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B20372	二氢杨梅素
源叶	分析标准品,HPLC≥98%

英文名：
Dihydromyricetin

别名：
(2R,3R)-3,5,7-三羟基-2-(3,4,5-三羟基苯基)苯并二氢吡喃-4-酮; 蛇葡萄素;

CAS号：
27200-12-0

分子式：
C₁₅H₁₂O₈

分子量：
320.25

MDL：
MFCD00189451

核磁/质谱：

品牌	货号	产品规格	价格(RMB)	库存（上海）	北京	武汉	南京	计量单位	加入购物车...
源叶	B20372-20mg	分析标准品,HPLC≥98%	￥180.00元	>10	5	-	5	EA	加入购物车
源叶	B20372-100mg	分析标准品,HPLC≥98%	￥630.00元	>10	-	-	-	EA	加入购物车
源叶	B20372-1g	分析标准品,HPLC≥98%	￥3500.00元	>10	-	-	-	EA	加入购物车

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产品介绍

参考文献(78篇)

质检证书(COA)

摩尔浓度计算器

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熔点： 245-246°C

沸点： 780.7°C

外观：白色或类白色粉末

溶解性： DMSO：50mg/ml

储存条件： 2-8℃

注意：部分产品我司仅能提供部分信息，我司不保证所提供信息的权威性，仅供客户参考交流研究之用。

78. [4.8] Jun Chen et al."Dihydromyricetin, a flavonoid from vine tea (Ampelopsis grossedentata) provides hepatoprotection by modulating gut microbiota-mediated bile acid homeostasis."Journal of Agriculture and Food Research.2024 Sep;:101376

77. [5] Wenyi Ran et al."Antibiofilm mechanism of 2R,3R-dihydromyricetin by targeting sortase A and its application against Staphylococcus aureus adhesion on eggshell."INTERNATIONAL JOURNAL OF FOOD MICROBIOLOGY.2025 Jan;426:110925

76. [6] Xuezhi Tian et al."Identification of natural inhibitors targeting polyphenol oxidase through machine learning-assisted virtual screening and investigation of molecular mechanisms using multispectral experiments."LWT-FOOD SCIENCE AND TECHNOLOGY.2024 Sep;20

75. [7] Mohammad Molaveisi et al."Nanocochleates as novel delivery vehicles for enhancement of water solubility, stability and controlled release of dihydromyricetin in gastrointestinal tract."FOOD RESEARCH INTERNATIONAL.2024 Dec;197:115174

74. [1.6] Qi Li et al."Dihydromyricetin improves high glucose induced dopaminergic neuronal damage by activating AMPK-autophagy signaling pathway."EXPERIMENTAL AND CLINICAL ENDOCRINOLOGY & DIABETES.2024 Aug;0:

73. [5] Hongmei Yin et al."Dihydromyricetin Nanoparticles Alleviate Lipopolysaccharide-Induced Acute Kidney Injury by Decreasing Inflammation and Cell Apoptosis via the TLR4/NF-κB Pathway."Journal of Functional Biomaterials.2024 Sep;15(9):249

72. [5.3] Zhiwei Li et al."Brain-Targeting Dihydromyricetin-Decorated Selenium Nanoparticles Attenuate Oxidative Stress for Treatment of Alzheimer’s Disease."ACS Applied Nano Materials.2024;7(17):20411–20424

71. [4.8] Xueni Ma et al."Dihydromyricetin ameliorates experimental ulcerative colitis by inhibiting neutrophil extracellular traps formation via the HIF-1α/VEGFA signaling pathway."INTERNATIONAL IMMUNOPHARMACOLOGY.2024 Sep;138:112572

70. [8.5] Yunyi Chen et al."Hepatoprotective potential of four fruit extracts rich in different structural flavonoids against alcohol-induced liver injury via gut microbiota-liver axis."FOOD CHEMISTRY.2024 Dec;460:140460

69. [IF=5.6] Ling-Xiao Qi et al."Silver Nanoparticles Encapped by Dihydromyricetin: Optimization of Green Synthesis, Characterization, Toxicity, and Anti-MRSA Infection Activities for Zebrafish (Danio rerio)."INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES".2024 Jan;25(10

68. [IF=8.2] Yulong Wei et al."New insight into molecular mechanisms of different polyphenols affecting Sirtuin 3 deacetylation activity."INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES".2024 May;:132026

67. [IF=8.8] Yajie Wang et al."Effects of myricetin and its derivatives on nonenzymatic glycation: A mechanism study based on proteomic modification and fluorescence spectroscopy analysis."FOOD CHEMISTRY".2024 May;:139880

66. [IF=5.6] Heng Sun et al."Molecular-Scale Investigations Reveal the Effect of Natural Polyphenols on BAX/Bcl-2 Interactions."INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES".2024 Jan;25(5):2474

65. [IF=3.6] Wang XiaoChun et al."Dihydromyricetin alleviates inflammatory bowel disease associated intestinal fibrosis by inducing autophagy through the PI3K/AKT/mTOR signaling pathway."NAUNYN-SCHMIEDEBERGS ARCHIVES OF PHARMACOLOGY.2023 Dec;:1-12

64. [IF=8.7] Pei Tianlin et al."Gap-free genome assembly and CYP450 gene family analysis reveal the biosynthesis of anthocyanins in Scutellaria baicalensis."Horticulture Research.2023 Nov;:

63. [IF=6] Zeru Xu et al."Targeted screening of baicalein inhibitor with controlling lipid and protein oxidation for quality preservation of grass carp fillets."LWT-FOOD SCIENCE AND TECHNOLOGY.2023 Nov;:115526

62. [IF=4.6] Xiaoying Zhu et al."Study on Dihydromyricetin Improving Aflatoxin Induced Liver Injury Based on Network Pharmacology and Molecular Docking."Toxics.10.3390/toxics11090760

61. [IF=5.4] Jianxia Dong et al."Preparation of Dihydromyricetin-Loaded Self-Emulsifying Drug Delivery System and Its Anti-Alcoholism Effect."Pharmaceutics.10.3390/pharmaceutics15092296

60. [IF=4.5] Miao Xiaolei et al."Dihydromyricetin ameliorated nonalcoholic steatohepatitis in mice by regulating the composition of serous lipids, bile acids and ileal microflora."Lipids in Health and Disease.2023 Dec;22(1):1-15

59. [IF=5.2] Ninghai Lu et al."Characterization of a Dihydromyricetin/α-Lactoalbumin Covalent Complex and Its Application in Nano-emulsions."Foods.2023 Jan;12(14):2783

58. [IF=7] Xuechun Zhang et al."Chemical Constituents, Antioxidant, and α-Glucosidase Inhibitory Activities of Different Fermented Gynostemma Pentaphyllum Leaves and Untargeted Metabolomic Measurement of the Metabolite Variation."Antioxidants.2023 Aug;12(8):1505

57. [IF=1.7] Zhouyi Zhang et al."Revealing the differences in phenolics in different parts of Taraxacum mongolicum using UPLC-MS/MS."Phytochemistry Letters.2023 Aug;56:13

56. [IF=8.2] Qiaohua Yan et al."Preparation, characterization and protective effect of chitosan - Tripolyphosphate encapsulated dihydromyricetin nanoparticles on acute kidney injury caused by cisplatin."INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES.2023 Aug;245:1

55. [IF=2.586] Yuanzhi Yao et al."Dihydromyricetin promotes GLP-1 release and glucose uptake by STC-1 cells and enhances the effects of metformin upon STC-1 cells and diabetic mouse model."TISSUE & CELL.2023 May;:102108

54. [IF=5.195] Haotian Zhang et al."Spectrum-effect relationship study to reveal the pharmacodynamic substances in Flos Puerariae-Semen Hoveniae medicine pair for the treatment of alcohol-induced liver damage."JOURNAL OF ETHNOPHARMACOLOGY.2023 Oct;314:116628

53. [IF=6.317] Lufang Chen et al."3D-QSAR studies on the structure–bitterness analysis of citrus flavonoids."Food & Function.2023 Apr;:

52. [IF=8.025] Yan Chen et al."Konjac glucomannan-dihydromyricetin complex improves viscosity and hydration capacity of konjac glucomannan as well as the thermal stability of dihydromyricetin."INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES.2023 Apr;:124666

51. [5.561] Xiaomei Fu et al."Multi-Index Comprehensive Assessment Optimized Critical Flavonoids Extraction from Semen Hoveniae and Their In Vitro Digestive Behavior Evaluation."Foods.2023 Jan;12(4):773

50. [6.269] Sheng Geng et al."An investigation on pickering nano-emulsions stabilized by dihydromyricetin/high-amylose corn starch composite particles: Preparation conditions and carrier properties."Current Research in Food Science.2023 Jan;6:100458

49. [6.317] Shulan Ruan et al."The synergic effects and mechanism of KGM-DMY complex in the prevention of obesity and enhancement of fatigue resistance in mice."Food & Function.2023 Feb;:

48. [6.627] Guoan Shen et al."The discovery of a key prenyltransferase gene assisted by a chromosome-level Epimedium pubescens genome.."Frontiers in Plant Science.2022 Nov;13:1034943-1034943

47. [7.666] Jun Huang et al."Dihydromyricetin Attenuates Depressive-like Behaviors in Mice by Inhibiting the AGE-RAGE Signaling Pathway."Cells.2022 Jan;11(23):3730

46. [IF=5.195] Xiaowei Xiong et al."Dihydromyricetin contributes to weight loss via pro-browning mediated by mitochondrial fission in white adipose."EUROPEAN JOURNAL OF PHARMACOLOGY.2022 Nov;935:175345

45. [IF=6.208] Pan Wang et al."Discovery of Flavonoids as Novel Inhibitors of ATP Citrate Lyase: Structure–Activity Relationship and Inhibition Profiles."INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES.2022 Jan;23(18):10747

44. [IF=6.576] Junkun Pan et al."Inhibition of Dipeptidyl Peptidase-4 by Flavonoids: Structure–Activity Relationship, Kinetics and Interaction Mechanism."Frontiers in Nutrition. 2022; 9: 892426

43. [IF=7.514] Jie Meng et al."Conduction of a chemical structure-guided metabolic phenotype analysis method targeting phenylpropane pathway via LC-MS: Ginkgo biloba and soybean as examples."FOOD CHEMISTRY. 2022 Oct;390:133155

42. [IF=3.332] Yicong Wei et al."Dihydromyricetin improves LPS-induced sickness and depressive-like behaviors in mice by inhibiting the TLR4/Akt/HIF1a/NLRP3 pathway."Behav Brain Res. 2022 Apr;423:113775

41. [IF=1.559] Huang Tao et al."Effects of dietary supplementation with Ampelopsis grossedentata extract on production performance and body health of hens."Trop Anim Health Pro. 2022 Feb;54(1):1-14

40. [IF=5.914] Ying Li et al."Vine Tea (Ampelopsis grossedentata) Extract Attenuates CCl4-Induced Liver Injury by Restoring Gut Microbiota Dysbiosis in Mice."Molecular Nutrition & Food Research. 2022 Mar 01

39. [IF=3.645] Ziyun Wei et al.Studies on chemical constituents of Flos Puerariae-Semen Hoveniae medicine pair by HPLC and Fourier transform ion cyclotron resonance mass spectrometry.Journal Of Separation Science.2021 Nov 06

38. [IF=7.514] Sheng Geng et al.Fabrication of food-grade Pickering high internal phase emulsions (HIPEs) stabilized by a dihydromyricetin and lysozyme mixture.Food Chem. 2021 Nov;:131576

37. [IF=2.72] Meiling Han et al."Phenolic compounds present in fruit extracts of Malus spp. show antioxidative and pro-apoptotic effects on human gastric cancer cell lines."J Food Biochem. 2019 Nov;43(11):e13028

36. [IF=3.032] Jiaxin Meng et al."In vitro Anthocyanin Induction and Metabolite Analysis in Malus spectabilis Leaves Under Low Nitrogen Conditions."Hortic Plant J. 2020 Sep;6:284

35. [IF=3.361] Mengmeng Yuan et al."The interaction of dietary flavonoids with xanthine oxidase in vitro: molecular property-binding affinity relationship aspects."Rsc Adv. 2019 Apr;9(19):10781-10788

34. [IF=3.585] Haiyin Yang et al."Multi-walled carbon nanotubes promoted lipid accumulation in human aortic smooth muscle cells."Toxicol Appl Pharm. 2019 Jul;374:11

33. [IF=3.616] Hui Ma et al."Effects of microwave irradiation on the expression of key flavonoid biosynthetic enzyme genes and the accumulation of flavonoid products in Fagopyrum tataricum sprouts."J Cereal Sci. 2021 Sep;101:103275

32. [IF=3.645] Qingyu Zhang et al."Quality control of Semen Hoveniae by high-performance liquid chromatography coupled to Fourier transform-ion cyclotron resonance mass spectrometry."J Sep Sci. 2021 Sep;44(18):3366-3375

31. [IF=4.076] Yanhong Zhang et al."Insight into the Formation of Cocrystals of Flavonoids and 4,4′-Vinylenedipyridine: Heteromolecular Hydrogen Bonds, Molar Ratio, and Structural Analysis."Cryst Growth Des. 2021;21(5):2720–2733

30. [IF=4.411] Min Yang et al."Comparative Transcriptome Analysis of Ampelopsis megalophylla for Identifying Genes Involved in Flavonoid Biosynthesis and Accumulation during Different Seasons."Molecules. 2019 Jan;24(7):1267

29. [IF=7.514] Yongfang Ren et al."Antioxidant activity, stability, in vitro digestion and cytotoxicity of two dietary polyphenols co-loaded by β-lactoglobulin."Food Chem. 2022 Mar;371:131385

28. [IF=9.229] Linlin Deng et al."Highly Crystalline Covalent Organic Frameworks Act as a Dual-Functional Fluorescent-Sensing Platform for Myricetin and Water, and Adsorbents for Myricetin."Acs Appl Mater Inter. 2021;13(28):33449–33463

27. [IF=11.878] Li Xinming et al."A fast and specific fluorescent probe for thioredoxin reductase that works via disulphide bond cleavage."Nat Commun. 2019 Jun;10(1):1-12

26. [IF=4.432] Baohua Huang et al."Dihydromyricetin from ampelopsis grossedentata protects against vascular neointimal formation via induction of TR3."Eur J Pharmacol. 2018 Nov;838:23

25. Lyu, Yunbin, et al. "Identification and characterization of three flavonoid 3-O-glycosyltransferases from Epimedium koreanum Nakai." Biochemical Engineering Journal 163 (2020): 107759.https://doi.org/10.1016/j.bej.2020.107759

24. 杨毛毛,罗花彩,徐伟,林珠灿,郭素华,沙玫.藤茶总黄酮固体脂质纳米粒抗肝癌活性及其药动学研究[J].中成药,2020,42(09):2249-2254.

23. 郑琳,高士伟,刘盼盼,郑鹏程,龚自明.藤茶中二氢杨梅素的研究[J].湖北农业科学,2020,59(24):133-134+140.

22. 符传刚,刘沙,邓堂.二氢杨梅素联合放疗对乳腺癌荷瘤小鼠肿瘤生长的抑制作用[J].中国临床药理学杂志,2020,36(16):2455-2458.

21. 龚金炎, 薛薇, 李言郡,等. 藤茶抑制N-亚硝胺的生成及诱导人前列腺癌PC-3细胞凋亡作用[J]. 中成药, 2017, 39(010):2160-2163.

20. 杨毛毛, 罗花彩, 沙玫,等. 藤茶总黄酮固体脂质纳米粒处方的优化及其体外释药行为[J]. 中成药, 2019, 041(008):1941-1945.

19. 郑琳, 龚自明. 破壁式方法提取藤茶中二氢杨梅素的工艺研究[J]. 湖北农业科学, 2018, v.57;No.619(22):120-121+129.

18. 叶勇, 欧贤红, 黄秋洁. 正交法优选二氢杨梅素微囊的制备工艺[J]. 时珍国医国药, 2012(09):2251-2252.

17. 郑琳, 刘盼盼, 王雪萍,等. 天然抗氧化剂二氢杨梅素的提取工艺比较研究[J]. 湖北农业科学, 2019, 058(020):137-142.

16. 黄建华, 谢思敏, 彭清华,等. 基于感官审评与HPLC-DAD法的不同月份藤茶质量研究[J]. 中国野生植物资源, 2020, 039(004):7-10.

15. 欧贤红. 双氢杨梅素在家兔体内的药动学研究[J]. 安徽农业科学 40(16):8941-8942.

14. 于凯丽吴慧莹曲爱爱等. 切花菊3个品种的飞燕草素苷合成能力分析[J]. 园艺学报 2018 045(010):2045-2051.

13. 张文娟陈一桢唐兰如等. 二氢杨梅素长循环纳米脂质体的制备及大鼠体内药动学研究[J]. 中草药 2018 49(04):51-58.

12. 符传刚刘沙邓堂.二氢杨梅素联合放疗对乳腺癌荷瘤小鼠肿瘤生长的抑制作用[J].中国临床药理学杂志 2020 36(16):2455-2458.

11. 王楠楠郁建平. 二氢杨梅素注射剂的处方筛选及抑菌活性研究[J]. 山地农业生物学报 2014 000(004):43-47.

10. 于旭东曲浩天朱晓峰等. 二氢杨梅素改善抑郁样行为及应激诱导认知障碍的作用[J]. 华西药学杂志 2018 33(06):585-589.

9. 王乐李碧蓉肖志勇等. 二氢杨梅素改善慢性社会挫败应激小鼠认知与情感障碍[J]. 中国应用生理学杂志 35(6).

8. 张捷张恩艳郭宏举等. 二氢杨梅素对辐射引起神经元凋亡的保护作用[J]. 解放军药学学报 2018 v.34(04):8-11+16.

7. 刘金河葛章文张望明等. 二氢杨梅素对肺癌A549细胞增殖和凋亡的影响[J]. 贵阳医学院学报 2019 044(010):1140-1144.

6. 逯凤肖王恩花秦湉等. 二氢杨梅素对糖尿病小鼠降糖作用研究[J]. 中药药理与临床 2016(3):45-48.

5. 史宁郭宏举王欢等. 二氢杨梅素对60Co-γ辐射小鼠氧化应激损伤的保护作用[J]. 解放军药学学报 2017 033(004):353-355.

4. 刘金河张望明晏文涛等. 二氢杨梅素对Bloom解旋酶结构和生物学活性的影响[J]. 中国药理学通报 2019 v.35(10):131-138.

3. 樊静静龚飞郁建平. 二氢杨梅素在小鼠体内的药代动力学研究[J]. 山地农业生物学报 2014 33(003):13-16 49.

2. 范炎峰荆玲范金点等. 二氢杨梅素固体分散体的制备及其体内药动学研究[J]. 中成药 2020年42卷3期 553-558页 ISTIC PKU CSCD CA 2020.

1. 刘颢郁建平. 二氢杨梅素分散片制备工艺及质量控制[J]. 山地农业生物学报 2014(1):24-27.