51542-56-4
人参皂甙(ginsenoside from ginseng root (panax*quinquefoliu)
CAS: 51542-56-4;52286-59-6
化学式: C48H82O18
| 中文名 | 人参皂甙 |
| 英文名 | ginsenoside from ginseng root (panax*quinquefoliu |
| 别名 | 人参皂甙 人参皂苷Re 人参皂甙Re 人参皂苷 Re 人参皂甙 Re GINSENOSIDE RE 人参皂苷RE |
| 英文别名 | NSC 308877 Ginsenoside GINSENOSIDE Panaxoside RE ginsenoside re Ginsenoside B2 Panax saponin C Chikusetsusaponin IVc GINSENOSIDE GINSENOSIDE-RE GINSENOSIDE-RE FROM PANAX GINSENG (K ginsenoside from ginseng root (panax*quinquefoliu Ginsenoside-Re from Panax ginseng (Korean ginseng) root ginsenoside-re from panax quinquefolium (american ginseng)root 20-(hexopyranosyloxy)-3,12-dihydroxydammar-24-en-6-yl 2-O-(6-deoxyhexopyranosyl)hexopyranoside 2-O-(6-Deoxy-alpha-L-mannopyranosyl)-(3beta,6alpha,12beta)-20-(beta-D-glucopyranosyloxy)-3,12-dihydroxydammar-24-en-6-yl-beta-D-glucopyranoside (3beta,6alpha,12beta)-20-(beta-D-glucopyranosyloxy)-3,12-dihydroxydammar-24-en-6-yl 2-O-(6-deoxy-alpha-L-mannopyranosyl)-beta-D-glucopyranoside (3beta,6alpha,9xi,12beta,13alpha)-20-[(3xi)-beta-D-ribo-hexopyranosyloxy]-3,12-dihydroxydammar-24-en-6-yl 2-O-(6-deoxy-alpha-L-mannopyranosyl)-beta-D-glucopyranoside |
| CAS | 51542-56-4 52286-59-6 |
| EINECS | 610-685-3 |
| 化学式 | C48H82O18 |
| 分子量 | 947.15 |
| InChI | InChI=1/C48H82O18/c1-21(2)11-10-14-48(9,66-42-38(60)35(57)32(54)26(19-49)63-42)23-12-16-46(7)30(23)24(51)17-28-45(6)15-13-29(52)44(4,5)40(45)25(18-47(28,46)8)62-43-39(36(58)33(55)27(20-50)64-43)65-41-37(59)34(56)31(53)22(3)61-41/h11,22-43,49-60H,10,12-20H2,1-9H3/t22-,23-,24+,25-,26+,27+,28+,29-,30-,31-,32+,33+,34+,35-,36-,37+,38+,39+,40-,41-,42-,43+,45+,46+,47+,48-/m0/s1 |
| InChIKey | PWAOOJDMFUQOKB-WCZZMFLVSA-N |
| 密度 | 1.38g/cm3 |
| 熔点 | 201-203°C |
| 沸点 | 1011.8°C at 760 mmHg |
| 闪点 | 565.7°C |
| 蒸汽压 | 0mmHg at 25°C |
| 溶解度 | 可溶于水、热甲醇、乙醇等溶剂,不溶于石油醚。 |
| 折射率 | 1.61 |
| 存储条件 | 2-8°C |
| 敏感性 | Easily absorbing moisture |
| 外观 | 白色晶体 |
| MDL号 | MFCD00133369 |
| 危险品标志 | Xn - 有害物品 Xi - 刺激性物品  |
| 风险术语 | R20/21/22 - 吸入、皮肤接触及吞食有害。 R63 - 可能有对胎儿造成伤害的危险。 R62 - 有损害生育能力的危险。 R46 - 可能引起遗传性基因损害。 R36/38 - 刺激眼睛和皮肤。 R21 - 与皮肤接触有害。 |
| 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。 S53 - 避免接触,使用前须获得特别指示说明。 S36/37 - 穿戴适当的防护服和手套。 S25 - 避免眼睛接触。 |
| WGK Germany | 3 |
| 海关编号 | 29389090 |
| 参考资料 展开查看 | 1. 王震 马伟 李洪源 等. 三个不同产地人参中皂苷含量的差异性研究[J]. 中医药信息 2019 036(003):83-86. 2. 孙雨薇 王珊珊 徐浩 等. 不同方法对人参皂苷Re提取效果的影响[J]. 食品工业科技 2014 35(014):301-304. 3. 黄晓兵 李积华 彭芍丹 et al. 五个产地荔枝核中药饮片抗氧化活性研究[J]. 食品工业科技 2014 35(022):91-94. 4. 杜琳 刘知源 赵凌志. 人参果皂苷前体阳离子脂质体的制备及体外释放研究[J]. 吉林中医药 2017(10). 5. 田静 任雨贺 刘淑莹 等. 人参皂苷Rc Rd Re对神经胶质瘤细胞增殖作用的影响[J]. 中成药 2020 042(003):751-754. 6. 乐 王维肖 杨贺旻 等. 人参皂苷Re对吗啡依赖戒断后小鼠抑郁样行为的影响[J]. 延边大学医学学报 2019(2). 7. 付佳 苑广信 安丽萍 等. 双参颗粒剂的制备[J]. 时珍国医国药 2018 29(3):598-600. 8. 程璐, 谢翔, 刘中原,等. 海参水煮液皂苷的美白抗衰老功效[J]. 精细化工, 2018, 35(002):267-271,290. 9. 戴浩, 张晓伟, 李风涛,等. 酶解组合高速匀浆法提取人参总皂苷和多糖[J]. 保鲜与加工, 2020, v.20;No.118(03):145-153. 10. 李雯, 李新生, 赵冠杰,等. 黑米花青苷复方软胶囊有效成分抗氧化活性研究[J]. 食品科技, 2018, 43(10):114-120. 11. 李雯, 韩惠敏, 赵天煜,等. 黑米花青苷复方软胶囊生产工艺研究[J]. 粮食流通技术, 2018, 000(007):149-152. 12. 宁张弛 刘振丽 宋志前 等. HPLC-QqQ-MS测定珠子参中5种皂苷类成分的含量[J]. 中国中药杂志 2016 v.41(05):874-878. 13. 杨丽颖 郭伟英. HPLC-ELSD法同时测定益心宁神片中5种成分的含量[J]. 中药材 2015 38(012):2619-2622. 14. 李晶, 朱娜, 郑飞,等. 红参红景天混合物提取工艺及其抗疲劳作用[J]. 食品工业科技, 2019, 040(016):181-185,191. 15. 余健, 徐晓珍, 顾利强,等. 高效液相色谱-串联质谱法同时测定参麦注射液中9种皂苷[J]. 中华中医药学刊, 2014. 16. 陶雪慧 王安琪 王康宇 等. 五味子胶囊提取工艺研究[J]. 长春中医药大学学报 2018(4):659-662. 17. 张琰, 李方彤, 韩铭鑫,等. 通过RRLC-Q-TOF MS和UPLC-QQQ MS分析原人参三醇型皂苷在人肠道菌群中的代谢产物[J]. 质谱学报, 2020(1):66-75. 18. 赵立春 刘继永. Box-Behnken法优化人参皂苷Rg1 Re Rb1提取工艺[J]. 食品工业 2020(1). 19. 张永 陈旭 丁越 等. HPLC法结合统计学方法研究复方丹参片中皂苷类成分[J]. 辽宁中医杂志 2019 46(01):126-129. 20. 王灿灿 戴黎蓉 赵旻 等. UPLC法同时测定四君子汤中7种化学成分的含量[J]. 沈阳药科大学学报 2018 v.35;No.271(08):639-645. 21. 郑尧. 人参鲜药干制/复水过程水分状态与化学成分变化规律研究[J]. 中草药 2019(14):3302-3312. 22. 吴雨佳, 王令充, 张雯,等. 生物黏附性三七总皂苷-白及多糖-海藻酸钠复合微球的制备及表征[J]. 中草药, 2019, v.50;No.655(20):49-56. 23. 吴冬雪,刘淑莹,陈思键,赵幻希,修洋,王淑敏.固相萃取结合高效液相色谱-三重四极杆质谱快速分离检测益气养血口服液中人参皂苷的新方法[J].分析测试学报,2020,39(07):867-873. 24. 张艳欣, 朱国琴, 王丹丹. 均匀设计法优化林下山参中人参皂苷提取工艺的研究[J]. 上海医药, 2019, 040(015):89-92. 25. 苗瑞, 吴冬雪, 王秋颖,等. 基于多壁碳纳米管的人参皂苷快速分离[J]. 高等学校化学学报, 2018. 26. 赵昶灵, 杨生超, 陈中坚,等. 紫,绿三七的总花色苷和总皂苷含量及皂苷单体组成[J]. 中药材, 2014, 37(10):1749-1753. 27. 杨林, 徐晓珍, 陈劲柏,等. UHPLC法同时测定参麦注射液中8种人参皂苷[J]. 中成药, 2019. 28. 李灿, 唐利军, 茹琴,等. 戒毒一号的高效液相色谱指纹图谱研究[J]. 江汉大学学报(自然科学版), 2018, 46(05):471-476. 29. 夏晚霞, 张尚微, 葛亚中,等. 乳酸菌发酵转化人参皂苷[J]. 现代食品科技, 2018, 34(09):136-142. 30. 李雪晴, 李丽, 刘秀峰,等. 三七皂苷的人肠道菌群体外代谢研究[J]. 药物生物技术, 2017(03):34-39. 31. 越皓,周东月,张美玉,张琰,戴雨霖,郑飞,朱英豪.红参中原人参三醇型皂苷组在肠道菌群中体外转化及对肠道菌群的作用[J].应用化学,2021,38(03):323-330. 32. 杜静. 冠突散囊菌对中药材三七成分的转化及机理研究[D].贵州师范大学,2020. 33. 王艳,尉忠贤,李晶.HPLC法测定不同厂家振源片中人参皂苷的含量[J].西北药学杂志,2020,35(05):669-673. 34. 吴冬雪,王秋颖,王淑敏,陈思键,刘淑莹,赵幻希,修洋.人参皂苷的仿生提取研究[J].分析试验室,2021,40(02):145-149. 35. 谢果珍,唐圆,姜珊,罗帅,谭周进.七味白术散总苷的提取工艺优化及体外抑菌活性初探[J].时珍国医国药,2020,31(06):1351-1354. 36. 屈文佳,贾天颖,王海丽,辛洁萍,王敏,白玉莹,徐文娟,李向日.不同蒸制时间下红参颜色及3种常见人参皂苷的转化规律研究[J].北京中医药大学学报,2020,43(09):769-775. 37. 张涛,王冠,张维维,陈湘,张庆贺,刘芳馨,李卓然,齐伟辰.温度调控对人参皂苷积累及其关键酶基因表达的影响[J].中草药,2020,51(19):5035-5040. 38. 范琳,王苗,马馨桐,沈颖昕,韩荣欣,张红印,严铭铭,邵帅.葛根抗氧化活性有效部位的筛选研究[J].食品研究与开发,2021,42(06):119-123. 39. 屈青松,林峰,赵崇妍,马涛,宋帅,史新元.发酵乳杆菌发酵人参工艺优化及人参皂苷抗氧化活性测定[J].中成药,2020,42(10):2738-2743. 40. 胡小松. 五灵脂中菌群种类及其生物转化作用初步研究[D].北京中医药大学,2020. 41. 温宝庆,李文庆,周妙霞,林坤霞,汪小东,钱正明.茯神饮中化学成分的核壳色谱-四级杆飞行时间质谱联用鉴定和分析[J].时珍国医国药,2020,31(06):1334-1338. 42. 张娜,黄鑫,郭云龙,越皓,刘淑莹.基于UPLC-QQQ-MS多指标统计分析研究不同生境人参中皂苷分布[J].特产研究,2020,42(06):48-54. 43. 邵紫君,李志满,于鹏程,陈建波,李珊珊,孙印石.氨基酸转化三七花中稀有人参皂苷及提取液对脂多糖诱导的RAW264.7细胞活性的影响[J].中草药,2021,52(03):702-710. 44. Jin, Wenqi, et al. "Ginsenoside Rd attenuates ACTH-induced corticosterone secretion by blocking the MC2R-cAMP/PKA/CREB pathway in Y1 mouse adrenocortical cells." Life sciences 245 (2020): 117337.https://doi.org/10.1016/j.lfs.2020.117337 45. Joo, Kyung-Mi, et al. "Pharmacokinetic study of ginsenoside Re with pure ginsenoside Re and ginseng berry extracts in mouse using ultra performance liquid chromatography/mass spectrometric method." Journal of pharmaceutical and biomedical analysis 51.1 (20 46. Yu, Jingping, et al. "Comprehensive Quality Evaluation of American Ginseng for Different Parts and Abnormal Trait Based on the Major Ginsenoside Contents and Morphological Characteristics." BioMed research international 2021 (2021).https://doi.org/10.1155/ 47. Manying Wang, Jixiang Ren, Xuenan Chen, Jianzeng Liu, Xiaohao Xu, Xiangyan Li, Daqing Zhao, Liwei Sun, 20(S)-ginsenoside Rg3 promotes myoblast differentiation and protects against myotube atrophy via regulation of the Akt/mTOR/FoxO3 pathway, Biochemical Ph 48. Chen, Jiali, et al. "Ginsenosides and amino acids in flavored ginseng chips as affected by food formulation and processing technology." LWT-Food Science and Technology 62.1 (2015): 517-524.https://doi.org/10.1016/j.lwt.2014.10.047 49. Yongshen Ren, Jiao Ai, Xinqiao Liu, Shuai Liang, Yao Zheng, Xin Deng, Yan Li, Jing Wang, Xukun Deng, Lin-Lin Chen,Anticoagulant active ingredients identification of total saponin extraction of different Panax medicinal plants based on grey relational anal 50. [IF=6.06] Jiahong Han et al."Compatibility effects of ginseng and Ligustrum lucidum Ait herb pair on hematopoietic recovery in mice with cyclophosphamide-induced myelosuppression and its material basis."J Ginseng Res. 2020 Mar;44:291 51. [IF=6.06] Jianbo Chen et al."Effects of processing method on the pharmacokinetics and tissue distribution of orally administered ginseng."J Ginseng Res. 2018 Jan;42:27 52. [IF=6.06] Yang Xiu et al."Simultaneous determination and difference evaluation of 14 ginsenosides in Panax ginseng roots cultivated in different areas and ages by high-performance liquid chromatography coupled with triple quadrupole mass spectrometer in the multipl 53. [IF=5.923] Yanping Liu et al."Rapid and Sensitive Determination of Timosaponin AIII in Rat Plasma by LC-MS/MS and Its Pharmacokinetic Application."Int J Mol Sci. 2013 Feb;14(2):3656-3670 54. [IF=5.34] Shan-Shan Zhou et al."Stronger anti-obesity effect of white ginseng over red ginseng and the potential mechanisms involving chemically structural/compositional specificity to gut microbiota."Phytomedicine. 2020 Aug;74:152761 55. [IF=4.952] Jiali Chen et al."Ginsenosides and amino acids in flavored ginseng chips as affected by food formulation and processing technology."Lwt Food Sci Technol. 2015 Jun;62:517 56. [IF=4.36] Bin Ma et al."Sulfur fumigation reducing systemic exposure of ginsenosides and weakening immunomodulatory activity of ginseng."J Ethnopharmacol. 2017 Jan;195:222 57. [IF=3.935] Shan-Shan Zhou et al."Synchronous characterization of carbohydrates and ginsenosides yields deeper insights into the processing chemistry of ginseng."J Pharmaceut Biomed. 2017 Oct;145:59 58. [IF=2.77] Jingyuan Li et al."Metabolic profiling of the effects of ginsenoside Re in an Alzheimer’s disease mouse model."Behav Brain Res. 2018 Jan;337:160 59. [IF=2.162] Xiao-yan Wang et al."Optimization of dynamic-microwave assisted enzymatic hydrolysis extraction of total ginsenosides from stems and leaves of panax ginseng by response surface methodology."Preparative Biochemistry & Biotechnology. 2019 Mar 12 60. [IF=1.967] Meijia Li et al."Brain Concentration of Ginsenosides and Pharmacokinetics after Oral Administration of Mountain-cultivated Ginseng."J Chin Chem Soc-Taip. 2017 Apr;64(4):395-403 61. [IF=6.558] Qingqing Song et al."Binary code, a flexible tool for diagnostic metabolite sequencing of medicinal plants."Anal Chim Acta. 2019 Dec;1088:89 62. [IF=6.06] Zhenzhuo Li et al."Ginsenosides repair UVB-induced skin barrier damage in BALB/c hairless mice and HaCaT keratinocytes."J Ginseng Res. 2021 May;: 63. [IF=5.878] Jianbo Chen et al."Protection by ginseng saponins against cyclophosphamide-induced liver injuries in rats by induction of cytochrome P450 expression and mediation of the l-arginine/nitric oxide pathway based on metabolomics."Phytother Res. 2021 Jun;35(6): 64. [IF=5.396] Hui Wang et al."Ginsenoside extract from ginseng extends lifespan and health span in Caenorhabditis elegans."Food Funct. 2021 Aug;12(15):6793-6808 65. [IF=5.34] You-Ping Wu et al."Evidences for the mechanism of Shenmai injection antagonizing doxorubicin-induced cardiotoxicity."Phytomedicine. 2021 Jul;88:153597 66. [IF=4.96] Manying Wang et al."20(S)-ginsenoside Rg3 promotes myoblast differentiation and protects against myotube atrophy via regulation of the Akt/mTOR/FoxO3 pathway."Biochem Pharmacol. 2020 Oct;180:114145 67. [IF=4.411] Jianbo Chen et al."Neuroprotective Effects of Red Ginseng Saponins in Scopolamine-Treated Rats and Activity Screening Based on Pharmacokinetics."Molecules. 2019 Jan;24(11):2136 68. [IF=4.36] Yongshen Ren et al."Anticoagulant active ingredients identification of total saponin extraction of different Panax medicinal plants based on grey relational analysis combined with UPLC-MS and molecular docking."J Ethnopharmacol. 2020 Oct;260:112955 69. [IF=4.142] Wang Chenxi et al."Rapid discovery of potential ADR compounds from injection of total saponins from Panax notoginseng using data-independent acquisition untargeted metabolomics."Analytical And Bioanalytical Chemistry. 2021 Oct 26 70. [IF=3.935] Ruimei Lin et al."Global identification and determination of the major constituents in Kai-Xin-San by ultra-performance liquid chromatography-quadrupole-Orbitrap mass spectrometry and gas chromatography-mass spectrometry."J Pharmaceut Biomed. 2021 Nov;206 71. [IF=3.69] Xiaoping Wang et al."Baoyuan decoction ameliorates apoptosis via AT1-CARP signaling pathway in H9C2 cells and heart failure post-acute myocardial infarction rats."J Ethnopharmacol. 2020 Apr;252:112536 72. [IF=3.659] Zhang Sheng et al."Protective effect of Shenmai injection on doxorubicin-induced cardiotoxicity via regulation of inflammatory mediators."Bmc Complem Altern M. 2019 Dec;19(1):1-10 73. [IF=3.647] Wenqi Jin et al."Ginsenoside Rd attenuates ACTH-induced corticosterone secretion by blocking the MC2R-cAMP/PKA/CREB pathway in Y1 mouse adrenocortical cells."Life Sci. 2020 Mar;245:117337 74. [IF=3.645] Hao Zhang et al."Preparing molecularly imprinted nanoparticles of saponins via cooperative imprinting strategy."J Sep Sci. 2020 Jun;43(11):2162-2171 75. [IF=3.645] Mengmeng Jia et al."UHPLC coupled with mass spectrometry and chemometric analysis of Kang-Ai injection based on the chemical characterization, simultaneous quantification, and relative quantification of 47 herbal alkaloids and saponins."J Sep Sci. 2020 Ju 76. [IF=3.503] Jiajia Dong et al."Comparative pharmacokinetic analysis of raw and steamed Panax notoginseng roots in rats by UPLC-MS/MS for simultaneously quantifying seven saponins."Pharm Biol. 2021;59(1):653-661 77. [IF=3.205] Jie Tang et al."Metabolite profiling of Shuganzhi tablets in rats and pharmacokinetics study of four bioactive compounds with liquid chromatography combined with electrospray ionization tandem mass spectrometry."J Chromatogr B. 2021 Aug;1179:122827 78. [IF=2.57] Chengcheng Sun et al."ShenmaYizhi Decoction Improves the Mitochondrial Structure in the Brain and Ameliorates Cognitive Impairment in VCI Rats via the AMPK/UCP2 Signaling Pathway."Neuropsych Dis Treat. 2021; 17: 1937–1951 79. [IF=2.408] Fang-Tong Li et al."In Vitro Effects of Ginseng and the Seed of Zizyphus jujuba var. spinosa on Gut Microbiota of Rats with Spleen Deficiency."Chem Biodivers. 2020 Sep;17(9):e2000199 80. [IF=1.934] Zhang Chen et al."Biotransformation of ginsenoside Rc to Rd by endophytic bacterium Bacillus sp. G9y isolated from Panax quinquefolius."Anton Leeuw Int J G. 2021 Apr;114(4):437-444 81. [IF=5.875] Jiang-Wen Shen et al.Biomimetic nanoparticles: U937 cell membranes based core–shell nanosystems for targeted atherosclerosis therapy.Int J Pharmaceut. 2022 Jan;611:121297 82. [IF=3.105] Zhao Yan et al.Protopanaxadiol and Protopanaxatriol Ginsenosides Can Protect Against Aconitine-induced Injury in H9c2 Cells by Maintaining Calcium Homeostasis and Activating the AKT Pathway.J Cardiovasc Pharm. 2021 Nov;78(5):e690-e702 83. [IF=4.432] Shuai Zhang et al."Ginsenoside Rf inhibits human tau proteotoxicity and causes specific LncRNA, miRNA and mRNA expression changes in Caenorhabditis elegans model of tauopathy."Eur J Pharmacol. 2022 May;922:174887 84. [IF=2.419] Yinping Jin et al."Dynamic changes of ginsenosides in Panax quinquefolius fruit at different development stages measured by UHPLC-Orbitrap MS."Rapid Communications In Mass Spectrometry. 2022 Feb 17 85. [IF=6.06] Qingxia Huang et al."Major ginsenosides from Panax ginseng promote aerobic cellular respiration and SIRT1-mediated mitochondrial biosynthesis in cardiomyocytes and neurons."J Ginseng Res. 2022 Feb;: 86. [IF=7.514] Di Qu et al."Sediment formation and analysis of the main chemical components of aqueous extracts from different parts of ginseng roots."Food Chem. 2022 Jan;:132146 87. [IF=7.514] Di Qu et al."Sediment formation and analysis of the main chemical components of aqueous extracts from different parts of ginseng roots."Food Chem. 2022 Jan;:132146 88. [IF=5.811] He Zhang et al."Prevention Effect of Protopanaxadiol-Type Saponins Saponins and Protopanaxatriol-Type Saponins on Myelosuppression Mice Induced by Cyclophosphamide.."Frontiers in Pharmacology. 2022 Apr;13:845034-845034 89. [IF=4.35] Di Qu et al."Analysis of Key Chemical Components in Aqueous Extract Sediments of Panax Ginseng at Different Ages."Foods. 2022 Jan;11(8):1161 90. [IF=4.35] Xian-Tao Yan et al."In Vitro Anti-Obesity Effect of Shenheling Extract (SHLE) Fermented with Lactobacillus fermentum grx08."Foods. 2022 Jan;11(9):1221 91. [IF=6.576] Zhi-man Li et al."Transformation Mechanism of Rare Ginsenosides in American Ginseng by Different Processing Methods and Antitumour Effects."Frontiers in Nutrition. 2022; 9: 833859 92. [IF=6.576] Rensong Huang et al."Studies on Bioactive Components of Red Ginseng by UHPLC-MS and Its Effect on Lipid Metabolism of Type 2 Diabetes Mellitus."Frontiers in Nutrition. 2022; 9: 865070 93. [IF=1.885] Guo Na et al."Comparison of the Saponins in Three Processed American Ginseng Products by Ultra-High Performance Liquid Chromatography-Quadrupole Orbitrap Tandem Mass Spectrometry and Multivariate Statistical Analysis."International Journal of Analytical Ch |
51542-56-4 - 简介
人参皂甙是从人参根中提取的一种生物活性成分。它主要是由一系列结构相似的三萜皂甙组成,其中最具代表性的物质是Rb1、Rg1、Rg3、Re等。
人参皂甙具有多种药理作用,包括增强人体免疫力、抗氧化、抗疲劳、抗肿瘤、改善心血管功能等。
人参皂甙的提取方法一般是通过水煎、醇提等工艺来获取。首先将人参切片,然后用水或醇溶液浸泡,之后经过浓缩、过滤等步骤得到纯化的人参皂甙。
就安全性而言,人参皂甙属于天然植物提取物,在适当剂量下通常是安全的。过量使用可能会引起一些副作用,如失眠、头晕、口干等。
人参皂甙具有多种药理作用,包括增强人体免疫力、抗氧化、抗疲劳、抗肿瘤、改善心血管功能等。
人参皂甙的提取方法一般是通过水煎、醇提等工艺来获取。首先将人参切片,然后用水或醇溶液浸泡,之后经过浓缩、过滤等步骤得到纯化的人参皂甙。
就安全性而言,人参皂甙属于天然植物提取物,在适当剂量下通常是安全的。过量使用可能会引起一些副作用,如失眠、头晕、口干等。
最后更新:2024-04-09 20:45:29
供应商列表
提供多种规格现货供应
产品名: 人参皂苷Re(10mM in DMSO,无菌) 去供应商网站查看 询盘CAS: IG06501
产地: 北京
包装: 1ml/瓶
规格: IG06501-1ml
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: 人参皂苷Re(10mM in DMSO,无菌) 去供应商网站查看 询盘CAS: IG06501
产地: 北京
包装: 1ml/瓶
规格: IG06501-1ml
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
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!