E3893_SIAL (BioDeep_00000865240)
Main id: BioDeep_00000017213
PANOMIX_OTCML-2023
代谢物信息卡片
化学式: C22H18O10 (442.0899928)
中文名称: (-)-表儿茶素没食子酸酯
谱图信息:
最多检出来源 () 0%
分子结构信息
SMILES: C1C(C(OC2=CC(=CC(=C21)O)O)C3=CC(=C(C=C3)O)O)OC(=O)C4=CC(=C(C(=C4)O)O)O
InChI: InChI=1S/C22H18O10/c23-11-6-14(25)12-8-19(32-22(30)10-4-16(27)20(29)17(28)5-10)21(31-18(12)7-11)9-1-2-13(24)15(26)3-9/h1-7,19,21,23-29H,8H2/t19-,21-/m1/s1
描述信息
D004791 - Enzyme Inhibitors > D011480 - Protease Inhibitors
D020011 - Protective Agents > D000975 - Antioxidants
D000970 - Antineoplastic Agents
(-)-Epicatechin gallate (Epicatechin gallate) inhibits cyclooxygenase-1 (COX-1) with an IC50 of 7.5 μM.
(-)-Epicatechin gallate (Epicatechin gallate) inhibits cyclooxygenase-1 (COX-1) with an IC50 of 7.5 μM.
(-)-Epicatechin gallate (Epicatechin gallate) inhibits cyclooxygenase-1 (COX-1) with an IC50 of 7.5 μM.
(-)-Epicatechin gallate (Epicatechin gallate) inhibits cyclooxygenase-1 (COX-1) with an IC50 of 7.5 μM.
同义名列表
42 个代谢物同义名
Benzoic acid, 3,4,5-trihydroxy-, 2-(3,4-dihydroxyphenyl)-3,4-dihydro-5,7-dihydroxy-2H-1-benzopyran-3-yl ester, (2R-cis)-; Benzoic acid, 3,4,5-trihydroxy-, 2-(3,4-dihydroxyphenyl)-3,4-dihydro-5,7- dihydroxy-2H-1-benzopyran-3-yl ester, (-)-cis-; Benzoic acid, 3,4,5-trihydroxy-, (2R,3R)-2-(3,4-dihydroxyphenyl)-3,4-dihydro-5,7-dihydroxy-2H-1-benzopyran-3-yl ester; 3,4,5-trihydroxybenzoic acid [(2R,3R)-2-(3,4-dihydroxyphenyl)-5,7-dihydroxy-chroman-3-yl] ester; 3,4,5-trihydroxybenzoic acid [(2R,3R)-2-(3,4-dihydroxyphenyl)-5,7-dihydroxy-3-chromanyl] ester; [(2R,3R)-2-(3,4-dihydroxyphenyl)-5,7-dihydroxy-chroman-3-yl] 3,4,5-trihydroxybenzoate; [(2R,3R)-2-(3,4-dihydroxyphenyl)-5,7-dihydroxychroman-3-yl] 3,4,5-trihydroxybenzoate; (−)-cis-2-(3,4-Dihydroxyphenyl)-3,4-dihydro-1(2H)-benzopyran-3,5,7-triol 3-gallate; (−)-cis-3,3′,4′,5,7-Pentahydroxyflavane 3-gallate; Epicatechol, 3-gallate, (-)- (8CI); Epicatechol, gallate (6CI); (-)-Epicatechin-3-gallate; (−)-Epicatechin gallate; (-)-Epicatechin gallate; L-Epicatechin gallate; SDCCGMLS-0066549.P001; Spectrum5_000080; Spectrum3_000246; Spectrum4_001540; Spectrum2_000165; SpecPlus_000275; Spectrum_000314; SPECTRUM210238; MEGxp0_000810; DivK1c_006371; KBioSS_000794; KBioGR_001980; BSPBio_001632; SPBio_000029; KBio1_001315; KBio2_005930; KBio2_003362; KBio2_000794; KBio3_001132; AIDS-000675; E3893_SIAL; NSC 636594; AIDS000675; 1257-08-5; Epicatechin gallate; ECG; (-)-Epicatechin 3-O-gallate
数据库引用编号
5 个数据库交叉引用编号
- ChEBI: CHEBI:70255
- PubChem: 107905
- ChEMBL: CHEMBL36327
- CAS: 1257-08-5
- medchemexpress: HY-N0002
分类词条
相关代谢途径
Reactome(0)
代谢反应
0 个相关的代谢反应过程信息。
Reactome(0)
BioCyc(0)
WikiPathways(0)
Plant Reactome(0)
INOH(0)
PlantCyc(0)
COVID-19 Disease Map(0)
PathBank(0)
PharmGKB(0)
112 个相关的物种来源信息
- 204988 - Acacia adunca: 10.1016/S0031-9422(00)85959-2
- 138511 - Acacia aulacocarpa: 10.1016/S0031-9422(00)85959-2
- 1174742 - Acacia binervia: 10.1016/S0031-9422(00)85959-2
- 139006 - Acacia calamifolia: 10.1016/S0031-9422(00)85959-2
- 1174755 - Acacia clunies-rossiae: 10.1016/S0031-9422(00)85959-2
- 1174758 - Acacia complanata: 10.1016/S0031-9422(00)85959-2
- 694541 - Acacia doratoxylon: 10.1016/S0031-9422(00)85959-2
- 224085 - Acacia mangium: 10.1016/S0031-9422(00)85959-2
- 1173659 - Acacia omalophylla: 10.1016/S0031-9422(00)85959-2
- 139013 - Acacia oswaldii: 10.1016/S0031-9422(00)85959-2
- 1174874 - Acacia pubifolia: 10.1016/S0031-9422(00)85959-2
- 880440 - Acacia pycnantha: 10.1016/S0031-9422(00)85959-2
- 1378425 - Acacia trineura: 10.1016/S0031-9422(00)85959-2
- 171204 - Acer barbinerve: 10.1007/S10600-011-0016-0
- 3625 - Actinidia chinensis:
- 714442 - Ampelopsis Japonica: -
- 714442 - Ampelopsis japonica: 10.1007/S11418-006-0119-2
- 171929 - Anacardium occidentale: 10.1021/JF061478A
- 4615 - Ananas comosus:
- 301862 - Annona reticulata: 10.1021/JF000549H
- 3818 - Arachis hypogaea: 10.1021/JF061478A
- 2516462 - Archidendron bubalinum: 10.1016/0031-9422(92)80375-O
- 28974 - Averrhoa carambola: 10.1007/S11418-008-0239-Y
- 3645 - Bertholletia excelsa: 10.1021/JF061478A
- 3708 - Brassica napus: 10.3389/FNUT.2022.822033
- 1407748 - Camellia crassicolumna: 10.1021/JF802974M
- 4442 - Camellia sinensis:
- 4072 - Capsicum annuum: 10.1021/JF000549H
- 32201 - Carya illinoinensis: 10.1021/JF061478A
- 21019 - Castanea: 10.1021/JF000549H
- 3827 - Cicer arietinum: 10.1021/JF000549H
- 13442 - Coffea: 10.1021/JF000026+
- 13450 - Corylus: 10.1021/JF061478A
- 3663 - Cucurbita pepo: 10.1021/JF000549H
- 36609 - Cydonia: 10.1021/JF000549H
- 32239 - Dasiphora fruticosa: 10.1007/BF00565058
- 4039 - Daucus carota: 10.1021/JF000549H
- 327901 - Detarium microcarpum: 10.1016/0166-3542(93)90095-Z
- 35925 - Diospyros kaki:
- 318062 - Euphorbia hirta:
- 2291126 - Fagopyrum acutatum: 10.1016/J.JEP.2005.02.029
- 516549 - Fagopyrum dibotrys: 10.1016/J.JEP.2005.02.029
- 3617 - Fagopyrum esculentum:
- 3494 - Ficus carica: 10.1021/JF000549H
- 3746 - Fragaria: 10.1021/JF000549H
- 229543 - Hibiscus cannabinus: 10.1007/BF00574392
- 51240 - Juglans regia: 10.1021/JF061478A
- 4236 - Lactuca sativa: 10.1021/JF000549H
- 3864 - Lens culinaris: 10.1021/JF000549H
- 4400 - Liquidambar styraciflua: 10.1016/0031-9422(93)85229-K
- 4329 - Macadamia: 10.1021/JF061478A
- 29747 - Mallotus japonicus: 10.1016/S0031-9422(00)98001-4
- 3750 - Malus domestica: 10.1021/JF000549H
- 283210 - Malus pumila: 10.1021/JF000549H
- 29780 - Mangifera indica: 10.1248/CPB.32.2676
- 98504 - Matricaria chamomilla: 10.1111/J.1365-2621.2005.TB08304.X
- 36616 - Mespilus germanica: 10.1021/JF000549H
- 1387640 - Mezoneuron benthamianum: 10.1076/1388-0209(200009)3841-AFT284
- 4640 - Musa:
- 208863 - Myriophyllum aquaticum: 10.1021/NP50066A004
- 119949 - Myrtus communis: 10.1007/BF02467181
- 91113 - Orostachys fimbriata: 10.1016/J.FITOTE.2008.10.003
- 4530 - Oryza sativa: 10.3390/MOLECULES16031917
- 40716 - Paeonia obovata: 10.1248/CPB.48.201
- 148713 - Parapiptadenia rigida: 10.1021/NP100523S
- 889930 - Parkia biglobosa: 10.1016/S0367-326X(99)00137-9
- 3435 - Persea americana:
- 46901 - Persicaria hydropiper: 10.1016/S0031-9422(98)00426-9
- 3885 - Phaseolus vulgaris: 10.1021/JF000549H
- 296036 - Phyllanthus emblica: 10.1021/NP000135I
- 296034 - Phyllanthus niruri: 10.1016/0031-9422(92)80352-F
- 3337 - Pinus: 10.1021/JF061478A
- 55513 - Pistacia vera: 10.1021/JF061478A
- 3888 - Pisum sativum: 10.1021/JF000549H
- 33090 - Plants: -
- 122832 - Platanus orientalis: 10.1023/B:CONC.0000025479.07578.5D
- 36596 - Prunus armeniaca: 10.1021/JF000549H
- 42229 - Prunus avium: 10.1021/JF000549H
- 3758 - Prunus domestica: 10.1021/JF000549H
- 3755 - Prunus dulcis: 10.1021/JF061478A
- 3760 - Prunus persica:
- 22663 - Punica granatum: 10.1021/JF000549H
- 642531 - Pyrola incarnata: 10.1016/0031-9422(89)80060-3
- 23211 - Pyrus communis: 10.1021/JF000549H
- 38942 - Quercus robur: 10.1007/BF02249631
- 137220 - Rheum officinale: 10.1016/S0944-7113(97)80075-X
- 137220 - Rheum officinale Baill.: -
- 137221 - Rheum palmatum L.: -
- 137226 - Rheum tanguticum Maxim. ex Balf.: -
- 666566 - Rhodiola semenovii:
- 880079 - Rhododendron dauricum: 10.1007/S10600-010-9649-7
- 255348 - Rhus typhina: 10.1007/BF00633406
- 175228 - Ribes rubrum: 10.1021/JF000549H
- 23216 - Rubus: 10.1021/JF000549H
- 41241 - Rumex acetosa: 10.1016/J.FITOTE.2009.08.015
- 182070 - Saxifraga stolonifera: 10.5511/PLANTBIOTECHNOLOGY.16.129
- 508984 - Schnella guianensis: 10.1016/0031-9422(88)80455-2
- 289766 - Sclerocarya birrea: 10.1021/JF030374M
- 1146880 - Scurrula atropurpurea: 10.1248/CPB.51.343
- 2726413 - Sedum crassularia: 10.1016/0031-9422(93)85416-O
- 28519 - Sedum sediforme: 10.1016/0031-9422(93)85416-O
- 138017 - Senegalia catechu: 10.1021/JF0531499
- 875646 - Senegalia polyacantha: 10.1021/JF0531499
- 4081 - Solanum lycopersicum: 10.1021/JF000549H
- 4111 - Solanum melongena: 10.1021/JF000549H
- 260143 - Syzygium samarangense: 10.1248/CPB.40.2671
- 39993 - Terminalia catappa: 10.1002/JCCS.199900085
- 4565 - Triticum aestivum: 10.1021/JF000549H
- 3906 - Vicia faba: 10.1021/JF000549H
- 29760 - Vitis vinifera:
- 326968 - Ziziphus jujuba: 10.1007/BF02291535
- 58880 - 余甘子: -
在这里通过桑基图来展示出与当前的这个代谢物在我们的BioDeep知识库中具有相关联信息的其他代谢物。在这里进行关联的信息来源主要有:
- PubMed: 来源于PubMed文献库中的文献信息,我们通过自然语言数据挖掘得到的在同一篇文献中被同时提及的相关代谢物列表,这个列表按照代谢物同时出现的文献数量降序排序,取前10个代谢物作为相关研究中关联性很高的代谢物集合展示在桑基图中。
- NCBI Taxonomy: 通过文献数据挖掘,得到的代谢物物种来源信息关联。这个关联信息同样按照出现的次数降序排序,取前10个代谢物作为高关联度的代谢物集合展示在桑吉图上。
- Chemical Taxonomy: 在物质分类上处于同一个分类集合中的其他代谢物
- Chemical Reaction: 在化学反应过程中,存在为当前代谢物相关联的生化反应过程中的反应底物或者反应产物的关联代谢物信息。
点击图上的相关代谢物的名称,可以跳转到相关代谢物的信息页面。
文献列表
- Ziqiong Zhou, Yan Li, Fangyuan Wang, Guanghao Zhu, Shenglan Qi, Haonan Wang, Yuhe Ma, Rong Zhu, Yuejuan Zheng, Guangbo Ge, Ping Wang. Bioactive components and mechanisms of Pu-erh tea in improving levodopa metabolism in rats through COMT inhibition.
Food & function.
2024 May; 15(10):5287-5299. doi:
10.1039/d4fo00538d
. [PMID: 38639730] - Huimin Yong, Zeyu Wang, Jinbao Huang, Jun Liu. Preparation, characterization and application of antioxidant packaging films based on chitosan-epicatechin gallate conjugates with different substitution degrees.
International journal of biological macromolecules.
2024 Mar; 260(Pt 2):129568. doi:
10.1016/j.ijbiomac.2024.129568
. [PMID: 38246436] - Wei Zhu, Patricia I Oteiza. NADPH oxidase 1: A target in the capacity of dimeric ECG and EGCG procyanidins to inhibit colorectal cancer cell invasion.
Redox biology.
2023 Jul; 65(?):102827. doi:
10.1016/j.redox.2023.102827
. [PMID: 37516013] - Adam Yasgar, Danielle Bougie, Richard T Eastman, Ruili Huang, Misha Itkin, Jennifer Kouznetsova, Caitlin Lynch, Crystal McKnight, Mitch Miller, Deborah K Ngan, Tyler Peryea, Pranav Shah, Paul Shinn, Menghang Xia, Xin Xu, Alexey V Zakharov, Anton Simeonov. Quantitative Bioactivity Signatures of Dietary Supplements and Natural Products.
ACS pharmacology & translational science.
2023 May; 6(5):683-701. doi:
10.1021/acsptsci.2c00194
. [PMID: 37200814] - Maniraj Rathinam, Shaily Tyagi, Narasimham Dokka, Sathish Kumar Marimuthu, Hemant Kumar, Doddachowdappa Sagar, Prasanta K Dash, Ajit Kumar Shasany, Rohini Sreevathsa. The plant specialized metabolite epicatechin- 3-gallate (EC3G) perturbs lipid metabolism and attenuates fat accumulation in pigeonpea pod borer, Helicoverpa armigera.
International journal of biological macromolecules.
2023 Mar; 231(?):123325. doi:
10.1016/j.ijbiomac.2023.123325
. [PMID: 36681223] - Luyao Chen, Yaping Guo, Zixuan Wu, Shuwu Zhao, Zhaiyi Zhang, Fang Zheng, Likang Sun, Zheng Hao, Chen Xu, Tao Wang, Yanfei Peng. Epicatechin gallate prevents the de novo synthesis of fatty acid and the migration of prostate cancer cells.
Acta biochimica et biophysica Sinica.
2021 Dec; 53(12):1662-1669. doi:
10.1093/abbs/gmab144
. [PMID: 34718375] - Carmela Maria Montone, Sara Elsa Aita, Anna Arnoldi, Anna Laura Capriotti, Chiara Cavaliere, Andrea Cerrato, Carmen Lammi, Susy Piovesana, Giulia Ranaldi, Aldo Laganà. Characterization of the Trans-Epithelial Transport of Green Tea (C. sinensis) Catechin Extracts with In Vitro Inhibitory Effect against the SARS-CoV-2 Papain-like Protease Activity.
Molecules (Basel, Switzerland).
2021 Nov; 26(21):. doi:
10.3390/molecules26216744
. [PMID: 34771162] - Lijiao Kan, Edoardo Capuano, Vincenzo Fogliano, Ruud Verkerk, Jurriaan J Mes, Monic M M Tomassen, Teresa Oliviero. Inhibition of α-glucosidases by tea polyphenols in rat intestinal extract and Caco-2 cells grown on Transwell.
Food chemistry.
2021 Nov; 361(?):130047. doi:
10.1016/j.foodchem.2021.130047
. [PMID: 34029903] - Jia Lei, Yong Zhang, Xuechen Ni, Xuejing Yu, Xingguo Wang. Degradation of epigallocatechin and epicatechin gallates by a novel tannase TanHcw from Herbaspirillum camelliae.
Microbial cell factories.
2021 Oct; 20(1):197. doi:
10.1186/s12934-021-01685-1
. [PMID: 34641872] - Sunanta Wangkarn, Kate Grudpan, Chartchai Khanongnuch, Thanawat Pattananandecha, Sutasinee Apichai, Chalermpong Saenjum. Development of HPLC Method for Catechins and Related Compounds Determination and Standardization in Miang (Traditional Lanna Fermented Tea Leaf in Northern Thailand).
Molecules (Basel, Switzerland).
2021 Oct; 26(19):. doi:
10.3390/molecules26196052
. [PMID: 34641598] - Jinjin Yu, Weifeng Li, Xin Xiao, Qiuxia Huang, Jiabao Yu, Yajie Yang, Tengfei Han, Dezhu Zhang, Xiaofeng Niu. (-)-Epicatechin gallate blocks the development of atherosclerosis by regulating oxidative stress in vivo and in vitro.
Food & function.
2021 Sep; 12(18):8715-8727. doi:
10.1039/d1fo00846c
. [PMID: 34365492] - Vijaya Lakshmi Bodiga, Praveen Kumar Vemuri, Madhukar Rao Kudle, Sreedhar Bodiga. Zinc ionophores isolated from Terminalia bellirica fruit rind extract protect against cardiomyocyte hypoxia/reoxygenation injury.
Bioorganic & medicinal chemistry.
2021 09; 46(?):116394. doi:
10.1016/j.bmc.2021.116394
. [PMID: 34509160] - Priyanka Maiti, Mahesha Nand, Tushar Joshi, Muthannan Andavar Ramakrishnan, Subhash Chandra. Identification of luteolin -7-glucoside and epicatechin gallate from Vernoniacinerea, as novel EGFR L858R kinase inhibitors against lung cancer: Docking and simulation-based study.
Journal of biomolecular structure & dynamics.
2021 09; 39(14):5048-5057. doi:
10.1080/07391102.2020.1784791
. [PMID: 32579072] - Koichi Sugimoto, Yasumasa Matsuoka, Kyoko Sakai, Norika Fujiya, Hiroyuki Fujii, Jun'ichi Mano. Catechins in green tea powder (matcha) are heat-stable scavengers of acrolein, a lipid peroxide-derived reactive carbonyl species.
Food chemistry.
2021 Sep; 355(?):129403. doi:
10.1016/j.foodchem.2021.129403
. [PMID: 33773455] - Mica Cabrera, Faizah Taher, Alendre Llantada, Quyen Do, Tyeshia Sapp, Monika Sommerhalter. Effect of Water Hardness on Catechin and Caffeine Content in Green Tea Infusions.
Molecules (Basel, Switzerland).
2021 Jun; 26(12):. doi:
10.3390/molecules26123485
. [PMID: 34201178] - Zihao Wang, Bingsong Ma, Cunqiang Ma, Chengqin Zheng, Binxing Zhou, Guiyi Guo, Tao Xia. Region identification of Xinyang Maojian tea using UHPLC-Q-TOF/MS-based metabolomics coupled with multivariate statistical analyses.
Journal of food science.
2021 May; 86(5):1681-1691. doi:
10.1111/1750-3841.15676
. [PMID: 33798265] - Kaitlyn E Redford, Salomé Rognant, Thomas A Jepps, Geoffrey W Abbott. KCNQ5 Potassium Channel Activation Underlies Vasodilation by Tea.
Cellular physiology and biochemistry : international journal of experimental cellular physiology, biochemistry, and pharmacology.
2021 Mar; 55(S3):46-64. doi:
10.33594/000000337
. [PMID: 33667331] - Rie Mukai, Takashi Fukuda, Asami Ohnishi, Takeshi Nikawa, Mutsuki Furusawa, Junji Terao. Chocolate as a food matrix reduces the bioavailability of galloylated catechins from green tea in healthy women.
Food & function.
2021 Jan; 12(1):408-416. doi:
10.1039/d0fo02485f
. [PMID: 33393957] - Pascale Goupil, Elodie Peghaire, Razik Benouaret, Claire Richard, Mohamad Sleiman, Hicham El Alaoui, Ayhan Kocer. Relationships between Plant Defense Inducer Activities and Molecular Structure of Gallomolecules.
Journal of agricultural and food chemistry.
2020 Dec; 68(52):15409-15417. doi:
10.1021/acs.jafc.0c05719
. [PMID: 33337882] - Tingting Chen, Yanfei Yang, Shajun Zhu, Yapeng Lu, Li Zhu, Yanqing Wang, Xiaoyong Wang. Inhibition of Aβ aggregates in Alzheimer's disease by epigallocatechin and epicatechin-3-gallate from green tea.
Bioorganic chemistry.
2020 12; 105(?):104382. doi:
10.1016/j.bioorg.2020.104382
. [PMID: 33137558] - Yuyang Zhang, Zhenglei Yang, Gege Liu, Yanwen Wu, Jie Ouyang. Inhibitory effect of chestnut (Castanea mollissima Blume) inner skin extract on the activity of α-amylase, α-glucosidase, dipeptidyl peptidase IV and in vitro digestibility of starches.
Food chemistry.
2020 Sep; 324(?):126847. doi:
10.1016/j.foodchem.2020.126847
. [PMID: 32344340] - Sara Crotti, Sara D'Aronco, Laura Moracci, Francesco Tisato, Marina Porchia, Luisa Mattoli, Michela Burico, Stella Bedont, Pietro Traldi, Marco Agostini. Evidence of noncovalent complexes in some natural extracts: Ceylon tea and mate extracts.
Journal of mass spectrometry : JMS.
2020 Jul; 55(7):e4459. doi:
10.1002/jms.4459
. [PMID: 31663260] - Qian Wu, Shimiao Tang, Liang Zhang, Jinsong Xiao, Qing Luo, Yuanyuan Chen, Mengzhou Zhou, Nianjie Feng, Chao Wang. The inhibitory effect of the catechin structure on advanced glycation end product formation in alcoholic media.
Food & function.
2020 Jun; 11(6):5396-5408. doi:
10.1039/c9fo02887k
. [PMID: 32469349] - Md Akil Hossain, Hae-Chul Park, Kwang-Jick Lee, Sung-Won Park, Seung-Chun Park, JeongWoo Kang. In vitro synergistic potentials of novel antibacterial combination therapies against Salmonella enterica serovar Typhimurium.
BMC microbiology.
2020 05; 20(1):118. doi:
10.1186/s12866-020-01810-x
. [PMID: 32410630] - Wei Zhu, Mei C Li, Feng R Wang, Gerardo G Mackenzie, Patricia I Oteiza. The inhibitory effect of ECG and EGCG dimeric procyanidins on colorectal cancer cells growth is associated with their actions at lipid rafts and the inhibition of the epidermal growth factor receptor signaling.
Biochemical pharmacology.
2020 05; 175(?):113923. doi:
10.1016/j.bcp.2020.113923
. [PMID: 32217102] - Priscila Mayara de Lima Oliveira, Aline Macedo Dantas, Alany Raquel Dos Santos Morais, Luciana Gibbert, Claudia Carneiro Hecke Krüger, Marcos Dos Santos Lima, Marciane Magnani, Graciele da Silva Campelo Borges. Juá fruit (Ziziphus joazeiro) from Caatinga: A source of dietary fiber and bioaccessible flavanols.
Food research international (Ottawa, Ont.).
2020 03; 129(?):108745. doi:
10.1016/j.foodres.2019.108745
. [PMID: 32036923] - Jin Li, Jian Zeng, Jinming Peng, Yangyang Jia, Chun-Mei Li. Simultaneous determination of the pharmacokinetics of A-type EGCG and ECG dimers in mice plasma and its metabolites by UPLC-QTOF-MS.
International journal of food sciences and nutrition.
2020 Mar; 71(2):211-220. doi:
10.1080/09637486.2019.1635089
. [PMID: 31266395] - Yuchen Gu, Gautier Moroy, Jean-Louis Paul, Anne-Sophie Rebillat, Mara Dierssen, Rafael de la Torre, Cécile Cieuta-Walti, Julien Dairou, Nathalie Janel. Molecular Rescue of Dyrk1A Overexpression Alterations in Mice with Fontup® Dietary Supplement: Role of Green Tea Catechins.
International journal of molecular sciences.
2020 Feb; 21(4):. doi:
10.3390/ijms21041404
. [PMID: 32092951] - Jing Chen, W P D Wass Thilakarathna, Tessema Astatkie, H P Vasantha Rupasinghe. Optimization of Catechin and Proanthocyanidin Recovery from Grape Seeds Using Microwave-Assisted Extraction.
Biomolecules.
2020 02; 10(2):. doi:
10.3390/biom10020243
. [PMID: 32033405] - Juan Chen, Zhi Zhang, Ping Yu, Wentao Gan, Kaihan Ren, Fang Zhang, Feng Chen, Mingwei Wang, Junzhe Bao, Tengfei Wang. Beneficial effects of green tea on age related diseases.
Frontiers in bioscience (Scholar edition).
2020 01; 12(1):70-91. doi:
10.2741/s541
. [PMID: 31585866] - Jing Xia, Dan Wang, Pei Liang, De Zhang, Xiaoqing Du, Dejiang Ni, Zhi Yu. Vibrational (FT-IR, Raman) analysis of tea catechins based on both theoretical calculations and experiments.
Biophysical chemistry.
2020 01; 256(?):106282. doi:
10.1016/j.bpc.2019.106282
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Molecules (Basel, Switzerland).
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