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Journal Article
2006, 1st ed., ISBN 9781405125093, xii, 372
Plant secondary metabolites have been a fertile area of chemical investigation for many years, driving the development of both analytical chemistry and of new... 
Metabolism, Secondary | Plantes | Botanical chemistry | Métabolisme secondaire | Chimie végétale | Plants | Metabolism | Métabolisme | TECHNOLOGY & ENGINEERING | General | Food Science | Nutrition | Plant metabolites | Food
Book
PLoS ONE, ISSN 1932-6203, 02/2013, Volume 8, Issue 2, p. e56570
Treatments that promote dormancy release are often correlated with changes in seed hormone content and/or sensitivity. To understand the molecular mechanisms... 
TRITICUM-AESTIVUM L | DIFFERENTIAL EXPRESSION | MULTIDISCIPLINARY SCIENCES | GENE-EXPRESSION | ARABIDOPSIS-THALIANA SEEDS | ACTIVATED PROTEIN-KINASES | ABSCISIC-ACID | AUXIN RESPONSE | GIBBERELLIN METABOLISM | CONJUGATE HYDROLASES | E3 UBIQUITIN LIGASE | Transcription, Genetic - drug effects | Phosphoprotein Phosphatases - metabolism | Phosphatidate Phosphatase - metabolism | Triticum - growth & development | Chromatin Assembly and Disassembly - drug effects | Triticum - metabolism | Arabidopsis Proteins | Seeds - growth & development | Gibberellins - metabolism | Abscisic Acid - metabolism | Ubiquitins - metabolism | Protein-Serine-Threonine Kinases - metabolism | Seeds - metabolism | Indoleacetic Acids - metabolism | Signal Transduction | Seeds - genetics | Protein Phosphatase 2C | Cyclopentanes - pharmacology | Plant Dormancy - drug effects | Triticum - genetics | Abscisic Acid - pharmacology | Oxylipins - metabolism | Gene Expression Regulation, Plant - drug effects | Indoleacetic Acids - pharmacology | Oxylipins - pharmacology | Gibberellins - pharmacology | Cyclopentanes - metabolism | Plant Growth Regulators - metabolism | Basic-Leucine Zipper Transcription Factors | Plant Growth Regulators - pharmacology | Oxidases | Chromatin | Seeds | Phosphatases | Germination | Physiological aspects | Abscisic acid | Genetic aspects | Genetic transcription | Acetic acid | Wheat | Organic acids | Phosphates | Transcription factors | Cereals | Transcription | Phosphoprotein phosphatase | Genes | Indole | Switches | Oxidase | 12-oxophytodienoate reductase | Biosynthesis | Hormones | Kinases | Proteins | Dormancy | Coenzyme A | Plant sciences | Dissection | Jasmonic acid | Repressing | Enzymes | Barley | Gene families | Cell walls | Thiolase | Cell division | Gene expression | Metabolism | Chromatin remodeling | Ripening | Signaling | Sensitivity | Molecular modelling | Acids | Allene | Decay | Protein phosphatase | Mutation | Lipoxygenase | GA 20-oxidase | Reductase
Journal Article
British Journal of Nutrition, ISSN 0007-1145, 02/2014, Volume 111, Issue 3, pp. 415 - 423
Dietary redox-active/antioxidant phytochemicals may help control or mitigate the inflammatory response in chronic inflammatory bowel disease (IBD). In the... 
Indicaxanthin | Inflammatory bowel disease | Redox-active phytochemicals | Inflammation | In vitro models | NADPH Oxidases - chemistry | Betaxanthins - isolation & purification | Interleukin-6 - antagonists & inhibitors | Reactive Oxygen Species - metabolism | Enterocytes - metabolism | Antioxidants - metabolism | Humans | Inflammatory Bowel Diseases - immunology | NADPH Oxidases - metabolism | Cell Membrane Permeability | NF-kappa B - metabolism | Inflammatory Bowel Diseases - metabolism | Intestinal Absorption | Interleukin-1beta - metabolism | Nitric Oxide Synthase Type II - antagonists & inhibitors | Inflammation Mediators - metabolism | Opuntia - chemistry | Inflammation Mediators - antagonists & inhibitors | Interleukin-8 - metabolism | Interleukin-6 - metabolism | Interleukin-1beta - antagonists & inhibitors | NF-kappa B - agonists | Pyridines - isolation & purification | Pyridines - therapeutic use | Caco-2 Cells | NF-kappa B - antagonists & inhibitors | Fruit - chemistry | Cyclooxygenase 2 - chemistry | NADPH Oxidases - antagonists & inhibitors | Betaxanthins - metabolism | Interleukin-8 - antagonists & inhibitors | Inflammatory Bowel Diseases - diet therapy | Betaxanthins - therapeutic use | NADPH Oxidase 1 | Enterocytes - immunology | Antioxidants - therapeutic use | Reactive Oxygen Species - antagonists & inhibitors | Pyridines - metabolism | Antioxidants - isolation & purification | Cyclooxygenase 2 - metabolism | Enzyme Activation | Nitric Oxide Synthase Type II - metabolism
Journal Article
PLoS ONE, ISSN 1932-6203, 2011, Volume 6, Issue 6, p. e20944
Background: Alterations in the composition of gut microbiota - known as dysbiosis - has been proposed to contribute to the development of obesity, thereby... 
BACTERIAL COMMUNITY | INSULIN | IN-VITRO | LIPID-METABOLISM | PLASMA | MECHANISM | LINOLEIC-ACID | GLUCOSE | MULTIDISCIPLINARY SCIENCES | LIVER | GUT MICROBIOTA | Intestines - drug effects | Obesity - diet therapy | Molecular Weight | Xylans - pharmacology | Diet - adverse effects | Cholesterol - blood | Body Weight - drug effects | Male | Linoleic Acids, Conjugated - metabolism | Obesity - microbiology | Metagenome - physiology | Bacterial Load - drug effects | Subcutaneous Fat - metabolism | Prevotella - physiology | Subcutaneous Fat - drug effects | Obesity - etiology | Bifidobacterium - physiology | Biomarkers - metabolism | Dietary Fats - adverse effects | Metagenome - drug effects | Mice, Inbred C57BL | Bacteroides - physiology | Insulin Resistance | Obesity - metabolism | Prebiotics | Gene Expression Regulation - drug effects | Animals | Intestines - microbiology | Xylans - chemistry | Xylans - therapeutic use | Mice | Triticum - chemistry | Microbiota (Symbiotic organisms) | Diet | Analysis | Body weight | Physiological aspects | Insulin resistance | Wheat | Fatty acids | Dysbacteriosis | Adipose tissue | Fat metabolism | Enzyme activity | Lipids | Glucose | Molecular weight | High fat diet | Proteins | Microbiota | Enzymatic activity | Rodents | Nutrients | Bacteria | Oxidation | Colon | Lipid metabolism | Supplementation | Arabinoxylans | Food | Carbohydrates | Obesity | Dietary supplements | Polymerization | Inflammation | Ecology | Metabolism | Fermentation | Gene expression | Insulin | Body weight gain | Cholesterol | Studies | Nutrition research | Correlation analysis | Laboratory animals
Journal Article
PLoS ONE, ISSN 1932-6203, 04/2012, Volume 7, Issue 4, p. e35545
Plants have evolved a variety of mechanisms for dealing with insect herbivory among which chemical defense through secondary metabolites plays a prominent... 
PIERIS-RAPAE | CHEMICAL DEFENSE | ARABIDOPSIS-THALIANA | GENETIC-BASIS | EVOLUTION | BENZYLGLUCOSINOLATE | MULTIDISCIPLINARY SCIENCES | CYANOGENIC GLYCOSIDES | NITRILE FORMATION | PLANTS | MYROSINASE SYSTEM | Microsomes - metabolism | Thiocyanates - metabolism | Thioglucosides - metabolism | Nasturtium - genetics | Glucosinolates - metabolism | Aminohydrolases - genetics | Butterflies - metabolism | Nasturtium - metabolism | Larva - enzymology | Tropaeolum - genetics | Insect Proteins - isolation & purification | Nitriles - metabolism | Hydroxylation | Larva - metabolism | Microsomes - enzymology | Herbivory | Arabidopsis - metabolism | Arabidopsis - genetics | Animals | Feces - chemistry | Plant Leaves - genetics | Plant Leaves - metabolism | Insect Proteins - chemistry | Tropaeolum - metabolism | Aminohydrolases - metabolism | Arabidopsis thaliana | Enzymes | Evolutionary biology | Analysis | Physiological aspects | Amino acids | Evolution | Cyanides | Genetic engineering | Plants | Butterflies | Plant metabolites | Adaptations | Larvae | Cyanide | L-3-Cyanoalanine synthase | Fumigation | Seeds | Chemical defense | Genes | Glucosinolates | Biosynthesis | Biology | Transgenic plants | Proteins | Ecological effects | Secondary metabolites | Metabolites | Physiology | Species | Historical metallurgy | Plants (botany) | Acids | Ecological niches | Insects | Rhodanese | Butterflies & moths | Mustard | Herbivores | Plant metabolism | Pharmaceuticals
Journal Article
Journal of the Science of Food and Agriculture, ISSN 0022-5142, 07/2013, Volume 93, Issue 9, pp. 2121 - 2129
Background This study was aimed at identifying the effect of harvest time, experimental site and crop age on the no‐calorie sweetener steviol glycosides (SG)... 
Stevia rebaudiana Bertoni | phenols | steviol glycosides | experimental site | antioxidant capacity | harvest time | Antioxidant capacity | Harvest time | Phenols | Steviol glycosides | Experimental site | FOOD SCIENCE & TECHNOLOGY | LEAVES | SUGARS | IN-VITRO | GROWTH | AGRICULTURE, MULTIDISCIPLINARY | TOTAL PHENOLIC CONTENT | NATURAL SWEETENER | PLANTS | CHEMISTRY, APPLIED | EXTRACTS | Plant Extracts - chemistry | Diterpenes, Kaurane - metabolism | Antioxidants - chemistry | Antioxidants - metabolism | Crops, Agricultural - growth & development | Glucosides - analysis | Chromatography, High Pressure Liquid | Food Additives - chemistry | Diterpenes, Kaurane - analysis | Food Additives - analysis | Oligosaccharides - analysis | Oligosaccharides - chemistry | Glucosides - chemistry | Non-Nutritive Sweeteners - analysis | Spatio-Temporal Analysis | Crops, Agricultural - chemistry | Non-Nutritive Sweeteners - metabolism | Phytochemicals - metabolism | Seasons | Antioxidants - analysis | Diterpenes, Kaurane - chemistry | Phytochemicals - chemistry | Plant Leaves - chemistry | Glycosides - analysis | Phytochemicals - analysis | Oligosaccharides - metabolism | Phenols - metabolism | Glucosides - metabolism | Phenols - analysis | Plant Leaves - metabolism | Glycosides - metabolism | Plant Leaves - growth & development | Soil - chemistry | Stevia - chemistry | Stevia - metabolism | Food Additives - metabolism | Italy | Phenols - chemistry | Stevia - growth & development | Crops, Agricultural - metabolism | Antioxidants
Journal Article
PLoS ONE, ISSN 1932-6203, 04/2015, Volume 10, Issue 4, pp. e0124000 - e0124000
Inhibition of carcinogenesis may be a consequence of attenuation of oxidative stress via activation of antioxidant defence system, restoration and... 
NRF2-MEDIATED ANTIOXIDANT | GROWTH-FACTOR-BETA | NAD(P)H-QUINONE OXIDOREDUCTASE-1 | TGF-BETA | NITRIC-OXIDE SYNTHASE | MULTIDISCIPLINARY SCIENCES | IN-VIVO | SULFHYDRYL-GROUPS | GLUTATHIONE-S-TRANSFERASE | INDUCTION | EXPRESSION | Consensus Sequence | Glutathione Reductase - metabolism | Antioxidants - metabolism | Male | NAD(P)H Dehydrogenase (Quinone) - genetics | RNA, Messenger - metabolism | Lymphoma, T-Cell - prevention & control | Glutathione Reductase - genetics | Lymphoma, T-Cell - metabolism | Glutathione Transferase - genetics | Liver - drug effects | Cyclooxygenase 2 - genetics | Protein Binding - drug effects | Inflammation Mediators - metabolism | NF-E2-Related Factor 2 - genetics | Anticarcinogenic Agents - pharmacology | Tumor Microenvironment - drug effects | Liver - metabolism | RNA, Messenger - genetics | Curcumin - pharmacology | Tumor Suppressor Protein p53 - metabolism | Glutathione Transferase - metabolism | Transforming Growth Factor beta1 - genetics | Lymphoma, T-Cell - drug therapy | Animals | Nitric Oxide Synthase Type II - genetics | Signal Transduction - drug effects | NF-E2-Related Factor 2 - metabolism | Cyclooxygenase 2 - metabolism | NAD(P)H Dehydrogenase (Quinone) - metabolism | Mice | Mice, Inbred AKR | Nitric Oxide Synthase Type II - metabolism | Prevention | Antioxidants | Patient outcomes | Development and progression | Genetic aspects | Research | Non-Hodgkin's lymphomas | Transforming growth factors | Tumor proteins | Risk factors | Oxidative stress | Regulations | Laboratories | Zoology | Liver | p53 Protein | Smooth muscle | Biochemistry | Lymphocytes T | Activation | Metastasis | Carcinogenesis | Bearing | Proteins | Signal transduction | Angiogenesis | Carcinogens | Metabolites | Restoration | Rodents | Modulation | Cell cycle | Attenuation | Curcumin | Inhibition | Growth factors | Deoxyribonucleic acid--DNA | Enzymes | Inflammation | Gene expression | Lymphoma | Nitric-oxide synthase | Signaling | Phytochemicals | Hepatocytes | Nitric oxide | Glycolysis | Lymphomas | Cyclooxygenase-2 | Molecular biology | T-cell lymphoma | Cancer | Apoptosis | Tumors | Index Medicus | Deoxyribonucleic acid | DNA
Journal Article