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Food chemistry, ISSN 0308-8146, 04/2019, Volume 278, pp. 692 - 699
•27 out of 54 antioxidants generate H2O2 in water, saline and cell culture media.•The most active were: propyl gallate, epigallocatechin gallate and... 
Autoxidation | Polyphenols | Tea | Ascorbic acid | Hydrogen peroxide | Antioxidant | p-Coumaric acid, CID: 637542 | Sodium succinate, CID: 9020 | Curcumin, CID: 969516 | Citric acid, CID: 311 | β-Carotene, CID: 5280489 | Apigenin, CID: 5280443 | Quercetin, CID: 5280343 | Rutin, CID: 5280805 | Sodium ascorbate, CID: 23667548 | Betanin, CID: 54600918 | trans-Ferulic acid, CID: 445858 | Gallic acid, CID: 370 | Trolox, CID: 40634 | Sinapic acid, CID: 637775 | Hesperetin, CID: 72281 | Gentisic acid, CID: 3469 | Naringenin, CID: 932 | tert-Buthylhydroquinone, CID: 16043 | (−)-Epigallocatechin, CID: 72277 | Daidzein, CID: 5281708 | L-Glutathione, CID: 124886 | Metformin hydrochloride, CID: 14219 | Morin, CID: 5281670 | Naringin, CID: 442428 | Aminoguanidine hydrochloride, CID: 2734687 | Hydrocinnamic acid (3-Phenylpropionic acid), CID: 107 | Melatonin, CID: 896 | Chlorogenic acid, CID: 1794427 | Propyl gallate, CID: 4947 | D-Isoascorbic acid, CID: 54675810 | Buthylhydroxyanizole, CID: 24667 | Glycitein, CID: 5317750 | Ethoxyquin, CID: 3293 | (−)-Epicatechin gallate, CID: 107905 | Pyrogallol, CID: 1057 | L-Ascorbic acid, CID: 54670067 | N-Acetylcysteine, CID: 12035 | trans-Resveratrol, CID: 445154 | L-methionine, CID: 6137 | D-pantothenic acid hemicalcium, CID: 11306073 | Hesperidin, CID: 10621 | L-cysteine, CID: 5862 | Vanillic acid, CID: 8468 | Pyruvic acid, CID: 1060 | (+)-Catechin, CID: 9064 | (−)-Epigallocatechin gallate, CID: 65064 | Caffeic acid, CID: 689043 | Oxaloacetic acid, CID: 970 | (−)-Epicatechin, CID: 72276 | Mangiferin, CID: 5281647 | Genistein, CID: 5280961 | 2,6-di-tert-Butyl-4-methylphenol, CID: 66609 | Physical Sciences | Chemistry | Life Sciences & Biomedicine | Chemistry, Applied | Nutrition & Dietetics | Food Science & Technology | Science & Technology | Transition Elements - chemistry | Cell Survival - drug effects | Quercetin - chemistry | Antioxidants - chemistry | Oxidation-Reduction | Humans | Propyl Gallate - pharmacology | Hydrogen Peroxide - metabolism | Catalase - metabolism | Hydrogen Peroxide - chemistry | Propyl Gallate - chemistry | Quercetin - pharmacology | Polyphenols - chemistry | Tea - metabolism | Cell Line, Tumor | Catechin - analogs & derivatives | Catechin - pharmacology | Catechin - chemistry | Tea - chemistry | Index Medicus
Journal Article
Journal Article
Journal Article
Journal Article
PloS one, ISSN 1932-6203, 11/2015, Volume 10, Issue 11, pp. e0143004 - e0143004
.... The chemical constituents of P. giganteus (linoleic acid, oleic acid, cinnamic acid, caffeic acid, p-coumaric acid, succinic acid, benzoic acid, and uridine... 
Science & Technology - Other Topics | Multidisciplinary Sciences | Science & Technology | Phosphorylation | Coumaric Acids - chemistry | Extracellular Signal-Regulated MAP Kinases - metabolism | Cinnamates - chemistry | Proto-Oncogene Proteins c-akt - metabolism | Neurites - drug effects | Uridine - chemistry | Biomarkers - metabolism | Enzyme-Linked Immunosorbent Assay | Signal Transduction | GAP-43 Protein - metabolism | Pleurotus - chemistry | Linoleic Acid - chemistry | Caffeic Acids - chemistry | Neurites - metabolism | Animals | MAP Kinase Signaling System - drug effects | Succinic Acid - chemistry | Propionates | Cyclic AMP Response Element-Binding Protein - metabolism | Benzoic Acid - chemistry | Cell Line, Tumor | Mice | Neuroblastoma - metabolism | Oleic Acid - chemistry | Nerve growth factor | Monounsaturated fatty acids | Research | Phosphotransferases | Benzoic acid | TOR protein | Cinnamic acid | Science | AKT protein | Neuroblastoma | Kinases | Coumaric acid | Constituents | Oleic acid | Nutrition | Neurodegenerative diseases | Mushrooms | Axonogenesis | Extracellular signal-regulated kinase | p-Coumaric acid | Rapamycin | Cyclic AMP response element-binding protein | Caffeic acid | 1-Phosphatidylinositol 3-kinase | Linoleic acid | Neurological diseases | Brain research | Acids | Cell death | Succinic acid | Uridine | Index Medicus
Journal Article
Journal Article
PloS one, ISSN 1932-6203, 05/2013, Volume 8, Issue 5, pp. e63383 - e63383
Grafting watermelon onto bottle gourd rootstock is commonly used method to generate resistance to Fusarium oxysporum f. sp. niveum (FON), but knowledge of the... 
Science & Technology - Other Topics | Multidisciplinary Sciences | Science & Technology | Chlorogenic Acid - pharmacology | Cucurbitaceae - microbiology | Culture Techniques | Spores, Fungal - growth & development | Caffeic Acids - pharmacology | Fusarium - drug effects | Plant Diseases - microbiology | Antifungal Agents - chemistry | Chromatography, High Pressure Liquid | Microbial Sensitivity Tests | Salicylic Acid - chemistry | Caffeic Acids - isolation & purification | Plant Exudates - pharmacology | Spores, Fungal - drug effects | Chlorogenic Acid - isolation & purification | Cucurbitaceae - chemistry | Plant Exudates - chemistry | Antifungal Agents - pharmacology | Disease Resistance | Soil Microbiology | Caffeic Acids - chemistry | Plant Roots - microbiology | Salicylic Acid - isolation & purification | Cucurbitaceae - immunology | Antifungal Agents - isolation & purification | Rhizosphere | Plant Roots - chemistry | Plant Roots - immunology | Chlorogenic Acid - chemistry | Cinnamic acid | Soil investigations | Grafting | Phenolic acids | Disease resistance | Engineering | Wilt | Humidity | Fusarium | Flowers & plants | Inhibition | Salicylic acid | Fusarium oxysporum | Nutrition | Germination | Allelopathy | Chlorogenic acid | Liquid chromatography | High-performance liquid chromatography | Resistance factors | Caffeic acid | Plant diseases | Exudates | Acids | Phenols | Crop diseases | Exudation | Index Medicus
Journal Article