黄芩苷
黄芩甙(Baicalin)
CAS: 21967-41-9;100647-26-5
化学式: C21H18O11
| 中文名 | 黄芩甙 |
| 英文名 | Baicalin |
| 别名 | 黄芩苷 黄芩素 贝加灵 黄芩甙 黄芩苷(贝加灵,黄芩素-7-O-Β-D-葡萄糖醛酸苷) |
| 英文别名 | Radix Bassora Baicalin BAICALIN HYDRATE Baicalein 7-O-glucuronide BAICALIN 7-BETA-D-GLUCOPYRANOSIDURONATE HYDRATE BAICALEIN 7-BETA-D-GLUCOPYRANOSIDURONATE HYDRATE 5,6-dihydroxy-4-oxo-2-phenyl-4H-chromen-7-yl hexopyranosiduronic acid 5,6-Dihydroxy-4-oxygen-2-phenyl-4H-1-benzopyran-7-beta-D-glucopyranose acid 5,6-Dihydroxy-4-oxygen-2-phenyl-4H-1-benzopyran-7-beta-D-glucopyranose acid 5,6-dihydroxy-4-oxo-2-phenyl-4H-chromen-7-yl beta-D-glucopyranosiduronic acid |
| CAS | 21967-41-9 100647-26-5 |
| EINECS | 606-866-1 |
| 化学式 | C21H18O11 |
| 分子量 | 446.36 |
| InChI | InChI=1/C21H18O11/c22-9-6-10(8-4-2-1-3-5-8)30-11-7-12(14(23)15(24)13(9)11)31-21-18(27)16(25)17(26)19(32-21)20(28)29/h1-7,16-19,21,23-27H,(H,28,29) |
| InChIKey | IKIIZLYTISPENI-ZFORQUDYSA-N |
| 密度 | 1.737±0.06 g/cm3(Predicted) |
| 熔点 | 202-205 °C (dec.) (lit.) |
| 沸点 | 836.6±65.0 °C(Predicted) |
| 比旋光度 | -85 º (c=1, DMSO) |
| 闪点 | 297.2°C |
| 蒸汽压 | 1.07E-29mmHg at 25°C |
| 溶解度 | DMSO (微溶) 、甲醇 (微溶) |
| 折射率 | 1.739 |
| 酸度系数 | 2.72±0.70(Predicted) |
| 存储条件 | 2-8°C |
| 稳定性 | 吸湿性 |
| 外观 | 固体 |
| 颜色 | Pale Yellow to Yellow |
| 物化性质 | 易溶于N,N-二甲基甲酰胺,吡啶中,可溶于碳酸氢钠、碳酸钠、氢氧化钠等碱性溶液中,但在碱液中不稳定,渐变暗棕色,微溶于热冰醋酸,难溶于甲酸、乙酸、丙酮,几乎不溶于水,乙醚、 苯、氯仿等。 来源于本品为双子叶植物唇形科 Labiatae 黄芩 Scutellaria baicalensis Georgi 的干燥根提取而得。 |
| MDL号 | MFCD00134418 |
| 危险品标志 | Xi - 刺激性物品 |
| 风险术语 | 36/37/38 - 刺激眼睛、呼吸系统和皮肤。 |
| 安全术语 | S26 - 不慎与眼睛接触后,请立即用大量清水冲洗并征求医生意见。 S36 - 穿戴适当的防护服。 |
| WGK Germany | 3 |
| RTECS | LZ5776910 |
| 海关编号 | 29329990 |
| 下游产品 | 黄芩苷甲酯 |
| 参考资料 展开查看 | 1. 王东超 魏颖 高佳琪 孙文 秦灵灵 兰卫 石浩霞 李博 徐暾海 刘铜华.HPLC同时测定糖痹康颗粒中黄芩苷、汉黄芩苷、黄芩素、汉黄芩素的含量[J].吉林中医药 2017 37(05):513-517. 2. 吴宇锋 陈灵哲 林忠. HPLC法同时测定3种煎法下防风通圣方中的黄芩苷和栀子苷含量[J]. 上海医药 2018 v.39;No.493(01):64-67. 3. 张宏梅 昌盛 崔佰吉 等. HPLC法同时测定茵胆平肝胶囊中6种成分的含量[J]. 中国药房 2017年28卷9期 1239-1242页 ISTIC PKU CA 2017 28(9):1239-1242. 4. 李晓花 郭允 李佳 袁琦 蒲晓辉 王高峰.RP-HPLC法同时测定三黄片中7种指标成分的含量[J].沈阳药科大学学报 2016 33(08):637-642. 5. 郝乘仪 张慧锋 杨明慧. RP-HPLC法同时测定小儿肺热咳喘颗粒中两种主要活性成分的含量[J]. 吉林医药学院学报 2017(1). 6. 刘阿静 齐广才 刘珍叶 等. RP—HPLC法测定防风通圣丸中芍药苷 栀子苷 黄芩苷和连翘苷的含量[J]. 西北药学杂志 2012 27(5):415-415. 7. 康宁芳 李梅 胡贺佳 肖红琴 刘利琴 李银 李月婷 王爱民 王永林 张昀 何峰 巩仔鹏.UPLC-MS/MS同时测定舒肝宁注射液在大鼠血浆中4种活性成分的含量及其药代动力学研究[J].中国中药杂志 2020 45(11):2626-2633. 8. 范汇森 闫秋莹 张海彬 等. UPLC-MS/MS法测定大鼠血浆中紫草氰苷 格列风内酯浓度简[J]. 南京中医药大学学报 2018(1):91-95. 9. 杨强 蒲晓辉 李晓花. 一清胶囊中7种指标成分的测定[J]. 华西药学杂志 2017(3). 10. 柴冲冲 毛民 袁金凤 等. 不同方法软化切制后的黄芩饮片颜色与5种黄酮类成分含量的相关性研究[J]. 中国中药杂志 2019. 11. 秦书芝 李凤 张瑶 等. 不同软化处理方法对黄芩饮片中黄芩苷含量影响[J]. 海峡药学 2017(10):30-31. 12. 万鹏 赵瑞芝 胡巧红. 中药多糖对黄芩苷的溶解度及其药动学的影响[J]. 广东药学院学报 2017(4). 13. 陈慧洁 杨亚楠 丁辉 等. 养阴利咽半生制剂袋泡茶的制备及优化[J]. 天津中医药大学学报 2019 38(01):78-83. 14. 侯广玉 李孟全 赵鹏程 王一成 朱立双 杜书迪.咳尔康颗粒对肺腺癌细胞A549的体外抗肿瘤作用[J].医药导报 2019 38(01):27-32. 15. 李淑娇, 王宇卿. 基于HPLC-Q-TOF/MS法的黄芩血清药物化学分析[J]. 中成药, 2019, 41(03):117-122. 16. 任永申, 邓鑫, 雷蕾,等. 基于抑菌效应成分指纹谱的黄芩质量评价研究[J]. 药学学报, 2019, 054(012):2155-2161. 17. 张建逵,李云静,孙智,王冰,康廷国.基于断面色泽测定的条芩饮片分级研究[J].中国中药杂志,2017,42(21):4115-4119. 18. 刘艳, 杨炳友, 孙艳,等. 基于活性和Plackett-Burnman联合Box-Behnken设计的复方栀子金花提取工艺优化[J]. 中华中医药杂志, 2019, 34(04):69-73. 19. 柴冲冲,曹妍,毛民,王靖越,刘娜,李欣欣,张凯,陈东玲,魏龙吟,尹怡慧,李飞.基于电子舌技术评价黄芩酒炙前后滋味变化及其在黄芩饮片鉴别中的应用研究[J].中国中药杂志,2020,45(11):2552-2559. 20. 商利娜, 王亚静, 赵鑫,等. 基于谱-效关系探究黄芩抑制白色念珠菌的质量标志物[J]. 中成药, 2020, 042(005):1357-1361. 21. 袁杰, 李锬, 周利,等. 基于超高效液相色谱法和色差仪法的黄芩药材质量评价[J]. 世界中医药, 2019. 22. 刘媛媛, 刘陶, 吴玉梅,等. 基于雌激素受体调节Nrf2-ARE通路的黄芩中抗氧化成分的筛选[J]. 中国药理学通报, 2019, 035(006):822-827. 23. 余欢欢, 黄启迪, 颜美秋,等. 孕康口服液3种成分测定及HPLC指纹图谱建立[J]. 中成药, 2020, v.42(03):46-51. 24. 杨爽, 何妍茜, 杨洁,等. 感冒软胶囊质量标准提高的研究[J]. 时珍国医国药, 2013, 24(008):1930-1932. 25. 李玲云,王云,刘梦娇,张雪,李晓庆,戴业佳,麻印莲,张村.栀子金花丸化学成分的UPLC-Q-TOF-MS/MS快速鉴定与分析[J].中国实验方剂学杂志,2017,23(14):1-11. 26. 林珊, 张铃, 蔡巧燕,等. 清眩降压汤对离体大鼠胸主动脉的舒张作用及黄芩苷成分分析[J]. 福建中医药, 2018, 049(001):34-36. 27. 郭允, 陈永超, 李晓花,等. 牛黄解毒片中6种指标成分的含量测定[J]. 沈阳药科大学学报, 2016(6):454-458. 28. 尹丽, 张潇菡, 马丽娟,等. 牛黄解毒片的显微鉴别及薄层鉴别[J]. 河南大学学报(医学版), 2016(2):85-88. 29. 李纳,李姣娇,范蕾,陈章宝.用山银花与金银花制备双黄连口服液质量比较研究[J].西北药学杂志,2018,33(01):6-10. 30. 董浩浩, 李从举. 离子交换纤维吸附黄芩苷的动力学与热力学研究[J]. 西南师范大学学报(自然科学版), 2014, 000(001):7-14. 31. 谭丽丽,杨向方,李燕广,张国徽.缺血预处理联合黄芩苷预处理对大鼠脑缺血再灌注半暗带细胞凋亡及Bcl-2/Bax比值的影响[J].中西医结合心脑血管病杂志,2014,12(02):220-221. 32. 李蒙蒙,田小杏,马丽娟,蒲晓辉,袁琦,宗兰兰,徐颖峰.薄层色谱法鉴别三黄片中的有效成分[J].河南大学学报(医学版),2016,35(02):81-84+109. 33. 宗春燕, 苏学军, 梁雅娟. 超声浸渍法提取木蝴蝶中总黄酮的工艺研究[J]. 化学工程师, 2019, 33(02):18-20. 34. 陈海君, 马尚智, 江敏,等. 超滤亲和-液质联用和分子对接技术筛选毛菊苣根中α-葡萄糖苷酶抑制剂[J]. 中草药, 2019, 50(02):85-92. 35. 何原, 黄石安, 陈灿,等. 进口与国产黄芩苷对低氧性肺动脉平滑肌细胞增殖影响的比较[J]. 广东医学, 2016, 37(010):1433-1436. 36. 山光强, 陈志刚, 许广人,等. 金樱子总黄酮的含量测定及酶提工艺优化[J]. 中国畜牧兽医, 2016, 43(012):3156-3162. 37. 程燕, 曲绍风, 李福伟,等. 黄芩中4种黄酮类化合物的亚临界水提取研究[J]. 山东科学, 2013(03):11-14. 38. 顿佳颖, 李佳佳, 郑鹏,等. 黄芩汤传统汤剂与配方颗粒中3种有效成分的比较研究[J]. 中医药导报, 2019, 25(05):78-81+89. 39. 郭净洁, 王崇, 张维甲,等. 黄芩素与黄芩苷联合用药对口腔鳞癌细胞增殖,迁移的影响[J]. 口腔医学, 2020, 040(005):393-398. 40. 何谷良, 袁娉, 黄家望,等. 黄芩苷体外对耐甲氧西林金黄色葡萄球菌活性影响的研究[J]. 时珍国医国药, 2019(4). 41. 徐治中,竺平,周寄文,杨柏霖.黄芩苷促使细胞G2/M阻滞抑制错配修复基因缺失的结直肠癌裸鼠原位移植瘤生长[J].中药药理与临床,2017,33(02):24-28. 42. 马宗敏, 刘佳, 段绪红,等. 黄芩苷发酵转化成黄芩素和千层纸素A的黄芩内生真菌的筛选及鉴定[J]. 中国实验方剂学杂志, 2019(9):166-171. 43. 马双, 宋鹏琰, 韩超,等. 黄芩苷对双酚A致小鼠生殖损伤的保护作用[J]. 中国兽医学报, 2018, 038(009):1753-1760. 44. 何志坚, 胜海峰, 刘海云. 黄芩苷对大鼠放射性肺损伤的保护作用[J]. 实用癌症杂志, 2018, v.33;No.199(10):5-8. 45. 吴峰淼,叶凯丽,刘曦.黄芩苷对大鼠胶原诱导性关节炎JAK/STAT3信号通路及Th17/Treg免疫平衡的影响[J].中国药师,2020,23(02):246-251. 46. 范景辉, 赵玉梅, 张颖,等. 黄芩苷对糖尿病合并非酒精脂肪肝大鼠血脂和肝功能的影响观察[J]. 中国现代医生, 2020(9):29-31. 47. 杨洁, 李日婵. 黄芩苷抑制H5N1禽流感病毒进入的机制研究[J]. 天然产物研究与开发, 2016, v.28(02):98-102. 48. 吴贵才, 赵丹, 曾青磊,等. 黄芩苷诱导人乳腺癌细胞株MCF-7凋亡的机制研究[J]. 中国医药科学, 2017, 7(005):14-18. 49. 李云静, 张建逵, 赵玥,等. 黄芩药材颜色及其有效成分的相关性[J]. 中国医药工业杂志, 2017(7). 50. 张静 李壮壮 杜宝香 等. HPLC法同时测定柴胡桂枝汤中6种成分[J]. 中成药 2018 040(010):2202-2205. 51. 陈智. 金银花和黄芩不同煎煮方式化学成分变化及抗病毒作用比较[J]. 中华中医药杂志, 2019, v.34(10):129-133. 52. 杨梦玲, 尤朋涛, 何丽珊,等. 基于UPLC-MS/MS分析胃溃疡模型大鼠口服加味小柴胡颗粒后血浆中8种有效成分的药代动力学[J]. 中国中药杂志, 2018, 43(18). 53. 姜万舟, 高平, 杨明德,等. 杏鲍菇乙醇提取物的抗氧化活性及成分分离鉴定[J]. 食品工业科技, 2015, 36(22):87-91. 54. 李壮壮, 张静, 赵绍哲,等. 指纹图谱与化学计量学结合优选柴胡桂枝颗粒水提工艺[J]. 中成药, 2018, v.40(08):199-203. 55. 邓远雄,胡剑卓,佘成烨,李静.高脂血症大鼠灌胃黄连解毒汤后黄芩苷的药代动力学研究[J].中南药学,2020,18(12):1986-1991. 56. 林珊,陈达鑫,蔡巧燕,张铃,陈静雯,李金艳,彭军,褚剑锋.UPLC法测定清达颗粒和清眩降压汤中黄芩苷的含量[J].福建中医药,2021,52(03):30-32. 57. 唐君,杜杨,赵凤娇,崔勐,刘志强.电喷雾串联质谱研究黄芩苷与谷胱甘肽的相互作用[J].应用化学,2021,38(03):331-342. 58. 黄芳,孙亚宁,常克,冯丹丹,王志强.黄芩苷对低氧诱导的新生大鼠肺损伤的保护作用[J].中国药理学与毒理学杂志,2020,34(10):736-742. 59. 刘萍,唐代,王旭,白云.黄芩苷对心肌缺血再灌注损伤的保护作用机制[J].中医药学报,2021,49(02):16-21. 60. Sheng, Kai, et al. "Green synthesized Co nanoparticles doped amino-graphene modified electrode and its application towards determination of baicalin." Talanta 164 (2017): 249-256.https://doi.org/10.1016/j.talanta.2016.11.050 61. Sheng, Kai, et al. "Green synthesized Co nanoparticles doped amino-graphene modified electrode and its application towards determination of baicalin." Talanta 164 (2017): 249-256.https://doi.org/10.1016/j.talanta.2016.11.050 62. G. Qi, A. Liu, Z. Liu and Z. Bai, "A Novel HPLC Method for Determining Three Effective Components in Chinese Medicine 'Xiao' Erjiebiao Granules," 2012 International Conference on Biomedical Engineering and Biotechnology, 2012, pp. 16-20, doi: 10.1109/iCBEB 63. Ding, Liliqiang, et al. "Baicalin relaxes vascular smooth muscle and lowers blood pressure in spontaneously hypertensive rats." Biomedicine & Pharmacotherapy 111 (2019): 325-330.https://doi.org/10.1016/j.biopha.2018.12.086 64. Wu, Dandan, et al. "Baicalin protects against hypertension-associated intestinal barrier impairment in part through enhanced microbial production of short-chain fatty acids." Frontiers in pharmacology 10 (2019): 1271.https://doi.org/10.3389/fphar.2019.0127 65. Shi, Liang, et al. "Baicalin promotes liver regeneration after acetaminophen-induced liver injury by inducing NLRP3 inflammasome activation." Free Radical Biology and Medicine 160 (2020): 163-177.https://doi.org/10.1016/j.freeradbiomed.2020.05.012 66. Zhu, Hai-yan, et al. "Baicalin inhibits autophagy induced by influenza A virus H3N2." Antiviral research 113 (2015): 62-70.https://doi.org/10.1016/j.antiviral.2014.11.003 67. Sui, Xinbing, et al. "Baicalin induces apoptosis and suppresses the cell cycle progression of lung cancer cells through downregulating Akt/mTOR signaling pathway." Frontiers in Molecular Biosciences 7 (2021): 323.https://doi.org/10.3389/fmolb.2020.602282 68. Xue, Gen, et al. "Integrating Study on Qualitative and Quantitative Characterization of the Major Constituents in Shuanghuanglian Injection with UHPLC/Q-Orbitrap-MS and UPLC-PDA." Journal of Analytical Methods in Chemistry 2021 (2021).https://doi.org/10.11 69. Shi, Liang, et al. "Baicalein and baicalin alleviate acetaminophen-induced liver injury by activating Nrf2 antioxidative pathway: The involvement of ERK1/2 and PKC." Biochemical pharmacology 150 (2018): 9-23.https://doi.org/10.1016/j.bcp.2018.01.026 70. Sun, Chenglong, et al. "A spatially-resolved approach to visualize the distribution and biosynthesis of flavones in Scutellaria baicalensis Georgi." Journal of pharmaceutical and biomedical analysis 179 (2020): 113014.https://doi.org/10.1016/j.jpba.2019.11 71. Cheng, Yan, et al. "Controlled Extraction of Flavonoids From Radix Scutellariae by Subcritical Water." CLEAN–Soil, Air, Water 44.3 (2016): 299-303.https://doi.org/10.1002/clen.201300193 72. Yanqiu, et al. "Comparative two-dimensional HepG2 and L02/ cell membrane chromatography/ C18/ time-of-flight mass spectrometry for screening selective anti-hepatoma components from Scutellariae Radix. " Journal of pharmaceutical and biomedical analysis 164 73. Xu, Jun. "Improved approaches and strategies for analyzing decoctions of medicinal herbs." (2016). 74. Chen, Meng, et al. "Comprehensive analysis of Huanglian Jiedu decoction: Revealing the presence of a self-assembled phytochemical complex in its naturally-occurring precipitate." Journal of Pharmaceutical and Biomedical Analysis 195 (2021): 113820.https:// 75. [IF=6.529] Liliqiang Ding et al."Baicalin relaxes vascular smooth muscle and lowers blood pressure in spontaneously hypertensive rats."Biomed Pharmacother. 2019 Mar;111:325 76. [IF=6.057] Kai Sheng et al."Green synthesized Co nanoparticles doped amino-graphene modified electrode and its application towards determination of baicalin."Talanta. 2017 Mar;164:249 77. [IF=4.96] Liang Shi et al."Baicalein and baicalin alleviate acetaminophen-induced liver injury by activating Nrf2 antioxidative pathway: The involvement of ERK1/2 and PKC."Biochem Pharmacol. 2018 Apr;150:9 78. [IF=4.101] Hai-yan Zhu et al."Baicalin inhibits autophagy induced by influenza A virus H3N2."Antivir Res. 2015 Jan;113:62 79. [IF=3.935] Ka-Yan Kwok et al."Quality evaluation of commercial Huang-Lian-Jie-Du-Tang based on simultaneous determination of fourteen major chemical constituents using high performance liquid chromatography."J Pharmaceut Biomed. 2013 Nov;85:239 80. [IF=3.935] Yanqiu Gu et al."Comparative two-dimensional HepG2 and L02/ cell membrane chromatography/ C18/ time-of-flight mass spectrometry for screening selective anti-hepatoma components from Scutellariae Radix."J Pharmaceut Biomed. 2019 Feb;164:550 81. [IF=3.845] Zhang Xianhua et al."Danshen-Chuanxiong-Honghua Ameliorates Cerebral Impairment and Improves Spatial Cognitive Deficits after Transient Focal Ischemia and Identification of Active Compounds."Front Pharmacol. 2017 Jul;0:452 82. [IF=3.738] Selma Houchi et al."Investigation of common chemical components and inhibitory effect on GES-type β-lactamase (GES22) in methanolic extracts of Algerian seaweeds."Microb Pathogenesis. 2019 Jan;126:56 83. [IF=3.205] Xianhua Zhang et al."Pharmacokinetic study of representative anti-oxidative compounds from Denshen-Chuanxiong-Honghua following oral administration in rats."J Chromatogr B. 2017 May;1052:82 84. [IF=9.381] Ya Zhao et al."Polysaccharide from vinegar baked radix bupleuri as efficient solubilizer for water-insoluble drugs of Chinese medicine."Carbohyd Polym. 2020 Feb;229:115473 85. [IF=6.17] Liang Shi et al."Baicalin promotes liver regeneration after acetaminophen-induced liver injury by inducing NLRP3 inflammasome activation."Free Radical Bio Med. 2020 Nov;160:163 86. [IF=5.875] Yumei Wu et al."Brain targeting of Baicalin and Salvianolic acid B combination by OX26 functionalized nanostructured lipid carriers."Int J Pharmaceut. 2019 Nov;571:118754 87. [IF=5.833] Zhou Zhidu et al."Ultra-sensitive amperometric determination of quercetin by using a glassy carbon electrode modified with a nanocomposite prepared from aminated graphene quantum dots, thiolated β-cyclodextrin and gold nanoparticles."Microchim Acta. 2020 88. [IF=5.81] Zhenyu Fan et al."Baicalin Prevents Myocardial Ischemia/Reperfusion Injury Through Inhibiting ACSL4 Mediated Ferroptosis."Front Pharmacol. 2021; 12: 628988 89. [IF=5.81] Cui Lihua et al."Chaihu Guizhi Ganjiang Decoction Ameliorates Pancreatic Fibrosis via JNK/mTOR Signaling Pathway."Front Pharmacol. 2021 Jun;0:1369 90. [IF=5.34] Shihao Yan et al."Network pharmacology-based identification of significant pathway for protection of Yinhuang granule in a mice model of metabolic-associated fatty liver disease."Phytomedicine. 2021 Oct;91:153666 91. [IF=5.279] Yanan Gao et al."Galactosylation of Monosaccharide Derivatives of Glycyrrhetinic Acid by UDP-Glycosyltransferase GmSGT2 from Glycine max."J Agr Food Chem. 2020;68(32):8580–8588 92. [IF=5.246] Sui Xinbing et al."Baicalin Induces Apoptosis and Suppresses the Cell Cycle Progression of Lung Cancer Cells Through Downregulating Akt/mTOR Signaling Pathway."Front Mol Biosci. 2021 Jan;0:323 93. [IF=5.11] Xiaonan Liu et al."De Novo Biosynthesis of Multiple Pinocembrin Derivatives in Saccharomyces cerevisiae."Acs Synth Biol. 2020;9(11):3042–3051 94. [IF=4.759] Yueping Jiang et al."Application of multifold characteristic ion filtering combined with statistical analysis for comprehensive profiling of chemical constituents in anti-renal interstitial fibrosis I decoction by ultra-high performance liquid chromatogra 95. [IF=4.759] Yi Zhang et al."Screening of inhibitors against histone demethylation jumonji domain-containing protein 3 by capillary electrophoresis."J Chromatogr A. 2020 Feb;1613:460625 96. [IF=4.545] Xiangyan Wu et al."Qingda granules attenuate hypertensive cardiac remodeling and inflammation in spontaneously hypertensive rats."Biomed Pharmacother. 2020 Sep;129:110367 97. [IF=4.225] Wu Dandan et al."Baicalin Protects Against Hypertension-Associated Intestinal Barrier Impairment in Part Through Enhanced Microbial Production of Short-Chain Fatty Acids."Front Pharmacol. 2019 Oct;0:1271 98. [IF=4.162] Leyi Ma et al."Baicalin Alleviates Oxidative Stress and Inflammation in Diabetic Nephropathy via Nrf2 and MAPK Signaling Pathway."Drug Des Dev Ther. 2021; 15: 3207–3221 99. [IF=3.935] Chenglong Sun et al."A spatially-resolved approach to visualize the distribution and biosynthesis of flavones in Scutellaria baicalensis Georgi."J Pharmaceut Biomed. 2020 Feb;179:113014 100. [IF=3.935] Meng Chen et al."Comprehensive analysis of Huanglian Jiedu decoction: Revealing the presence of a self-assembled phytochemical complex in its naturally-occurring precipitate."J Pharmaceut Biomed. 2021 Feb;195:113820 101. [IF=3.935] Zhengchao Ji et al."Global identification and quantitative analysis of representative components of Xin-Nao-Kang Capsule, a traditional Chinese medicinal formula, by UHPLC-Q-TOF-MS and UHPLC-TQ-MS."J Pharmaceut Biomed. 2021 May;198:114002 102. [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 103. [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 104. [IF=3] Qu Lala et al."Phenotypic assessment and ligand screening of ETA/ETB receptors with label-free dynamic mass redistribution assay."N-S Arch Pharmacol. 2020 Jun;393(6):937-950 105. [IF=2.877] Wanli Ji et al."Identifying the active compounds and mechanism of action of Banxia Xiexin decoction for treating ethanol-induced chronic gastritis using network pharmacology combined with UPLC–LTQ–Orbitrap MS."Comput Biol Chem. 2021 Aug;93:107535 106. [IF=2.193] Xu Tong et al."A Preferable Approach for the Quality Control of Xiaoer Chiqiao Qingre Granules Based on the Combination of Chromatographic Fingerprints and Chemometrics."J Anal Methods Chem. 2020;2020:6836981 107. [IF=2.193] Xue Gen et al."Integrating Study on Qualitative and Quantitative Characterization of the Major Constituents in Shuanghuanglian Injection with UHPLC/Q-Orbitrap-MS and UPLC-PDA."J Anal Methods Chem. 2021;2021:9991363 108. [IF=1.913] Zheng XP et al."Kidney-targeted baicalin-lysozyme conjugate ameliorates renal fibrosis in rats with diabetic nephropathy induced by streptozotocin.."Bmc Nephrol. 2020 May;21(1):174-174 109. [IF=1.851] Rui Li et al."Baicalin inhibits influenza virus A replication via activation of type I IFN signaling by reducing miR‑146a."Mol Med Rep. 2019 Dec;20(6):5041-5049 110. [IF=1.625] Hong-Jing Sun et al."Baicalin Alleviates Age-Related Macular Degeneration via miR-223/NLRP3-Regulated Pyroptosis."Pharmacology. 2020;105(1-2):28-38 111. [IF=4.36] Jiali Zhou et al.The root extract of Scutellaria baicalensis Georgi promotes β cell function and protects from apoptosis by inducing autophagy.J Ethnopharmacol. 2022 Feb;284:114790 112. [IF=2.193] Zhang Haibo et al.Systematic Study on a Quantitative Analysis of Multicomponents by Single Marker (QAMS) Method for Simultaneous Determination of Eight Constituents in Pneumonia Mixture by UPLC-MS/MS.J Anal Methods Chem. 2021;2021:8311588 113. [IF=3.205] Wanli Ji et al."Revealing therapeutic targets and mechanism of baicalin for anti-chronic gastritis using proteomic analysis of the gastric tissue."J Chromatogr B. 2022 Mar;:123214 114. [IF=4.072] He Pang et al."Baicalin induces apoptosis and autophagy in human osteosarcoma cells by increasing ROS to inhibit PI3K/Akt/mTOR, ERK1/2 and β-catenin signaling pathways."J Bone Oncol. 2022 Apr;33:100415 115. [IF=5.095] Liu Fengjie et al."Baicalin-loaded folic acid-modified albumin nanoparticles (FA-BSANPs/BA) induce autophagy in MCF-7 cells via ROS-mediated p38 MAPK and Akt/mTOR pathway."Cancer Nanotechnol. 2022 Dec;13(1):1-21 116. [IF=3.935] Yizhu Wang et al."Effects of Scutellaria baicalensis Georgi. on Intestinal Flora in Rats with Spleen Deficiency and Damp-heat."JOURNAL OF PHARMACEUTICAL AND BIOMEDICAL ANALYSIS. 2022 May;:114831 |
黄芩苷 - 介绍
药理药效:具有广谱抗菌作用,还有利胆、抗炎、抗变态反应、解热、解毒、利尿、降压等作用。临床上用于治疗传染性肝炎,对降低肝炎活动期中谷丙转氨酶有较好疗效,还用叶于治疗中风和瘫痪,可降低脑血管阻力,增加脑血流量,提高血脑屏障通透性及对抗由磷酸腺苷引起的血小板凝集作用。
最后更新:2022-10-16 17:15:00
黄芩苷 - 简介
黄芩甙是一种草药成分,常见于黄芩(学名:Scutellaria baicalensis)。它具有以下性质:
化学性质:黄芩甙是一种呈黄色结晶固体,可溶于水和乙醇。它属于黄酮类化合物,其主要成分为黄芩苷(baicalin)和黄芩素(baicalein)。
药理作用:黄芩甙具有抗炎、抗菌、抗氧化、抗肿瘤、清热解毒等药理作用。它常被用于中药治疗感染性疾病、肝炎、胃溃疡、心脑血管疾病等。
制法:黄芩甙的制法一般是通过提取黄芩的根茎部位,然后经过浓缩、结晶等工艺步骤获得。一些生产厂家也会采用现代提取技术,如超临界流体萃取法,以提高提取效率。
安全信息:黄芩甙是一种天然植物成分,通常被认为是相对安全的。在使用过程中,应遵循正确的剂量和使用方法,避免过量使用或长期使用可能会引起的不良反应。如发生任何不适,应立即停止使用并咨询医生。
化学性质:黄芩甙是一种呈黄色结晶固体,可溶于水和乙醇。它属于黄酮类化合物,其主要成分为黄芩苷(baicalin)和黄芩素(baicalein)。
药理作用:黄芩甙具有抗炎、抗菌、抗氧化、抗肿瘤、清热解毒等药理作用。它常被用于中药治疗感染性疾病、肝炎、胃溃疡、心脑血管疾病等。
制法:黄芩甙的制法一般是通过提取黄芩的根茎部位,然后经过浓缩、结晶等工艺步骤获得。一些生产厂家也会采用现代提取技术,如超临界流体萃取法,以提高提取效率。
安全信息:黄芩甙是一种天然植物成分,通常被认为是相对安全的。在使用过程中,应遵循正确的剂量和使用方法,避免过量使用或长期使用可能会引起的不良反应。如发生任何不适,应立即停止使用并咨询医生。
最后更新:2024-04-09 15:16:48
供应商列表
提供多种规格现货供应
产品名: 黄芩苷(10mM in DMSO,无菌) 去供应商网站查看 询盘CAS: IB00101
产地: 北京
包装: 1ml/瓶
规格: IB00101-1ml
价格: 电话、微信、QQ、邮件
库存: 现询
电话: 010-50973130
手机: 17801761073(微信同号)
电子邮件: 3193328036@qq.com
QQ: 3193328036
微信: 17801761073
产品描述: 索莱宝直销,欢迎来询
提供多种规格现货供应
产品名: 黄芩苷(10mM in DMSO,无菌) 去供应商网站查看 询盘CAS: IB00101
产地: 北京
包装: 1ml/瓶
规格: IB00101-1ml
价格: 电话、微信、QQ、邮件
库存: 现询
电话: 010-50973130
手机: 17801761073(微信同号)
电子邮件: 3193328036@qq.com
QQ: 3193328036
微信: 17801761073
产品描述: 索莱宝直销,欢迎来询
黄芩苷的下游产品
您刚刚浏览过
你知道吗?
微信搜索化工百科或扫描下方二维码,添加化工百科小程序,随时随地查信息!