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  • 表儿茶素

    Epicatechin

    表儿茶素
    产品编号 CFN98781
    CAS编号 490-46-0
    分子式 = 分子量 C15H14O6 = 290.3
    产品纯度 >=98%
    物理属性 Powder
    化合物类型 Flavonoids
    植物来源 The woods of Acacia catechu (L.F.) Willd.
    ChemFaces的产品在影响因子大于5的优秀和顶级科学期刊中被引用
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    表儿茶素 CFN98781 490-46-0 10mg QQ客服:1457312923
    表儿茶素 CFN98781 490-46-0 20mg QQ客服:1457312923
    表儿茶素 CFN98781 490-46-0 50mg QQ客服:1457312923
    表儿茶素 CFN98781 490-46-0 100mg QQ客服:1457312923
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    ChemFaces的产品在许多优秀和顶级科学期刊中被引用

    Cell. 2018 Jan 11;172(1-2):249-261.e12.
    doi: 10.1016/j.cell.2017.12.019.
    IF=36.216(2019)

    PMID: 29328914

    Cell Metab. 2020 Mar 3;31(3):534-548.e5.
    doi: 10.1016/j.cmet.2020.01.002.
    IF=22.415(2019)

    PMID: 32004475

    Mol Cell. 2017 Nov 16;68(4):673-685.e6.
    doi: 10.1016/j.molcel.2017.10.022.
    IF=14.548(2019)

    PMID: 29149595

    ACS Nano. 2018 Apr 24;12(4): 3385-3396.
    doi: 10.1021/acsnano.7b08969.
    IF=13.903(2019)

    PMID: 29553709

    Nature Plants. 2016 Dec 22;3: 16206.
    doi: 10.1038/nplants.2016.205.
    IF=13.297(2019)

    PMID: 28005066

    Sci Adv. 2018 Oct 24;4(10): eaat6994.
    doi: 10.1126/sciadv.aat6994.
    IF=12.804(2019)

    PMID: 30417089
    我们的产品现已经出口到下面的研究机构与大学,并且还在增涨
  • Universidad de Buenos Aires (Argentina)
  • Cancer Research Initatives Foundation(CARIF) (Malaysia)
  • Universiti Sains Malaysia (Malaysia)
  • Srinakharinwirot University (Thailand)
  • University of Ioannina (Greece)
  • University of Fribourg (Switzerland)
  • Universidad de Antioquia (Colombia)
  • University of Zurich (Switzerland)
  • Utrecht University (Netherlands)
  • CSIRO - Agriculture Flagship (Australia)
  • Universidade Federal de Santa Catarina (Brazil)
  • Universidad Miguel Hernández (Spain)
  • National Cancer Institute (USA)
  • Instituto Politécnico de Bragan?a (Portugal)
  • More...
  • 国外学术期刊发表的引用ChemFaces产品的部分文献
  • Clin Exp Pharmacol Physiol.2015, 42(11):1189-97
  • Oncol Rep.2016, 35(3):1356-64
  • Plant Cell Tiss Org2017, 479-486
  • Phytomedicine.2022, 96:153877.
  • Appl. Sci.2023, 13(17), 9653.
  • Evid Based Complement Alternat Med.2022, 9767292,2.
  • Pharmaceutics.2021, 13(11):1839.
  • Russian J Bioorganic Chemistry 2021, 47:1411-1417.
  • Sci Rep.2016, 6:25094
  • Food Chem.2020, 327:126992.
  • The Journal of Korean Medicine2022, 43(3): 79-93.
  • RSC Adv.2018, 32621-32636
  • Biomolecules.2022, 12(12):1754.
  • Molecules.2023, 28(8):3414.
  • Theoretical and Experimental Plant Physiology 2022, 34,53-62
  • Journal of Holistic Integrative Pharmacy2024, 5(1):45-55.
  • J Microbiol Biotechnol.2022, 32(2):141-148.
  • Eur J Pharmacol.2021, 899:174010.
  • Int J Mol Sci.2019, 20(21):E5488
  • Int J Mol Sci.2021, 22(2):770.
  • SRM Institute of Sci&Tech2022, 34(1): 32-37
  • JPC-Journal of Planar Chromatography2023, 36:179-190
  • J. Soc. Cosmet. Sci. Korea2016, 163-171
  • ...
  • 生物活性
    Description: (−)Epicatechin is a flavonoid present in cocoa, green tea and red wine. It is a strong antioxidant, has antinociceptive, insulin mimic actions and improves heart health; it has the potential to increase CREB-regulated gene expression and increase GluR2 levels and thus modulate neurotransmission, plasticity and synaptogenesis. (-)-Epicatechin inhibits cyclooxygenase-1 (COX-1) with an IC50 of 3.2 μM; it inhibits the IL-1β-induced expression of iNOS by blocking the nuclear localization of the p65 subunit of NF-κB.
    Targets: 5-HT Receptor | Potassium Channel | ATPase | LOX | IL Receptor | NOS | NO | ERK | Akt | COX-1 | p65 | NF-κB
    In vitro:
    J Agric Food Chem. 2012 Jul 4;60(26):6515-23.
    Antioxidant activity and diffusion of catechin and epicatechin from antioxidant active films made of poly(L-lactic acid).[Pubmed: 22681400]
    Active membranes and food packaging containing antioxidants like catechin and epicatechin, combined with the use of materials made of biopolymers obtained from renewable sources, could create a novel alternative to reduce oxidation in food, pharmaceutical, and cosmetic products.
    METHODS AND RESULTS:
    Poly(94% L-lactic acid) films containing 1.28% catechin and 1.50% epicatechin were extruded in a pilot plant-scale extrusion machine. The diffusion kinetics of catechin and epicatechin into 95% ethanol at 20, 30, 40, and 50 °C and 50% ethanol at 40 °C displayed Fickian release behavior and diffusion coefficients between 0.5 and 50 × 10(-11) cm(2)/s. According to the Arrhenius equation, the energy of activation for the diffusion of catechin and epicatechin in the films was 110.43 and 98.92 kJ/mol, respectively. The antioxidant activity of the films was measured in methanol extracts containing 46.42 μg/mL of catechin and 57.52 μg/mL of epicatechin as 32.90 and 36.68% of scavenging the 2,2-diphenyl-1-picrylhydrazyl radical, respectively.
    Proc Natl Acad Sci U S A. 2006 Jan 24;103(4):1024-9.
    (-)-Epicatechin mediates beneficial effects of flavanol-rich cocoa on vascular function in humans.[Pubmed: 16418281 ]
    Epidemiological and medical anthropological investigations suggest that flavanol-rich foods exert cardiovascular health benefits. Endothelial dysfunction, a prognostically relevant key event in atherosclerosis, is characterized by a decreased bioactivity of nitric oxide (NO) and impaired flow-mediated vasodilation (FMD).
    METHODS AND RESULTS:
    We show in healthy male adults that the ingestion of flavanol-rich cocoa was associated with acute elevations in levels of circulating NO species, an enhanced FMD response of conduit arteries, and an augmented microcirculation. In addition, the concentrations and the chemical profiles of circulating flavanol metabolites were determined, and multivariate regression analyses identified (-)-epicatechin and its metabolite, epicatechin-7-O-glucuronide, as independent predictors of the vascular effects after flavanol-rich cocoa ingestion. A mixture of flavanols/metabolites, resembling the profile and concentration of circulating flavanol compounds in plasma after cocoa ingestion, induced a relaxation in preconstricted rabbit aortic rings ex vivo, thus mimicking acetylcholine-induced relaxations. Ex vivo flavanol-induced relaxation, as well as the in vivo increases in FMD, were abolished by inhibition of NO synthase. Oral administration of chemically pure (-)-epicatechin to humans closely emulated acute vascular effects of flavanol-rich cocoa. Finally, the concept that a chronic intake of high-flavanol diets is associated with prolonged, augmented NO synthesis is supported by data that indicate a correlation between the chronic consumption of a cocoa flavanol-rich diet and the augmented urinary excretion of NO metabolites.
    CONCLUSIONS:
    Collectively, our data demonstrate that the human ingestion of the flavanol (-)-epicatechin is, at least in part, causally linked to the reported vascular effects observed after the consumption of flavanol-rich cocoa.
    2015;2015:181260.
    Molecular Mechanisms and Therapeutic Effects of (-)-Epicatechin and Other Polyphenols in Cancer, Inflammation, Diabetes, and Neurodegeneration[Pubmed: 26180580]
    With recent insight into the mechanisms involved in diseases, such as cardiovascular disease, cancer, stroke, neurodegenerative diseases, and diabetes, more efficient modes of treatment are now being assessed. Traditional medicine including the use of natural products is widely practiced around the world, assuming that certain natural products contain the healing properties that may in fact have a preventative role in many of the diseases plaguing the human population. This paper reviews the biological effects of a group of natural compounds called polyphenols, including apigenin, epigallocatechin gallate, genistein, and (-)-epicatechin, with a focus on the latter. (-)-Epicatechin has several unique features responsible for a variety of its effects. One of these is its ability to interact with and neutralize reactive oxygen species (ROS) in the cell. (-)-Epicatechin also modulates cell signaling including the MAP kinase pathway, which is involved in cell proliferation. Mutations in this pathway are often associated with malignancies, and the use of (-)-epicatechin holds promise as a preventative agent and as an adjunct for chemotherapy and radiation therapy to improve outcome. This paper discusses the potential of some phenolic compounds to maintain, protect, and possibly reinstate health.
    In vivo:
    Life Sci. 2013 Oct 17;93(17):637-45.
    Analysis of the mechanisms underlying the antinociceptive effect of epicatechin in diabetic rats.[Pubmed: 24012613 ]
    The purpose of this study was to investigate the antinociceptive effect of epicatechin as well as the possible mechanisms of action in diabetic rats.
    METHODS AND RESULTS:
    Rats were injected with streptozotocin to produce hyperglycemia. The formalin test was used to assess the nociceptive activity. Acute pre-treatment with epicatechin (0.03-30 mg/kg, i.p.) prevented formalin-induced nociception in diabetic rats. Furthermore, daily or every other day treatment for 2 weeks with epicatechin (0.03-30 mg/kg, i.p.) also prevented formalin-induced nociception in diabetic rats. Acute epicatechin-induced antinociception was prevented by l-NAME (N(ω)-nitro-l-arginine methyl ester hydrochloride, 1-10mg/kg, non-selective nitric oxide synthesis inhibitor), 7-nitroindazole (0.1-1mg/kg, selective neuronal nitric oxide synthesis inhibitor), ODQ (1H-(1,2,4)-oxadiazolo(4,2-a)quinoxalin-1-one, 0.2-2mg/kg, guanylyl cyclase inhibitor) or glibenclamide (1-10mg/kg, ATP-sensitive K(+) channel blocker). Moreover, epicatechin (3mg/kg)-induced antinociception was fully prevented by methiothepin (0.1-1mg/kg, serotonergic receptor antagonist), WAY-100635 (0.03-0.3mg/kg, selective 5-HT1A receptor antagonist) or SB-224289 (0.03-0.3mg/kg, selective 5-HT1B receptor antagonist). In contrast, BRL-15572 (0.03-0.3mg/kg, selective 5-HT1D receptor antagonist) only slightly prevented the antinociceptive effect of epicatechin. Naloxone (0.1-1mg/kg, opioid antagonist) did not modify epicatechin's effect.
    CONCLUSIONS:
    Data suggest the involvement of the nitric oxide-cyclic GMP-K(+) channel pathway as well as activation of 5-HT1A and 5HT1B, and at a lesser extent, 5-HT1D, but not opioid, receptors in the antinociceptive effect of epicatechin in diabetic rats. Our data suggest that acute or chronic treatment with epicatechin may prove to be effective to treat nociceptive hypersensitivity in diabetic patients.
    Oxid Med Cell Longev. 2014;2014:691015.
    Epicatechin and catechin modulate endothelial activation induced by platelets of patients with peripheral artery disease.[Pubmed: 25180068 ]
    Platelet activation contributes to the alteration of endothelial function, a critical initial step in atherogenesis through the production and release of prooxidant mediators. There is uncertainty about the precise role of polyphenols in interaction between platelets and endothelial cells (ECs). We aimed to investigate whether polyphenols are able to reduce endothelial activation induced by activated platelets.
    METHODS AND RESULTS:
    First, we compared platelet activation and flow-mediated dilation (FMD) in 10 healthy subjects (HS) and 10 patients with peripheral artery disease (PAD). Then, we evaluated the effect of epicatechin plus catechin on platelet-HUVEC interaction by measuring soluble cell adhesion molecules (CAMs), NOx production, and eNOS phosphorylation (p-eNOS) in HUVEC. Compared to HS, PAD patients had enhanced platelet activation. Conversely, PAD patients had lower FMD than HS. Supernatant of activated platelets from PAD patients induced an increase of sCAMs release and a decrease of p-eNOS and nitric oxide (NO) bioavailability compared to unstimulated HUVEC. Coincubation of HUVEC, with supernatant of PAD platelets patients, pretreated with a scalar dose of the polyphenols, resulted in a decrease of sCAMs release and in an increase of p-eNOS and NO bioavailability.
    CONCLUSIONS:
    This study demonstrates that epicatechin plus catechin reduces endothelial activation induced by activated platelets.
    制备储备液(仅供参考)
    1 mg 5 mg 10 mg 20 mg 25 mg
    1 mM 3.4447 mL 17.2236 mL 34.4471 mL 68.8942 mL 86.1178 mL
    5 mM 0.6889 mL 3.4447 mL 6.8894 mL 13.7788 mL 17.2236 mL
    10 mM 0.3445 mL 1.7224 mL 3.4447 mL 6.8894 mL 8.6118 mL
    50 mM 0.0689 mL 0.3445 mL 0.6889 mL 1.3779 mL 1.7224 mL
    100 mM 0.0344 mL 0.1722 mL 0.3445 mL 0.6889 mL 0.8612 mL
    * Note: If you are in the process of experiment, it's need to make the dilution ratios of the samples. The dilution data of the sheet for your reference. Normally, it's can get a better solubility within lower of Concentrations.
    部分图片展示
    产品名称 产品编号 CAS编号 分子式 = 分子量 位单 联系QQ
    表没食子儿茶素3-O-(3''-O-甲基)没食子酸酯; (-)-Epigallocatechin-3-(3''-O-methyl) gallate CFN92081 83104-87-4 C23H20O11 = 472.4 10mg QQ客服:3257982914
    (-)-表阿夫儿茶精; (-)-Epiafzelechin CFN98271 24808-04-6 C15H14O5 = 274.3 10mg QQ客服:2056216494
    3-羟基-4',5,7-三甲氧基黄烷; 3-Hydroxy-4',5,7-trimethoxyflavan CFN95680 3143-21-3 C18H20O5 = 316.4 5mg QQ客服:2056216494
    3,3'-二羟基-4',5,7-三甲氧基黄烷; 3,3'-Dihydroxy-4',5,7-trimethoxyflavan CFN95679 97914-22-2 C18H20O6 = 332.4 5mg QQ客服:1457312923
    3,4'-二羟基-3',5,7-三甲氧基黄烷; 3,4'-Dihydroxy-3,5',7-trimethoxyflavan CFN97558 97914-19-7 C18H20O6 = 332.4 5mg QQ客服:1457312923
    (2R-cis)-2-(1,3-苯并二恶茂-5-基)-3,4-二氢-5,7-二甲氧基-2H-1-苯并吡喃-3-醇; 3-Hydroxy-5,7-dimethoxy-3',4'-methylenedioxyflavan CFN99685 162602-04-2 C18H18O6 = 330.3 5mg QQ客服:2056216494
    表儿茶素; Epicatechin CFN98781 490-46-0 C15H14O6 = 290.3 20mg QQ客服:3257982914
    (-)-表儿茶精五乙酸酯; Epicatechin pentaacetate CFN98020 20194-41-6 C25H24O11 = 500.5 5mg QQ客服:3257982914
    表儿茶素没食子酸酯; (-)-Epicatechin gallate CFN99570 1257-08-5 C22H18O10 = 442.38 20mg QQ客服:1413575084
    表儿茶素3-O-(3''-O-甲基)没食子酸酯; (-)-Epicatechin-3-(3''-O-methyl) gallate CFN92080 83104-86-3 C23H20O10 = 456.4 5mg QQ客服:1413575084

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