens - therapeutic use
RED-CLOVER ISOFLAVONES | Soybeans | Hot Flashes [drug therapy] | Humans | BLACK COHOSH | POSTMENOPAUSAL HORMONE-THERAPY | Trifolium | CLIMACTERIC SYMPTOMS | Randomized Controlled Trials as Topic | STANDARDIZED HOP EXTRACT | MEDICINE, GENERAL & INTERNAL | SOY-RICH DIET | DOUBLE-BLIND | Female | Isoflavones [therapeutic use] | Phytoestrogens [therapeutic use] | PLACEBO-CONTROLLED TRIAL | QUALITY-OF-LIFE | Sweating [drug effects] | WOMENS HEALTH | Hot Flashes - drug therapy | Sweating - drug effects | Isoflavones - therapeutic use | Phytoestrogens - therapeutic use
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Loading RightsPlant, Cell & Environment, ISSN 0140-7791, 04/2016, Volume 39, Issue 4, pp. 883 - 896
All higher plants show developmental plasticity in response to the availability of nitrogen (N) in the soil. In legumes, N starvation causes the formation of...
Medicago truncatula (Gaertn.) | Medicago sativa (L.) | root architecture | rhizobia | nitrogen | Lateral root | phenotypic plasticity | nodule | Trifolium subterraneum (L.) | Rhizobia | Root architecture | Phenotypic plasticity | Nitrogen | Nodule | PLANT | SIGNALING PATHWAYS | CARBON | Medicago truncatula (Gaertn | NITRATE INHIBITION | Medicago sativa (L | PLANT SCIENCES | BIOMASS ALLOCATION | AUXIN TRANSPORT | Trifolium subterraneum (L | MEDICAGO-TRUNCATULA | N-2 FIXATION | GROWTH | Plant Root Nodulation - drug effects | Trifolium - microbiology | Medicago truncatula - drug effects | Species Specificity | Root Nodules, Plant - microbiology | Nitrates - pharmacology | Medicago truncatula - microbiology | Medicago truncatula - anatomy & histology | Rhizobium - physiology | Organ Size - drug effects | Phenotype | Trifolium - drug effects | Nitrogen - pharmacology | Trifolium - anatomy & histology | Root Nodules, Plant - anatomy & histology | Root Nodules, Plant - drug effects | Nitrogen Fixation - drug effects | Rhizobium - drug effects | Legumes | Beans | Fixation | Mimosaceae | Analysis
Medicago truncatula (Gaertn.) | Medicago sativa (L.) | root architecture | rhizobia | nitrogen | Lateral root | phenotypic plasticity | nodule | Trifolium subterraneum (L.) | Rhizobia | Root architecture | Phenotypic plasticity | Nitrogen | Nodule | PLANT | SIGNALING PATHWAYS | CARBON | Medicago truncatula (Gaertn | NITRATE INHIBITION | Medicago sativa (L | PLANT SCIENCES | BIOMASS ALLOCATION | AUXIN TRANSPORT | Trifolium subterraneum (L | MEDICAGO-TRUNCATULA | N-2 FIXATION | GROWTH | Plant Root Nodulation - drug effects | Trifolium - microbiology | Medicago truncatula - drug effects | Species Specificity | Root Nodules, Plant - microbiology | Nitrates - pharmacology | Medicago truncatula - microbiology | Medicago truncatula - anatomy & histology | Rhizobium - physiology | Organ Size - drug effects | Phenotype | Trifolium - drug effects | Nitrogen - pharmacology | Trifolium - anatomy & histology | Root Nodules, Plant - anatomy & histology | Root Nodules, Plant - drug effects | Nitrogen Fixation - drug effects | Rhizobium - drug effects | Legumes | Beans | Fixation | Mimosaceae | Analysis
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Loading RightsPloS one, 2018, Volume 13, Issue 10, p. e0201866
Negative impacts of endophyte-infected Lolium arundinaceum (Darbyshire) (tall fescue) are responsible for over $2 billion in losses to livestock producers...
Lolium - drug effects | Fermentation - drug effects | Rumen - chemistry | Seeds - drug effects | Bacteria - drug effects | Dietary Fiber - metabolism | Lolium - growth & development | Isoflavones - chemistry | Lolium - metabolism | Bacteria - genetics | Trifolium - chemistry | Ergotamines - administration & dosage | Animals | Gastrointestinal Microbiome - drug effects | Rumen - metabolism | Seeds - growth & development | Cattle | Fatty Acids, Volatile | Bacteria - classification | Rumen - microbiology | Proteins - chemistry | Isoflavones - administration & dosage | Animal Feed | Hydrogen-Ion Concentration
Lolium - drug effects | Fermentation - drug effects | Rumen - chemistry | Seeds - drug effects | Bacteria - drug effects | Dietary Fiber - metabolism | Lolium - growth & development | Isoflavones - chemistry | Lolium - metabolism | Bacteria - genetics | Trifolium - chemistry | Ergotamines - administration & dosage | Animals | Gastrointestinal Microbiome - drug effects | Rumen - metabolism | Seeds - growth & development | Cattle | Fatty Acids, Volatile | Bacteria - classification | Rumen - microbiology | Proteins - chemistry | Isoflavones - administration & dosage | Animal Feed | Hydrogen-Ion Concentration
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Loading RightsEcotoxicology and Environmental Safety, ISSN 0147-6513, 04/2015, Volume 114, pp. 273 - 303
Pollutants, such as Metal Trace Elements (MTEs) and organic compounds (polycyclic aromatic hydrocarbons, pesticides), can impact DNA structure of living...
Oxidative stress | Brassica oleracea | Eisenia fetida | Gene expression | Xenobiotics | Trifolium repens | DIETARY ZINC-OXIDE | ARABIDOPSIS-THALIANA SEEDLINGS | CONTAMINATED ARTIFICIAL SOIL | GLUTATHIONE S-TRANSFERASES | PISUM-SATIVUM L | HEAVY-METAL DETOXIFICATION | GENE-EXPRESSION ANALYSIS | EARTHWORM EISENIA-FOETIDA | ENVIRONMENTAL SCIENCES | TRIFOLIUM-REPENS L | INDUCED OXIDATIVE STRESS | TOXICOLOGY | Brassicaceae - drug effects | Reactive Oxygen Species - metabolism | Oxidative Stress | Antioxidants - metabolism | Oligochaeta - enzymology | Soil Pollutants - toxicity | Trifolium - enzymology | Brassica - drug effects | Brassica - genetics | Trifolium - drug effects | Fabaceae - enzymology | Brassica - metabolism | Trifolium - genetics | Brassicaceae - metabolism | Trifolium - metabolism | Brassicaceae - genetics | Oligochaeta - metabolism | Animals | Oligochaeta - genetics | Fabaceae - metabolism | Oligochaeta - drug effects | Fabaceae - drug effects | Fabaceae - genetics | Brassica - enzymology | Brassicaceae - enzymology | Legumes | Enzymes | Wildlife conservation | Plants | Mimosaceae | Soil microbiology | Biological monitoring | Antioxidants | Beans | Polycyclic aromatic hydrocarbons | Analysis | Pollutants | Genes | Index Medicus
Oxidative stress | Brassica oleracea | Eisenia fetida | Gene expression | Xenobiotics | Trifolium repens | DIETARY ZINC-OXIDE | ARABIDOPSIS-THALIANA SEEDLINGS | CONTAMINATED ARTIFICIAL SOIL | GLUTATHIONE S-TRANSFERASES | PISUM-SATIVUM L | HEAVY-METAL DETOXIFICATION | GENE-EXPRESSION ANALYSIS | EARTHWORM EISENIA-FOETIDA | ENVIRONMENTAL SCIENCES | TRIFOLIUM-REPENS L | INDUCED OXIDATIVE STRESS | TOXICOLOGY | Brassicaceae - drug effects | Reactive Oxygen Species - metabolism | Oxidative Stress | Antioxidants - metabolism | Oligochaeta - enzymology | Soil Pollutants - toxicity | Trifolium - enzymology | Brassica - drug effects | Brassica - genetics | Trifolium - drug effects | Fabaceae - enzymology | Brassica - metabolism | Trifolium - genetics | Brassicaceae - metabolism | Trifolium - metabolism | Brassicaceae - genetics | Oligochaeta - metabolism | Animals | Oligochaeta - genetics | Fabaceae - metabolism | Oligochaeta - drug effects | Fabaceae - drug effects | Fabaceae - genetics | Brassica - enzymology | Brassicaceae - enzymology | Legumes | Enzymes | Wildlife conservation | Plants | Mimosaceae | Soil microbiology | Biological monitoring | Antioxidants | Beans | Polycyclic aromatic hydrocarbons | Analysis | Pollutants | Genes | Index Medicus
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Loading RightsPhytomedicine, ISSN 0944-7113, 2009, Volume 16, Issue 4, pp. 314 - 319
Antioxidant and estrogenic effects of formononetin on ovariectomized mice have been investigated in the present study. The adult female Kunming mice were...
Isoflavone | Antioxidant effect | Trifolium pratense ( red clover) | Formononetin | Estrogenic effect | Trifolium pratense (red clover) | OXIDATION | CHEMISTRY, MEDICINAL | VIVO | WINES | PLANT SCIENCES | ISOFLAVONES | IN-VITRO | INHIBITION | METABOLISM | INTEGRATIVE & COMPLEMENTARY MEDICINE | PHARMACOLOGY & PHARMACY | SUPEROXIDE-DISMUTASE | Malondialdehyde - metabolism | Glutathione Peroxidase - metabolism | Ovariectomy | Administration, Oral | Plant Extracts - pharmacology | Antioxidants - metabolism | Isoflavones - pharmacology | Uterus - drug effects | Organ Size | Antioxidants - pharmacology | Trifolium | Catalase - metabolism | Dose-Response Relationship, Drug | Animals | Diethylstilbestrol - pharmacology | Lipid Peroxidation - drug effects | Female | Mice | Estrogens, Non-Steroidal - pharmacology | Phytoestrogens - pharmacology | Superoxide Dismutase - metabolism | Antioxidants | Research | Red clover | Health aspects | Isoflavones | Index Medicus
Isoflavone | Antioxidant effect | Trifolium pratense ( red clover) | Formononetin | Estrogenic effect | Trifolium pratense (red clover) | OXIDATION | CHEMISTRY, MEDICINAL | VIVO | WINES | PLANT SCIENCES | ISOFLAVONES | IN-VITRO | INHIBITION | METABOLISM | INTEGRATIVE & COMPLEMENTARY MEDICINE | PHARMACOLOGY & PHARMACY | SUPEROXIDE-DISMUTASE | Malondialdehyde - metabolism | Glutathione Peroxidase - metabolism | Ovariectomy | Administration, Oral | Plant Extracts - pharmacology | Antioxidants - metabolism | Isoflavones - pharmacology | Uterus - drug effects | Organ Size | Antioxidants - pharmacology | Trifolium | Catalase - metabolism | Dose-Response Relationship, Drug | Animals | Diethylstilbestrol - pharmacology | Lipid Peroxidation - drug effects | Female | Mice | Estrogens, Non-Steroidal - pharmacology | Phytoestrogens - pharmacology | Superoxide Dismutase - metabolism | Antioxidants | Research | Red clover | Health aspects | Isoflavones | Index Medicus
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Loading RightsJournal of Agricultural and Food Chemistry, ISSN 0021-8561, 09/2015, Volume 63, Issue 37, pp. 8106 - 8115
Flavonoids retusin (5-hydroxy-3,7,3′,4′-tetramethoxyflavone) (1) and pachypodol (5,4′-dihydroxy-3,7,3′-trimethoxyflavone) (2) were isolated from Croton...
genistein | apigenin | quercetin | eupatorin | pachypodol | photophosphorylation | retusin | CHLOROPHYLL-A | SILICOMOLYBDATE | BIFLAVONOIDS | FOOD SCIENCE & TECHNOLOGY | CHLOROPLASTS | MEMBRANE INTERACTION | INHIBITION | METABOLISM | AGRICULTURE, MULTIDISCIPLINARY | PHOTOSYSTEM-II | CHEMISTRY, APPLIED | ELECTRON-TRANSPORT | Germination - drug effects | Quercetin - analogs & derivatives | Lolium - drug effects | Electron Transport - drug effects | Lolium - growth & development | Plant Development - drug effects | Trifolium - growth & development | Herbicides | Croton - chemistry | Quercetin - isolation & purification | Quercetin - pharmacology | Chlorophyll - analysis | Photosynthesis - drug effects | Trifolium - drug effects | Flavonoids - isolation & purification | Flavonoids - pharmacology
genistein | apigenin | quercetin | eupatorin | pachypodol | photophosphorylation | retusin | CHLOROPHYLL-A | SILICOMOLYBDATE | BIFLAVONOIDS | FOOD SCIENCE & TECHNOLOGY | CHLOROPLASTS | MEMBRANE INTERACTION | INHIBITION | METABOLISM | AGRICULTURE, MULTIDISCIPLINARY | PHOTOSYSTEM-II | CHEMISTRY, APPLIED | ELECTRON-TRANSPORT | Germination - drug effects | Quercetin - analogs & derivatives | Lolium - drug effects | Electron Transport - drug effects | Lolium - growth & development | Plant Development - drug effects | Trifolium - growth & development | Herbicides | Croton - chemistry | Quercetin - isolation & purification | Quercetin - pharmacology | Chlorophyll - analysis | Photosynthesis - drug effects | Trifolium - drug effects | Flavonoids - isolation & purification | Flavonoids - pharmacology
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Loading RightsBritish Journal of Pharmacology, ISSN 0007-1188, 07/2009, Volume 157, Issue 6, pp. 1072 - 1084
Background and purpose: Phenolic compounds exert cytoprotective effects; our purpose was to investigate whether the isosteric polyphenolic compounds clovamide...
polyphenolics | NF-κB | neuroprotection | ischaemia-reperfusion | excitotoxicity | oxidative stress | PPARγ | NF‐κB | ischaemia–reperfusion | Neuroprotection | Oxidative stress | Polyphenolics | Excitotoxicity | NF-kB | Ischaemia-reperfusion | PPARg | ANTIOXIDANT ACTIVITY | NERVOUS-SYSTEM | ACTIVATED RECEPTOR-GAMMA | PPAR gamma | NEURODEGENERATIVE DISEASES | CLOVER TRIFOLIUM-PRATENSE | NF-kappa B | MITOCHONDRIAL DYSFUNCTION | PHARMACOLOGY & PHARMACY | NEUROBLASTOMA SH-SY5Y CELLS | NF-KAPPA-B | MOLECULAR-MECHANISMS | Tyrosine - pharmacology | Neurons - pathology | Tyrosine - physiology | Humans | Oxidative Stress - physiology | Cinnamates - pharmacology | Tyrosine - analogs & derivatives | Depsides - pharmacology | Dose-Response Relationship, Drug | Neuroprotective Agents - pharmacology | Cell Death - physiology | Cell Differentiation - drug effects | Cell Line, Tumor | Cell Death - drug effects | Oxidative Stress - drug effects | Neurons - drug effects | Cell Differentiation - physiology | Research Papers
polyphenolics | NF-κB | neuroprotection | ischaemia-reperfusion | excitotoxicity | oxidative stress | PPARγ | NF‐κB | ischaemia–reperfusion | Neuroprotection | Oxidative stress | Polyphenolics | Excitotoxicity | NF-kB | Ischaemia-reperfusion | PPARg | ANTIOXIDANT ACTIVITY | NERVOUS-SYSTEM | ACTIVATED RECEPTOR-GAMMA | PPAR gamma | NEURODEGENERATIVE DISEASES | CLOVER TRIFOLIUM-PRATENSE | NF-kappa B | MITOCHONDRIAL DYSFUNCTION | PHARMACOLOGY & PHARMACY | NEUROBLASTOMA SH-SY5Y CELLS | NF-KAPPA-B | MOLECULAR-MECHANISMS | Tyrosine - pharmacology | Neurons - pathology | Tyrosine - physiology | Humans | Oxidative Stress - physiology | Cinnamates - pharmacology | Tyrosine - analogs & derivatives | Depsides - pharmacology | Dose-Response Relationship, Drug | Neuroprotective Agents - pharmacology | Cell Death - physiology | Cell Differentiation - drug effects | Cell Line, Tumor | Cell Death - drug effects | Oxidative Stress - drug effects | Neurons - drug effects | Cell Differentiation - physiology | Research Papers
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