21637-25-2
异槲皮苷(2-(3,4-dihydroxyphenyl)-3-(β-D-glucofuranosyloxy)-5,7-dihydroxy-4H-1-benzopyran-4-one)
CAS: 21637-25-2
化学式: C21H20O12
| 中文名 | 异槲皮苷 |
| 英文名 | 2-(3,4-dihydroxyphenyl)-3-(β-D-glucofuranosyloxy)-5,7-dihydroxy-4H-1-benzopyran-4-one |
| 别名 | 异槲皮苷 异槲皮甙 槲皮素-3-葡萄糖甙 槲皮素-3-呋喃葡糖苷 槲皮素-3-氧葡萄糖甙 (3-槲皮素)-Β-D-葡萄糖苷 (3-槲皮素)-β-D-葡萄糖苷 槲皮素-3-O-Β-D-吡喃葡萄糖苷 ISOQUERCITRIN 异槲皮苷 异槲皮甙,异栎素,槲皮素-3-葡萄糖甙 ISOQUERCITRIN 异槲皮苷 标准品 |
| 英文别名 | Isoquercetin ISOQUERCITRIN isoquercitrin Isoquercitroside QUERCETIN-3-GLUCOSIDE QUERCETIN-3-O-GLUCOSIDE QUERCETIN-3-BETA-D-GLUCOSIDE QUERCETIN 3-O-GLUCOPYRANOSIDE QUERCETIN-3-O-B-GLUCOPYRANOSIDE QUERCETIN-3-O-B-D-GLUCOFURANOSIDE QUERCETIN-3-O-BETA-GLUCOPYRANOSIDE QUERCETIN-3-O-BETA-D-GLUCOPYRANOSIDE 2-(3,4-Dihydroxyphenyl)-5,7-dihydroxy-4-oxo-4H-chromen-3-yl beta-D-glucopyranoside 2-(3,4-dihydroxyphenyl)-5,7-dihydroxy-4-oxo-4H-chromen-3-yl beta-D-glucofuranoside 2-(3,4-dihydroxyphenyl)-5,7-dihydroxy-4-oxo-4H-chromen-3-yl beta-D-galactopyranoside 2-(3,4-dihydroxyphenyl)-3-(β-D-glucofuranosyloxy)-5,7-dihydroxy-4H-1-benzopyran-4-one 4H-1-benzopyran-4-one, 2-(3,4-dihydroxyphenyl)-3-(beta-D-glucopyranosyloxy)-5,7-dihydroxy- |
| CAS | 21637-25-2 |
| EINECS | 244-488-5 |
| 化学式 | C21H20O12 |
| 分子量 | 464.38 |
| InChI | InChI=1/C21H20O12/c22-6-12(27)19-16(29)17(30)21(32-19)33-20-15(28)14-11(26)4-8(23)5-13(14)31-18(20)7-1-2-9(24)10(25)3-7/h1-5,12,16-17,19,21-27,29-30H,6H2/t12-,16-,17-,19-,21+/m1/s1 |
| InChIKey | OVSQVDMCBVZWGM-QSOFNFLRSA-N |
| 密度 | 1.87±0.1 g/cm3(Predicted) |
| 熔点 | 225-227° |
| 沸点 | 916.3±65.0 °C(Predicted) |
| 比旋光度 | -85 |
| 闪点 | 322.3°C |
| 蒸汽压 | 0mmHg at 25°C |
| 溶解度 | DMSO (微溶,加热),乙酸乙酯 (微溶),甲醇 (微溶,加热,S |
| 折射率 | 1.803 |
| 酸度系数 | 6.17±0.40(Predicted) |
| 存储条件 | Inert atmosphere,Store in freezer, under -20°C |
| 外观 | 整洁 |
| 颜色 | Yellow to Dark Yellow |
| 物化性质 | 几乎不溶于冷水,微溶于沸水,溶于碱溶液显深黄色 来源于锦葵科植物草棉(Gossypiumherbaceum L.)的花 |
| MDL号 | MFCD00017746 |
| 安全术语 | 24/25 - 避免与皮肤和眼睛接触。 |
| 危险品运输编号 | 2811 |
| WGK Germany | 3 |
| RTECS | LK8960000 |
| FLUKA BRAND F CODES | 10-23 |
| 海关编号 | 29389090 |
| 参考资料 展开查看 | 1. 王芳,计巧灵,邓倩,李玉薇.培养条件对罗布麻愈伤组织中金丝桃苷和异槲皮苷积累的影响[J].中成药,2012,34(10):1966-1971. 2. 范铭, 向露, 徐文慧,等. 大孔树脂纯化桑葚渣中α-淀粉酶抑制剂的工艺优化及其活性成分研究[J]. 浙江农业学报, 2019, 031(007):1154-1160. 3. 张亮亮, 张展诺, 闫可婧,等. 山楂不同溶剂提取物的抗氧化活性及对DNA和蛋白质氧化损伤的保护作用[J]. 食品研究与开发, 2020, 041(007):63-68. 4. 杨晓博, 王荣芳, 贾亚楠,等. 高效液相色谱法测定山楂叶中的9种酚类成分[J]. 食品工业科技, 2017, 38(010):62-66. 5. 许佳明, 赵安琦, 谢静,等. 应用高效逆流色谱分离桑叶黄酮类化合物[J]. 分析试验室, 2019, 038(003):266-269. 6. 刘永巧 魏颖 王扬 等. HPLC同时测定辅助降糖片中芦丁 异槲皮苷 槲皮素的含量[J]. 西部中医药 2020 033(002):P.22-25. 7. 杨健, 蒋超, 金艳,等. 密银花对照药材标定标准的研究[J]. 中国中药杂志, 2017(19). 8. 朱伟 赵赫 姚岚 等. UFLC-MS/MS法同时测定肺宁颗粒中6种化学成分[J]. 解放军药学学报 2017(04):356-358. 9. 陈希苗, 李美英, 许秋莉,等. 体外模拟胃肠消化中山楂多酚及抗氧化活性的变化[J]. 食品科学, 2019, 040(005):31-37. 10. 夏昆瑜, 张春磊, 曹征宇,等. 黄蜀葵花的化学成分研究[J]. 海峡药学, 2019, v.31;No.236(09):62-65. 11. 李俊 卢汝梅 黎云清 等. HPLC法同时测定九龙盘中6种成分[J]. 中成药 2020 v.42(05):126-130. 12. 霍宇航, 李檐堂, 刘丽丽,等. 基于主要功能成分的6 个品种枇杷叶分析评价[J]. 食品科学, 2019, 40(24). 13. 尹秀文, 侯成波, 陈江鹏,等. 采用在体单向肠灌流模型研究荷叶多成分整体的肠渗透性[J]. 中国中药杂志, 2017, 42(008):1525-1531. 14. 赵志国, 段文娟, 张晓梦,等. HPLC-DAD-ESI-TOF/MS鉴别和测定前列欣胶囊中多种成分及其多指标定量指纹图谱研究[J]. 药物分析杂志, 2017, 037(010):1810-1816. 15. 杜庆鑫, 魏艳秀, 刘攀峰,等. 杜仲雄花主要活性成分含量的多样性[J]. 林业科学, 2017, 053(002):35-43. 16. 杜庆鑫, 魏艳秀, 李钦,等. 杜仲雄花生长发育动态及活性成分量变化[J]. 中草药, 2017, 048(013):2746-2751. 17. 张恒,郑俏然,何靖柳,韦婷,刘翔,章斌.藏茶玫瑰乌梅无糖复合饮料研制及功能性成分分析与抗氧化研究[J].食品科技,2021,46(01):46-53+61. 18. 李文霞,孔静,武秋红,王梦林,路东波,孙仁弟,黄广伟,李思潼,范圆圆,黄玉娟,高园园,刘路路,陈思玉,姜艳艳,石任兵.基于有效基准特征图谱质量表征的江香薷饮片质量评价研究[J].环球中医药,2021,14(05):789-798. 19. 陆胜波. 铁核桃果实青皮和内种皮芦丁合成的转录组与代谢组分析[D].贵州大学,2020. 20. 吴裕红,彭新宇,张嘉慧,陈文露,徐志宏,龙晓英.枫蓼提取物成分分析及其主要成分黄酮对肠平滑肌的药效学研究[J].黑龙江畜牧兽医,2021(02):128-136. 21. 张月,唐钦悦,代娟,魏香奕,颜佳利,江岩.桑叶黄酮提取物制备及其体外抗氧化作用研究[J].中国食品添加剂,2020,31(09):47-52. 22. 庞雯辉,赵希娟,陈西,张耀海,王成秋,赵其阳,焦必宁.超高效液相色谱-四极杆-飞行时间高分辨质谱法快速筛查柠檬果实中的生物活性成分[J].食品与发酵工业,2021,47(04):222-230+235-237. 23. Pan, Feng, et al. "Fusarium redolens 6WBY3, an endophytic fungus isolated from Fritillaria unibracteata var. wabuensis, produces peimisine and imperialine-3β-d-glucoside." Fitoterapia 103 (2015): 213-221.https://doi.org/10.1016/j.fitote.2015.04.006 24. Gao, Mingliang, et al. "Evaluation of VEGF mediated pro-angiogenic and hemostatic effects and chemical marker investigation for Typhae Pollen and its processed product." Journal of Ethnopharmacology 268 (2021): 113591.https://doi.org/10.1016/j.jep.2020.113 25. Xie, Lihang, et al. "Identification of phytochemical markers for quality evaluation of tree peony stamen using comprehensive HPLC-based analysis." Industrial Crops and Products 154 (2020): 112711.https://doi.org/10.1016/j.indcrop.2020.112711 26. Tan, Si, et al. "Lycopene, polyphenols and antioxidant activities of three characteristic tomato cultivars subjected to two drying methods." Food Chemistry 338 (2021): 128062.https://doi.org/10.1016/j.foodchem.2020.128062 27. [IF=5.279] Yingying Wei et al."Hot Air Treatment Induces Disease Resistance through Activating the Phenylpropanoid Metabolism in Cherry Tomato Fruit."J Agr Food Chem. 2017;65(36):8003–8010 28. [IF=4.759] Lu Wang et al."A strategy for identification and structural characterization of compounds from Gardenia jasminoides by integrating macroporous resin column chromatography and liquid chromatography-tandem mass spectrometry combined with ion-mobility spectr 29. [IF=4.411] Ying Zhang et al."Compounds Identification in Semen Cuscutae by Ultra-High-Performance Liquid Chromatography (UPLCs) Coupled to Electrospray Ionization Mass Spectrometry."Molecules. 2018 May;23(5):1199 30. [IF=4.411] Xiaosheng Tang et al."Molecular Structure–Affinity Relationship of Flavonoids in Lotus Leaf (Nelumbo nucifera Gaertn.) on Binding to Human Serum Albumin and Bovine Serum Albumin by Spectroscopic Method."Molecules. 2017 Jul;22(7):1036 31. [IF=4.411] Yanni Cao et al."Chemical Fingerprint and Multicomponent Quantitative Analysis for the Quality Evaluation of Cyclocarya paliurus Leaves by HPLC–Q–TOF–MS."Molecules. 2017 Nov;22(11):1927 32. [IF=3.417] Mei Li et al."Isoquercitrin promotes the osteogenic differentiation of osteoblasts and BMSCs via the RUNX2 or BMP pathway."Connect Tissue Res. 2019;60(2):189-199 33. [IF=2.419] Lu Wang et al."Characterization of interaction property of multi-components in Gardenia jasminoides with aldose reductase by microdialysis combined with liquid chromatography coupled to mass spectrometry."Rapid Communications In Mass Spectrometry. 2016 Au 34. [IF=9.147] Jianzhong Zhu et al."Effect of Rosa Roxburghii juice on starch digestibility: A focus on the binding of polyphenols to amylose and porcine pancreatic α-amylase by molecular modeling."Food Hydrocolloid. 2022 Feb;123:106966 35. [IF=6.475] Xinfeng Zhang et al."Identification and quantitative analysis of phenolic glycosides with antioxidant activity in methanolic extract of Dendrobium catenatum flowers and selection of quality control herb-markers."Food Res Int. 2019 Sep;123:732 36. [IF=6.306] Wei Yang et al."Liquid chromatography–mass spectrometry-based metabolomics analysis of flavonoids and anthraquinones in Fagopyrum tataricum L. Gaertn. (tartary buckwheat) seeds to trace morphological variations."Food Chem. 2020 Nov;331:127354 37. [IF=5.81] Mu Jianfei et al."Determination of Polyphenols in Ilex kudingcha and Insect Tea (Leaves Altered by Animals) by Ultra-high-performance Liquid Chromatography-Triple Quadrupole Mass Spectrometry (UHPLC-QqQ-MS) and Comparison of Their Anti-Aging Effects."Fro 38. [IF=5.279] Qinggang Yin et al."Identification of Specific Glycosyltransferases Involved in Flavonol Glucoside Biosynthesis in Ginseng Using Integrative Metabolite Profiles, DIA Proteomics, and Phylogenetic Analysis."J Agr Food Chem. 2021;69(5):1714–1726 39. [IF=4.952] Si Tan et al."The effects of drying methods on chemical profiles and antioxidant activities of two cultivars of Psidium guajava fruits."Lwt Food Sci Technol. 2020 Jan;118:108723 40. [IF=4.872] Jie Deng et al."Protective effect of hawthorn extract against genotoxicity induced by benzo()pyrene in C57BL/6 mice."Ecotox Environ Safe. 2020 Sep;200:110761 41. [IF=4.411] Xianan Zhang et al."Comparison of Phytochemical Differences of the Pulp of Different Peach [Prunus persica (L.) Batsch] Cultivars with Alpha-Glucosidase Inhibitory Activity Variations in China Using UPLC-Q-TOF/MS."Molecules. 2019 Jan;24(10):1968 42. [IF=4.379] Zhang Liang-Liang et al."Chemical composition, antibacterial activity and action mechanism of different extracts from hawthorn (Crataegus pinnatifida Bge.)."Sci Rep-Uk. 2020 Jun;10(1):1-13 43. [IF=4.36] Mingliang Gao et al."Evaluation of VEGF mediated pro-angiogenic and hemostatic effects and chemical marker investigation for Typhae Pollen and its processed product."J Ethnopharmacol. 2021 Mar;268:113591 44. [IF=4.171] Cong Liu et al."The neuroprotective effects of isoquercitrin purified from apple pomace by high-speed countercurrent chromatography in the MPTP acute mouse model of Parkinson's disease."Food Funct. 2021 Jul;12(13):6091-6101 45. [IF=4.169] Zhang Zhen et al."Foliar Spraying of 6-Benzylaminopurine Promotes Growth and Flavonoid Accumulation in Mulberry (Morus alba L.)."Journal Of Plant Growth Regulation. 2021 Jul 15 46. [IF=4.162] Rong Wang et al."Total Flavone of Abelmoschus manihot Ameliorates Stress-Induced Microbial Alterations Drive Intestinal Barrier Injury in DSS Colitis."Drug Des Dev Ther. 2021; 15: 2999–3016 47. [IF=3.978] Yunbin Lyu et al."Identification and characterization of three flavonoid 3-O-glycosyltransferases from Epimedium koreanum Nakai."Biochem Eng J. 2020 Nov;163:107759 48. [IF=3.935] Yu-li Jiang et al."HPLC fingerprinting-based multivariate analysis of chemical components in Tetrastigma Hemsleyanum Diels et Gilg: Correlation to their antioxidant and neuraminidase inhibition activities."J Pharmaceut Biomed. 2021 Oct;205:114314 49. [IF=3.882] Kunpeng Yin et al."Lanthanide Metal–Organic Framework-Based Fluorescent Sensor Arrays to Discriminate and Quantify Ingredients of Natural Medicine."Langmuir. 2021;37(17):5321–5328 50. [IF=3.845] Li Wei et al."Total Extracts of Abelmoschus manihot L. Attenuates Adriamycin-Induced Renal Tubule Injury via Suppression of ROS-ERK1/2-Mediated NLRP3 Inflammasome Activation."Front Pharmacol. 2019 May;0:567 51. [IF=3.645] Jie Lu et al."Identification and determination of chemical constituents from Yinchen Qingjin granules by ultra high-performance liquid chromatography coupled with linear ion trap-Orbitrap mass spectrometry."J Sep Sci. 2021 Apr;44(7):1324-1344 52. [IF=2.926] Li Bin-Chun et al."Target Discovery of Novel α-l-Rhamnosidases from Human Fecal Metagenome and Application for Biotransformation of Natural Flavonoid Glycosides."Appl Biochem Biotech. 2019 Dec;189(4):1245-1261 53. [IF=2.629] Wang Ting et al."Network Pharmacology Prediction and Pharmacological Verification Mechanism of Yeju Jiangya Decoction on Hypertension."Evid-Based Compl Alt. 2021;2021:5579129 54. [IF=2.629] Guan Mengqi et al."The Aqueous Extract of Eucommia Leaves Promotes Proliferation, Differentiation, and Mineralization of Osteoblast-Like MC3T3-E1 Cells."Evid-Based Compl Alt. 2021;2021:3641317 55. [IF=2.447] Huan Guo et al."The preventive effect of Apocynum venetum polyphenols on D‑galactose‑induced oxidative stress in mice."Exp Ther Med. 2020 Jan;19(1):557-568 56. [IF=2.406] Li Bin-Chun et al."A spectrophotometric method for high-throughput screening of α-l-rhamnosidase activity on rutin coupled with a β-d-glucosidase assay."3 Biotech. 2019 Jun;9(6):1-9 57. [IF=2.391] Tan Si et al."Effects of three drying methods on polyphenol composition and antioxidant activities of Litchi chinensis Sonn.."Food Sci Biotechnol. 2020 Mar;29(3):351-358 58. [IF=2.19] Sheng-xiang Yang et al."Extraction of flavonoids from Cyclocarya paliurus (Juglandaceae) leaves using ethanol/salt aqueous two-phase system coupled with ultrasonic."J Food Process Pres. 2020 Jun;44(6):e14469 59. [IF=1.813] Zhang Ying et al."Comparative Studies on Chemical Contents and Effect in Kidney-Yang Deficiency Rats of Salt-Processed Product and Wine-Processed Product of Cuscutae Semen."Evid-Based Compl Alt. 2019;2019:2049497 60. [IF=6.057] Qi Tong et al.Biosynthesis-based spatial metabolome of Salvia miltiorrhiza Bunge by combining metabolomics approaches with mass spectrometry-imaging.Talanta. 2021 Nov;:123045 61. [IF=4.411] Yue Li et al.Impact of Drying Methods on Phenolic Components and Antioxidant Activity of Sea Buckthorn (Hippophae rhamnoides L.) Berries from Different Varieties in China.Molecules. 2021 Jan;26(23):7189 62. [IF=6.057] Qi Tong et al.Biosynthesis-based spatial metabolome of Salvia miltiorrhiza Bunge by combining metabolomics approaches with mass spectrometry-imaging.Talanta. 2021 Nov;:123045 63. [IF=4.987] Shang Xian-chao et al."Temperature-responsive deep eutectic solvents as eco-friendly and recyclable media for microwave extraction of flavonoid compounds from waste onion (Allium cepa L.) skins."Biomass Convers Bior. 2022 Feb;:1-10 64. [IF=1.312] Xiaoran Zhao et al."Discrimination of Cuscuta chinensis Lam. and Cuscuta japonica Choisy based on a combination of chemometrics and fingerprint classification."Journal Of Liquid Chromatography & Related Technologies. 2022 Jan 09 65. [IF=3.935] Junmao Li et al."Comprehensive chemical profiling of the flowers of Citrus aurantium L. var. amara Engl. and uncovering the active ingredients of lipid lowering."J Pharmaceut Biomed. 2022 Mar;211:114621 66. [IF=6.576] Guowei Man et al."Profiling Phenolic Composition in Pomegranate Peel From Nine Selected Cultivars Using UHPLC-QTOF-MS and UPLC-QQQ-MS."Front Nutr. 2021; 8: 807447 67. [IF=3.373] Yiyuan Luo et al."Quality evaluation of Tetrastigma hemsleyanum different parts based on quantitative analysis of 42 bioactive constituents combined with multivariate statistical analysis."PHYTOCHEMICAL ANALYSIS. 2022 Apr 05 68. [IF=3.935] Xin Meng et al."Comprehensive chemical profiling and potential chemical marker’s evaluation of Tribulus terrestris by UPLC-QTOF-MS in combination with ion mobility spectrometry."JOURNAL OF PHARMACEUTICAL AND BIOMEDICAL ANALYSIS. 2022 Aug;217:114839 69. [IF=4.412] Haifan Liu et al."Pharmacokinetics, Prostate Distribution and Metabolic Characteristics of Four Representative Flavones after Oral Administration of the Aerial Part of Glycyrrhiza uralensis in Rats."MOLECULES. 2022 Jan;27(10):3245 70. [IF=4.932] Jing Yang et al."Identification and Quantification of Flavonoids in Okra (Abelmoschus esculentus L. Moench) and Antiproliferative Activity In Vitro of Four Main Components Identified."Metabolites. 2022 Jun;12(6):483 71. [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 |
21637-25-2 - 介绍
药理药效:动物实验具有降血压作用。毛细血管渗透性等试验表明具有抗炎作用。对棉蛉芽虫的幼虫有毒杀作用。具有降酶作用,为田基黄治疗肝炎的有效成分之一。
最后更新:2022-10-16 17:14:57
21637-25-2 - 简介
异槲皮苷又称为槲皮甙,是一种天然的植物化合物,属于一类黄酮类化合物。它主要存在于槲树科植物中,如栎树、胡桃树等。
异槲皮苷具有多种特殊的性质。它还具有抗炎、抗菌、抗过敏、抑制肿瘤生长等作用,被认为对心血管和神经系统的保护也具有一定的作用。
它还可以用于治疗心脑血管疾病、抗过敏反应和调节免疫系统功能。
异槲皮苷的制法一般通过槲皮苷酶的催化作用获得,槲皮苷酶可以将葡萄糖基转移至异槲皮苷的酚羟基上形成异槲皮苷。制备方法一般包括提取、分离、纯化、合成等步骤。
异槲皮苷的安全信息:虽然它被认为是一种相对安全的化合物,并且未发现明显的毒副作用,但仍需遵循适当的用量和使用方式。
异槲皮苷具有多种特殊的性质。它还具有抗炎、抗菌、抗过敏、抑制肿瘤生长等作用,被认为对心血管和神经系统的保护也具有一定的作用。
它还可以用于治疗心脑血管疾病、抗过敏反应和调节免疫系统功能。
异槲皮苷的制法一般通过槲皮苷酶的催化作用获得,槲皮苷酶可以将葡萄糖基转移至异槲皮苷的酚羟基上形成异槲皮苷。制备方法一般包括提取、分离、纯化、合成等步骤。
异槲皮苷的安全信息:虽然它被认为是一种相对安全的化合物,并且未发现明显的毒副作用,但仍需遵循适当的用量和使用方式。
最后更新:2024-04-09 21:54:55
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产品名: 槲皮素-3-O-葡萄糖苷 去供应商网站查看 询盘CAS: 21637-25-2
产地: 中国上海
包装: 25mg,10mg
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库存: 当天发货
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产品描述: 中文名称:槲皮素-3-O-葡萄糖苷 ,英文名称:3-(((2S,3R,4R,5R)-5-((R)-1,2-Dihydroxyethyl)-3,4-dihydro 更多
主打产品现货供应
产品名: 槲皮素-3-O-葡萄糖苷 去供应商网站查看 询盘CAS: 21637-25-2
产地: 上海
规格: HPLC≥98%
价格: 20mg 1000
库存: 现货
电话: 18301782025
手机: 18301782025
电子邮件: 3008007403@qq.com
QQ: 3008007403
微信: 18301782025
产品描述: 槲皮素-3-O-葡萄糖苷 HPLC≥98% 源叶 货号:B23325
提供多种规格现货供应
产品名: 异槲皮苷(10mM in DMSO,无菌) 去供应商网站查看 询盘CAS: II04001
产地: 北京
包装: 1ml/瓶
规格: II04001-1ml
价格: 电话、微信、QQ、邮件
库存: 现询
电话: 010-50973130
手机: 18101056239(微信同号)
电子邮件: 3193328036@qq.com
QQ: 3193328036
微信: 18101056239
产品描述: 产品覆盖:小分子化合物、分析对照品、染色试剂、生化试剂盒、细胞生物学、分子生物学、抗体、蛋白、多肽、ELISA试剂盒、微生物培养、化学合成、仪器耗材、CRO技术 更多
提供多种规格现货供应
产品名: Quercetin 3-O-β-D-glucofuranoside 去供应商网站查看 询盘CAS: 21637-25-2
产地: 美国
包装: 10 mM * 1 mL;1 mg;5 mg;10 mg;25 mg;50 mg;100 mg
规格: HY-N0768
库存: 现货,货期:1-2天
电话: 021-38924433; 021-58955995
手机: 18019480960
电子邮件: sales@medchemexpress.cn
产品描述: 产品覆盖:8万多种抑制剂,11000+靶点蛋白,数百款试剂盒,200+生物活性化合物库,天然产物,抗体等. 纯度: 99.95%
主打产品现货供应
产品名: 槲皮素-3-O-葡萄糖苷 去供应商网站查看 询盘CAS: 21637-25-2
产地: 中国上海
包装: 25mg,10mg
价格: 面议、电联、微信、QQ
库存: 当天发货
电话: 400-900-4166
手机: 18017137653
电子邮件: 3007523013@qq.com
QQ: 3007523013
微信: 18017137653
产品描述: 中文名称:槲皮素-3-O-葡萄糖苷 ,英文名称:3-(((2S,3R,4R,5R)-5-((R)-1,2-Dihydroxyethyl)-3,4-dihydro 更多
主打产品现货供应
产品名: 槲皮素-3-O-葡萄糖苷 去供应商网站查看 询盘CAS: 21637-25-2
产地: 上海
规格: HPLC≥98%
价格: 20mg 1000
库存: 现货
电话: 18301782025
手机: 18301782025
电子邮件: 3008007403@qq.com
QQ: 3008007403
微信: 18301782025
产品描述: 槲皮素-3-O-葡萄糖苷 HPLC≥98% 源叶 货号:B23325
提供多种规格现货供应
产品名: 异槲皮苷(10mM in DMSO,无菌) 去供应商网站查看 询盘CAS: II04001
产地: 北京
包装: 1ml/瓶
规格: II04001-1ml
价格: 电话、微信、QQ、邮件
库存: 现询
电话: 010-50973130
手机: 18101056239(微信同号)
电子邮件: 3193328036@qq.com
QQ: 3193328036
微信: 18101056239
产品描述: 产品覆盖:小分子化合物、分析对照品、染色试剂、生化试剂盒、细胞生物学、分子生物学、抗体、蛋白、多肽、ELISA试剂盒、微生物培养、化学合成、仪器耗材、CRO技术 更多
提供多种规格现货供应
产品名: Quercetin 3-O-β-D-glucofuranoside 去供应商网站查看 询盘CAS: 21637-25-2
产地: 美国
包装: 10 mM * 1 mL;1 mg;5 mg;10 mg;25 mg;50 mg;100 mg
规格: HY-N0768
库存: 现货,货期:1-2天
电话: 021-38924433; 021-58955995
手机: 18019480960
电子邮件: sales@medchemexpress.cn
产品描述: 产品覆盖:8万多种抑制剂,11000+靶点蛋白,数百款试剂盒,200+生物活性化合物库,天然产物,抗体等. 纯度: 99.95%
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