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  • 洋地黄皂苷,毛地黄皂苷

    Digitonin

    洋地黄皂苷,毛地黄皂苷
    产品编号 CFN92831
    CAS编号 11024-24-1
    分子式 = 分子量 C56H92O29 = 1229.3
    产品纯度 >=98%
    物理属性 Powder
    化合物类型 Steroids
    植物来源 The herbs of Digitalis purpurea
    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
    提供自定义包装
    产品名称 产品编号 CAS编号 包装 QQ客服
    洋地黄皂苷,毛地黄皂苷 CFN92831 11024-24-1 10mg QQ客服:215959384
    洋地黄皂苷,毛地黄皂苷 CFN92831 11024-24-1 20mg QQ客服:215959384
    洋地黄皂苷,毛地黄皂苷 CFN92831 11024-24-1 50mg QQ客服:215959384
    洋地黄皂苷,毛地黄皂苷 CFN92831 11024-24-1 100mg QQ客服:215959384
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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
  • Korea Food Research Institute(KFRI) (Korea)
  • Korea Intitute of Science and Technology (KIST) (Korea)
  • Universidad de Ciencias y Artes de Chiapas (Mexico)
  • Helmholtz Zentrum München (Germany)
  • Osmania University (India)
  • Mendel University in Brno (Czech Republic)
  • Siksha O Anusandhan University (India)
  • CSIRO - Agriculture Flagship (Australia)
  • Shanghai Institute of Organic Chemistry (China)
  • Wroclaw Medical University (Poland)
  • Universite de Lille1 (France)
  • National Hellenic Research Foundation (Greece)
  • University of Limpopo (South Africa)
  • VIT University (India)
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  • 国外学术期刊发表的引用ChemFaces产品的部分文献
  • Plants (Basel).2021, 10(4):702.
  • Plants (Basel).2023, 12(5):1120.
  • J Insect Sci.2020, 20(5):18.
  • J Sep Sci.2021, 44(22):4064-4081.
  • Antioxidants (Basel).2023, 12(1):189.
  • Acta Agriculturae Scandinavica2015, 381-383
  • GENENCELL2023, 25:4356740
  • Journal of Mushroom2023, 21(4):215-221.
  • J.Pharm. & Biome. Anal.2023, 2: 100018.
  • Mol Cells.2018, 41(8):771-780
  • J Integr Plant Biol.2023, 13564.
  • Fitoterapia.2022, 157:105130.
  • Molecules. 2013, 18(11):14105-21
  • Fitoterapia.2024, 175:105958.
  • ScientificWorldJournal.2022, 2022:4806889.
  • Int J Mol Sci.2022, 23(23):15213.
  • Chemistry of plant raw materials2021, 1:pp 139-150
  • Journal of Functional Foods2022, 91:105019.
  • Appl. Sci.2020, 10(20),7374.
  • Molecules.2020, 25(15):3353.
  • Metabolites.2020, 11(1):E11.
  • Arch Biochem Biophys.2020, 687:108384.
  • Vietnam Journal of Science2022, 64(2), 69-75.
  • ...
  • 生物活性
    Description: Digitonin can increase cell permeability by binding to cholesterol molecules and reduce tumor growth. Digitonin solubilizes mitochondrial membrane, breaks the integrity of the respiratory chain and releases two mobile redox-active components: coenzyme Q (CoQ) and cytochrome c (cyt c).
    Targets: P-gp
    In vitro:
    Phytomedicine. 2013 Dec 15;21(1):47-61.
    Influence of combinations of digitonin with selected phenolics, terpenoids, and alkaloids on the expression and activity of P-glycoprotein in leukaemia and colon cancer cells.[Pubmed: 23999162]
    P-glycoprotein (P-gp or MDR1) is an ATP-binding cassette (ABC) transporter. It is involved in the efflux of several anticancer drugs, which leads to chemotherapy failure and multidrug resistance (MDR) in cancer cells. Representative secondary metabolites (SM) including phenolics (EGCG and thymol), terpenoids (menthol, aromadendrene, β-sitosterol-O-glucoside, and β-carotene), and alkaloids (glaucine, harmine, and sanguinarine) were evaluated as potential P-gp inhibitors (transporter activity and expression level) in P-gp expressing Caco-2 and CEM/ADR5000 cancer cell lines.
    METHODS AND RESULTS:
    Selected SM increased the accumulation of the rhodamine 123 (Rho123) and calcein-AM (CAM) in a dose dependent manner in Caco-2 cells, indicating that they act as competitive inhibitors of P-gp. Non-toxic concentrations of β-carotene (40μM) and sanguinarine (1μM) significantly inhibited Rho123 and CAM efflux in CEM/ADR5000 cells by 222.42% and 259.25% and by 244.02% and 290.16%, respectively relative to verapamil (100%). Combination of the saponin digitonin (5μM), which also inhibits P-gp, with SM significantly enhanced the inhibition of P-gp activity. The results were correlated with the data obtained from a quantitative analysis of MDR1 expression. Both compounds significantly decreased mRNA levels of the MDR1 gene to 48% (p<0.01) and 46% (p<0.01) in Caco-2, and to 61% (p<0.05) and 1% (p<0.001) in CEM/ADR5000 cells, respectively as compared to the untreated control (100%). Combinations of digitonin with SM resulted in a significant down-regulation of MDR1.
    CONCLUSIONS:
    Our findings provide evidence that the selected SM interfere directly and/or indirectly with P-gp function. Combinations of different P-gp substrates, such as digitonin alone and together with the set of SM, can mediate MDR reversal in cancer cells.
    Methods Cell Biol. 2014;122:331-52.
    Analysis of nucleocytoplasmic transport in digitonin-permeabilized cells under different cellular conditions.[Pubmed: 24857737]
    The regulation of nucleocytoplasmic transport is crucial not only for basic cellular activities but also for physiological adaptation to specific situation during the cell cycle, development, or stress. Although a wide variety of transport pathways have been identified in eukaryotic cells, the functional significance of their multiplicity remains unclear. The best-characterized nuclear transport receptors (NTRs) are the members of the importin β family (karyopherin, transportin) whose association with specific cargoes is regulated by the GTPase Ran.
    METHODS AND RESULTS:
    In this chapter, we first provide an overview of the various expression vectors used to purify recombinant NTRs. We then describe two sets of recent examples of using well-established digitonin-permeabilized cell-free transport systems in mammalian cells to mimic different cellular conditions in living cells: normal/heat-shock conditions and interphase/mitosis. In the former case, physiological regulation impacts different transport pathways in opposite ways. In the latter case, the importin β-Ran system is used at different cell-cycle stages but with the same biochemical principle to specify the nuclear localization and chromatin loading of a specific protein, respectively.
    CONCLUSIONS:
    This in vitro transport assay, when adapted to specific cellular conditions or particular substrates, should help to uncover specific transport pathways or transport factors function under different cellular conditions.
    Phytomedicine. 2012 Nov 15;19(14):1288-97.
    Synergism of three-drug combinations of sanguinarine and other plant secondary metabolites with digitonin and doxorubicin in multi-drug resistant cancer cells.[Pubmed: 23146422]
    We determined the ability of some phytochemicals, including alkaloids (glaucine, harmine, and sanguinarine), phenolics (EGCG and thymol), and terpenoids (menthol, aromadendrene, β-sitosterol-O-glucoside, and β-carotene), alone or in combination with the saponin digitonin to reverse the relative multi-drug resistance of Caco-2 and CEM/ADR5000 cells to the chemotherapeutical agent doxorubicin.
    METHODS AND RESULTS:
    The IC(50) of doxorubicin in Caco-2 and CEM/ADR5000 was 4.22 and 44.08μM, respectively. Combination of non-toxic concentrations of individual secondary metabolite with doxorubicin synergistically sensitized Caco-2 and CEM/ADR5000 cells, and significantly enhanced the cytotoxicity of doxorubicin. Furthermore, three-drug combinations (secondary metabolite+digitonin+doxorubicin) were even more powerful. The best synergist was the benzophenanthridine alkaloid sanguinarine. It reduced the IC(50) value of doxorubicin 17.58-fold in two-drug combinations (sanguinarine+doxorubicin) and even 35.17-fold in three-drug combinations (sanguinarine+digitonin+doxorubicin) in Caco-2 cells.
    CONCLUSIONS:
    Thus synergistic drug combinations offer the possibility to enhance doxorubicin efficacy in chemotherapy.
    制备储备液(仅供参考)
    1 mg 5 mg 10 mg 20 mg 25 mg
    1 mM 0.8135 mL 4.0674 mL 8.1347 mL 16.2694 mL 20.3368 mL
    5 mM 0.1627 mL 0.8135 mL 1.6269 mL 3.2539 mL 4.0674 mL
    10 mM 0.0813 mL 0.4067 mL 0.8135 mL 1.6269 mL 2.0337 mL
    50 mM 0.0163 mL 0.0813 mL 0.1627 mL 0.3254 mL 0.4067 mL
    100 mM 0.0081 mL 0.0407 mL 0.0813 mL 0.1627 mL 0.2034 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
    重楼皂苷VI; Polyphyllin VI CFN99954 55916-51-3 C39H62O13 = 738.91 20mg QQ客服:1413575084
    Mannioside A; Mannioside A CFN99055 1038922-95-0 C39H62O13 = 738.9 5mg QQ客服:2159513211
    麦冬皂苷Ra,麦冬皂苷1,麦冬苷元-3-O-新橙皮糖苷; Ophiogenin-3-O-alpha-L-rhaMnopyranosyl-(1->2)-beta-D-glucopyranoside CFN90638 128502-94-3 C39H62O14 = 754.9 10mg QQ客服:1457312923
    25(27)-Ene-elephanoside H; 25(27)-Ene-elephanoside H CFN95776 1592406-40-0 C39H60O14 = 752.9 5mg QQ客服:1457312923
    天冬宁B; Shatavarin IV CFN70458 84633-34-1 C45H74O17 = 887.1 5mg QQ客服:1413575084
    14-羟基麦冬皂苷C; 14-Hydroxy sprengerinin C CFN90636 1111088-89-1 C44H70O17 = 871.02 10mg QQ客服:2159513211
    17-羟基麦冬皂苷C; 17-Hydroxy sprengerinin C CFN90614 1029017-75-1 C44H70O17 = 871.02 10mg QQ客服:1457312923
    麦冬皂苷 C; Sprengerinin C CFN96366 88861-91-0 C44H70O16 = 855.0 5mg QQ客服:2056216494
    2''-O-乙酰麦冬皂苷 C; 2''-O-Acetylsprengerinin C CFN96364 1220707-33-4 C46H72O17 = 897.1 5mg QQ客服:2159513211
    Glucopyranoside,(3beta,25R)-17-hydroxyspirost-5-en-3-yl; Glucopyranoside,(3beta,25R)-17-hydroxyspirost-5-en-3-yl CFN92807 84914-58-9 C44H70O17 = 870.5 10mg QQ客服:2056216494

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