3,4-dihydroxyphenylethanol has been researched along with phenyl acetate in 24 studies
Timeframe | Studies, this research(%) | All Research% |
---|---|---|
pre-1990 | 0 (0.00) | 18.7374 |
1990's | 0 (0.00) | 18.2507 |
2000's | 6 (25.00) | 29.6817 |
2010's | 11 (45.83) | 24.3611 |
2020's | 7 (29.17) | 2.80 |
Authors | Studies |
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Almeida, M; Gordon, MH; Paiva-Martins, F | 1 |
Alcudia, F; Bautista, J; Cert, A; Cert, R; Collantes de Teran, L; Espartero, JL; Jover, M; Mateos, R; Parrado, J; Trujillo, M | 1 |
Gambacorta, A; Migliorini, A; Tofani, D | 1 |
de la Cruz, JP; Fernández-Bolaños, J; González-Correa, JA; Muñoz-Marín, J; Navas, MD; Trujillo, M | 1 |
Asensi, R; Correa, JA; De La Cruz, JP; Espartero, JL; López-Villodres, JA; Rodríguez-Gutiérez, G | 1 |
De La Cruz, JP; Espartero, JL; González-Correa, JA; Lopez-Villodres, JA; Navas, MD; Trujillo, M | 1 |
Bouallagui, Z; Bouaziz, M; Engasser, JM; Ghoul, M; Lassoued, S; Sayadi, S | 1 |
Hamza, M; Khoufi, S; Sayadi, S | 1 |
Bravo, L; Escuderos, ME; Espartero, JL; Madrona, A; Mateos, R; Pereira-Caro, G; Sarriá, B | 1 |
Albuquerque, H; Bravo-Díaz, C; Lisete-Torres, P; Losada-Barreiro, S; Paiva-Martins, F; Sánchez-Paz, V | 1 |
Chatzisymeon, E; Foteinis, S; Kalogerakis, N; Mantzavinos, D; Politi, M | 1 |
Bravo, L; Espartero, JL; Largo, C; Madrona, A; Martínez-López, S; Mateos, R; Sarriá, B; Tabernero, M | 1 |
Catalán, Ú; Farràs, M; Macià, A; Martín-Peláez, S; Mosele, JI; Motilva, MJ; Valls, RM | 1 |
Chen, J; Di, D; Gao, K; Li, Y; Pei, D; Qu, L; Wang, S; Wei, J | 1 |
Ben Mansour, A; Bouaziz, M; Rekik, O | 1 |
Bruzzone, E; Bucciantini, M; Leri, M; Natalello, A; Stefani, M | 1 |
Alarcón-de-la-Lastra, C; Aparicio-Soto, M; Babina, M; Fernández-Bolaños, JG; Redhu, D; Sánchez-Hidalgo, M; Worm, M | 1 |
Bucciantini, M; Cesaro, S; Leri, M; Palazzi, L; Polverino de Laureto, P; Stefani, M | 1 |
Brunetti, G; Calabrese, V; Di Rosa, G; Leri, M; Saul, N; Schmitz-Linneweber, C; Scuto, M; Stefani, M | 1 |
Chaari, A | 1 |
Bertolini, A; Bucciantini, M; Leri, M; Stefani, M | 1 |
Fu, X; Guo, D; Li, X; Pan, H; Sun, Y | 1 |
Bornscheuer, UT; Kaloudis, N; Kaur, J; Müller, H; Pavlidis, IV; Staudt, A; Terholsen, H | 1 |
Cai, M; Li, H; Qu, Y; Ren, Z; Shen, H; Xu, X; Ye, C | 1 |
24 other study(ies) available for 3,4-dihydroxyphenylethanol and phenyl acetate
Article | Year |
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Antioxidant activity of hydroxytyrosol acetate compared with that of other olive oil polyphenols.
Topics: Acetates; Antioxidants; Emulsions; Free Radical Scavengers; Olive Oil; Phenols; Phenylethyl Alcohol; Plant Oils; Time Factors | 2001 |
Lipophilic hydroxytyrosyl esters. Antioxidant activity in lipid matrices and biological systems.
Topics: Acetates; alpha-Tocopherol; Animals; Antioxidants; Brain; Butylated Hydroxytoluene; Esters; Linoleic Acid; Lipid Peroxidation; Oleic Acid; Palmitates; Phenylethyl Alcohol; Proteins; Rats; Rats, Wistar | 2006 |
High-yielding synthesis of methyl orthoformate-protected hydroxytyrosol and its use in preparation of hydroxytyrosyl acetate.
Topics: Acetates; Benzodioxoles; Catechols; Phenylethyl Alcohol | 2007 |
Effects of hydroxytyrosol and hydroxytyrosol acetate administration to rats on platelet function compared to acetylsalicylic acid.
Topics: Acetates; Animals; Aspirin; Blood Platelets; Catechols; Collagen; Eicosanoids; Male; Nitric Oxide; Phenylethyl Alcohol; Platelet Aggregation; Platelet Aggregation Inhibitors; Rats; Rats, Wistar | 2008 |
Virgin olive oil polyphenol hydroxytyrosol acetate inhibits in vitro platelet aggregation in human whole blood: comparison with hydroxytyrosol and acetylsalicylic acid.
Topics: 6-Ketoprostaglandin F1 alpha; Acetates; Adult; Aspirin; Blood Platelets; Catechols; Dose-Response Relationship, Drug; Female; Humans; Leukocytes; Male; Nitric Oxide; Olive Oil; Phenylethyl Alcohol; Plant Oils; Platelet Aggregation; Thromboxane B2 | 2009 |
Neuroprotective effect of hydroxytyrosol and hydroxytyrosol acetate in rat brain slices subjected to hypoxia-reoxygenation.
Topics: Acetates; Animals; Antioxidants; Brain; Catechols; Diet, Mediterranean; Dose-Response Relationship, Drug; Energy Metabolism; Hypoxia-Ischemia, Brain; L-Lactate Dehydrogenase; Male; Nerve Degeneration; Neuroprotective Agents; Olive Oil; Organ Culture Techniques; Oxidative Stress; Phenylethyl Alcohol; Plant Oils; Rats; Rats, Wistar; Reperfusion Injury | 2008 |
Hydroxytyrosol acyl esters: biosynthesis and activities.
Topics: Acetates; Catechols; Cell Proliferation; Enzymes, Immobilized; Esterification; Fungal Proteins; HeLa Cells; Humans; Lipase; Oxidative Stress; Phenylethyl Alcohol | 2011 |
Enzymatic hydrolysis of olive wastewater for hydroxytyrosol enrichment.
Topics: Acetates; Aspergillus niger; China; Chromatography, High Pressure Liquid; Gas Chromatography-Mass Spectrometry; Hydrolysis; Olea; Phenols; Phenylethyl Alcohol; Soil; Waste Disposal, Fluid | 2011 |
Digestive stability of hydroxytyrosol, hydroxytyrosyl acetate and alkyl hydroxytyrosyl ethers.
Topics: 3,4-Dihydroxyphenylacetic Acid; Acetates; Antioxidants; Bile Acids and Salts; Catechols; Ethers; Hydrolysis; Molecular Structure; Olive Oil; Pancreatin; Pepsin A; Phenylethyl Alcohol; Plant Oils | 2012 |
Distribution of hydroxytyrosol and hydroxytyrosol acetate in olive oil emulsions and their antioxidant efficiency.
Topics: Acetates; Antioxidants; Catechols; Emulsions; Olive Oil; Phenylethyl Alcohol; Plant Oils; Solubility | 2012 |
Recovery of antioxidants from olive mill wastewaters: a viable solution that promotes their overall sustainable management.
Topics: 2-Propanol; Acetates; Antioxidants; Chemical Fractionation; Chloroform; Conservation of Natural Resources; Ecosystem; Environment; Ether; Global Warming; Humans; Olea; Phenols; Phenylethyl Alcohol; Solvents; Waste Disposal, Fluid; Wastewater | 2013 |
Comparative evaluation of the metabolic effects of hydroxytyrosol and its lipophilic derivatives (hydroxytyrosyl acetate and ethyl hydroxytyrosyl ether) in hypercholesterolemic rats.
Topics: Acetates; Animals; Antioxidants; Blood Glucose; Catechols; Chemokine CCL2; Cholesterol, Dietary; Cholesterol, HDL; Cholesterol, LDL; Diet, High-Fat; Hypercholesterolemia; Interleukin-1beta; Interleukin-6; Male; Malondialdehyde; Olive Oil; Phenols; Phenylethyl Alcohol; Phytochemicals; Plant Oils; Plasminogen Activator Inhibitor 1; Rats; Rats, Wistar; Tumor Necrosis Factor-alpha | 2014 |
Faecal microbial metabolism of olive oil phenolic compounds: in vitro and in vivo approaches.
Topics: Acetates; Catechols; Colon; Feces; Fermentation; Humans; In Vitro Techniques; Iridoid Glucosides; Iridoids; Kinetics; Microbiota; Nontherapeutic Human Experimentation; Olive Oil; Phenols; Phenylethyl Alcohol; Plant Oils | 2014 |
Antibacterial Activity of Hydroxytyrosol Acetate from Olive Leaves (Olea Europaea L.).
Topics: Acetates; Anti-Bacterial Agents; Catechols; Cell Membrane Permeability; DNA, Bacterial; Olea; Phenylethyl Alcohol; Plant Extracts; Vibrio | 2018 |
Evaluation of phenolic composition and antioxidant activity changes in olive flowers during development using HPLC/DAD and LC-MS/MS.
Topics: Acetates; Antioxidants; Chromatography, High Pressure Liquid; Cyclopentane Monoterpenes; Flavonoids; Flowers; Fruit; Hydroxybenzoates; Iridoids; Lignans; Olea; Phenols; Phenylethyl Alcohol; Plant Leaves; Pyrans; Tandem Mass Spectrometry | 2018 |
Oleuropein aglycone and hydroxytyrosol interfere differently with toxic Aβ
Topics: Acetates; Amyloid beta-Peptides; Biophysical Phenomena; Cell Line, Tumor; Cyclopentane Monoterpenes; Humans; Neuroblastoma; Oxidative Stress; Peptide Fragments; Phenylethyl Alcohol; Pyrans | 2019 |
Olive-Oil-Derived Polyphenols Effectively Attenuate Inflammatory Responses of Human Keratinocytes by Interfering with the NF-κB Pathway.
Topics: Acetates; Catechols; Cell Survival; Cytokines; Dermatitis; Dose-Response Relationship, Drug; Gene Expression Regulation; Humans; Infant, Newborn; Inflammation Mediators; Keratinocytes; Male; NF-kappa B; Olive Oil; Phenylethyl Alcohol; Polyphenols; Promoter Regions, Genetic; Signal Transduction | 2019 |
Insight into the molecular mechanism underlying the inhibition of α-synuclein aggregation by hydroxytyrosol.
Topics: Acetates; alpha-Synuclein; Antioxidants; Antiparkinson Agents; Cell Line, Tumor; Cell Survival; Cyclopentane Monoterpenes; Humans; Levodopa; Molecular Structure; Parkinson Disease; Phenylethyl Alcohol; Protein Aggregation, Pathological; Protein Binding; Protein Conformation; Proteolysis; Pyrans | 2020 |
Healthspan Maintenance and Prevention of Parkinson's-like Phenotypes with Hydroxytyrosol and Oleuropein Aglycone in
Topics: Acetates; alpha-Synuclein; Animals; Animals, Genetically Modified; Caenorhabditis elegans; Cyclopentane Monoterpenes; Disease Models, Animal; Dopaminergic Neurons; Parkinson Disease; Phenylethyl Alcohol; Polyphenols; Pyrans; Treatment Outcome | 2020 |
Inhibition of human islet amyloid polypeptide aggregation and cellular toxicity by oleuropein and derivatives from olive oil.
Topics: Acetates; Cell Survival; Cyclopentane Monoterpenes; Diabetes Mellitus, Type 2; Diet, Mediterranean; Fluorescence; Humans; Inhibitory Concentration 50; Iridoid Glucosides; Iridoids; Islet Amyloid Polypeptide; Islets of Langerhans; Microscopy, Atomic Force; Olive Oil; Phenylethyl Alcohol; Phospholipids; Pyrans; Structure-Activity Relationship | 2020 |
EVOO Polyphenols Relieve Synergistically Autophagy Dysregulation in a Cellular Model of Alzheimer's Disease.
Topics: Acetates; Alzheimer Disease; Amyloid beta-Peptides; Autophagy; Cell Line; Cyclopentane Monoterpenes; Diet, Mediterranean; Humans; Mitochondria; Models, Neurological; Nerve Degeneration; Neurons; Olive Oil; Peptide Fragments; Phenylethyl Alcohol; Polyphenols; Proteasome Endopeptidase Complex; Pyrans; Reactive Oxygen Species; Ubiquitin | 2021 |
De novo biosynthesis of tyrosol acetate and hydroxytyrosol acetate from glucose in engineered Escherichia coli.
Topics: Acetates; Escherichia coli; Glucose; Humans; Olive Oil; Phenylethyl Alcohol | 2021 |
Recovery of Hydroxytyrosol from Olive Mill Wastewater Using the Promiscuous Hydrolase/Acyltransferase PestE.
Topics: Acetates; Acyltransferases; Antioxidants; Hydrolases; Olea; Olive Oil; Phenylethyl Alcohol; Wastewater | 2022 |
The combination of HT-ac and HBET improves the cognitive and learning abilities of heat-stressed mice by maintaining mitochondrial function through the PKA-CREB-BDNF pathway.
Topics: Acetates; Animals; Brain-Derived Neurotrophic Factor; Cognition; Hot Temperature; Mice; Mitochondria; Phenylethyl Alcohol | 2022 |