商品分类

浏览历史

B20184	橙皮素
源叶	分析标准品,HPLC≥98%

英文名：
Hesperitin

别名：

CAS号：
520-33-2

分子式：
C₁₆H₁₄O₆

分子量：
302.29

MDL：
MFCD00075646

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	数量	计量单位	加入购物车...
源叶	B20184-20mg	分析标准品,HPLC≥98%	￥100.00元	>10	1	-	2		EA	加入购物车
源叶	B20184-100mg	分析标准品,HPLC≥98%	￥350.00元	>10	-	-	-		EA	加入购物车

大包装询价

提交您的电话号码并同意《个人信息授权与保护申明》，到货后将短信提示。
提交

产品介绍

参考文献(69篇)

质检证书(COA)

摩尔浓度计算器

相关产品

熔点： 230-232°C

沸点： 586.2°C at 760 mmHg

比旋光度： (C=1.8, EtOH)-4

外观：淡黄色针状结晶

溶解性： DMSO：100mg/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。

69. [4.2] Ting Lu et al."18β-Glycyrrhetinic acid synergizes with enzalutamide to counteract castration-resistant prostate cancer by inhibiting OATP2B1 uptake of dehydroepiandrosterone."EUROPEAN JOURNAL OF PHARMACOLOGY.2024 Sep;:176995

68. [5.6] Yifan Liu et al."Preparation of monoclonal antibody against rhoifolin and its application in enzyme-linked immunosorbent assay of rhoifolin and diosmin."TALANTA.2025 Jan;281:126871

67. [1.1] Tailiang Lu et al."Cinnamic acid derivatives played a major role in the resistance of peach leaves to Xanthomonas arboricola pv. pruni infection."JOURNAL OF PHYTOPATHOLOGY.2024 Aug;172(4):e13369

66. [5.7] Yang Xu et al."Comparative Evaluation of Micellization and Cellular Uptake of β-Carotene Affected by Flavonoids."JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY.2024;XXXX(XXX):XXX-XXX

65. [IF=3.9] Qijian Xu et al."Comprehensive quality evaluation of fermented-steaming Fructus Aurantii based on chemical composition, flavor characteristics, and intestinal microbial community."JOURNAL OF FOOD SCIENCE".2024 Apr;:

64. [IF=4.6] Wang Hong-Ping et al."Comprehensive identifying flavonoids in Citri Reticulatae Pericarpium using a novel strategy based on precursor ions locked and targeted MS/MS analysis."Scientific Reports".2024 Apr;14(1):1-9

63. [IF=8.7] Yuan Ziyu et al."Four novel Cit7GlcTs functional in flavonoid 7-O-glucoside biosynthesis are vital to flavonoid biosynthesis shunting in citrus."Horticulture Research".2024 Apr;:

62. [IF=6.1] Yu Liang et al."Scavenging Glyoxal and Methylglyoxal by Synephrine and Neohesperidin from Flowers of Citrus aurantium L. var. amara Engl. in Mice and Humans."JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY".2024;72(14):8027–8038

61. [IF=6.1] Qinchen Dong et al."Natural flavonoid hesperetin blocks amyloid β-protein fibrillogenesis, depolymerizes preformed fibrils and alleviates cytotoxicity caused by amyloids."Food & Function".2024 Mar;:

60. [IF=5.2] Dan Wu et al."Optimizing the Solvent Selection of the Ultrasound-Assisted Extraction of Sea Buckthorn (Hippophae rhamnoides L.) Pomace: Phenolic Profiles and Antioxidant Activity."Foods".2024 Jan;13(3):482

59. [IF=7] Xiaomei Dai et al."Metabolism of Phenolic Compounds and Antioxidant Activity in Different Tissue Parts of Post-Harvest Chive (Allium schoenoprasum L.)."Antioxidants".2024 Mar;13(3):279

58. [IF=4.6] Lv Yue et al."Hesperetin promotes bladder cancer cells death via the PI3K/AKT pathway by network pharmacology and molecular docking."Scientific Reports.2024 Jan;14(1):1-14

57. [IF=8.1] Xiao-Li Yin et al."UHPLC-QTOF-MS-based untargeted metabolomic authentication of Chinese red wines according to their grape varieties."FOOD RESEARCH INTERNATIONAL.2023 Dec;:113923

56. [IF=6] Xin Wang et al."Comparative study on encapsulation of four different flavonoids into pea protein isolate nanoparticles: The impact of glycosylation."JOURNAL OF MOLECULAR LIQUIDS.2023 Nov;:123571

55. [IF=3.1] Qian Zhang et al."Ultra-high-performance liquid chromatography-quadrupole-time of flight-mass spectrometry combined with network pharmacology for analysis of potential quality markers of three processed products of Qingpi."JOURNAL OF SEPARATION SCIENCE.202

54. [IF=3.4] Zhen Ma et al."Identification of chemical compounds of Schizonepeta tenuifolia Briq. and screening of neuraminidase inhibitors based on AUF-MS and SPR technology."JOURNAL OF PHARMACEUTICAL AND BIOMEDICAL ANALYSIS.2024 Jan;237:115787

53. [IF=6.1] Wenqian Wang et al."Citrus Flavonoid Hesperetin Inhibits α-Synuclein Fibrillogenesis, Disrupts Mature Fibrils, and Reduces Their Cytotoxicity: In Vitro and In Vivo Studies."JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY.2023;71(43):16174–16183

52. [IF=10] Shan gao et al."Novel Natural Carrier-Free Self-assembled Nanoparticles for Treatment of Ulcerative Colitis by Balancing Immune Microenvironment and Intestinal Barrier."Advanced Healthcare Materials.10.1002/adhm.202301826

51. [IF=2] Huixian Zhou et al."Metabolic profiling of the flower of Citrus aurantium L. var. amara Engl. in rats using ultra-high-performance liquid chromatography coupled to quadrupole time-of-flight tandem mass spectrometry with data mining strategy."RAPID COMMUNI

50. [IF=4.9] Zhang Min et al."Discovery and evaluation of active compounds from Xuanfei Baidu formula against COVID-19 via SARS-CoV-2 Mpro."Chinese Medicine.2023 Dec;18(1):1-14

49. [IF=5] Tianzhu Guan et al."In vitro and in silico perspectives on the activation of antioxidant responsive element by citrus-derived flavonoids."Frontiers in Nutrition.2023; 10: 1257172

48. [IF=9.5] Xiangpeng Wang et al."Co-Delivery of Hesperetin and Cisplatin via Hyaluronic Acid-Modified Liposome for Targeted Inhibition of Aggression and Metastasis of Triple-Negative Breast Cancer."ACS Applied Materials & Interfaces.2023;XXXX(XXX):XXX-XXX

47. [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

46. [IF=2.6] Ting Yang et al."Determination of Ten Flavonoids in the Raw and Fermented Fructus Aurantii by Quantitative Analysis of Multicomponents via a Single Marker (QAMS) Based on UPLC."Journal of Analytical Methods in Chemistry.2023;2023:6067647

45. [IF=6.1] Juan Liu et al."Restricting Promiscuity of Plant Flavonoid 3′-Hydroxylase and 4′-O-Methyltransferase Improves the Biosynthesis of (2S)-Hesperetin in E. coli."JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY.2023;XXXX(XXX):XXX-XXX

44. [IF=8.8] Lijuan Zhu et al."Browning inhibition in fresh-cut Chinese water chestnut under high pressure CO2 treatment: regulation of reactive oxygen species and membrane lipid metabolism."FOOD CHEMISTRY.2023 Jun;:136586

43. [IF=6.449] Yuanyue Wang et al."A novel flavonoid prenyltransferase gene PcPT11 with broad substrate promiscuity in Psoralea corylifolia L.."INDUSTRIAL CROPS AND PRODUCTS.2023 Sep;199:116746

42. [IF=1.967] ke Zunli et al."Physicochemical characteristics, polyphenols and antioxidant activities of Dimocarpus longan grown in different geographical locations."ANALYTICAL SCIENCES.2023 Apr;:1-8

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

40. [IF=8.022] Hui Zou et al."Effective anti-inflammatory phenolic compounds from dandelion: identification and mechanistic insights using UHPLC-ESI-MS/MS, fluorescence quenching and anisotropy, molecular docking and dynamics simulation."Food Science and Human Wellness.

39. [6.443] Xiaonan Zhang et al."Preparation and in vitro evaluation of hesperidin nanoparticles by antisolvent recrystallization in a double homogenate system."Food Chemistry-X.2023 Mar;:100639

38. [9.221] Wei Lan et al."Rapid visual discrimination of Citri Reticulatae Pericarpium from different origins by fluorescent sensors based on aluminum ions and Ag nanoclusters."SENSORS AND ACTUATORS B-CHEMICAL.2023 Apr;380:133329

37. [4.58] Ji, Afang et al."Lipid Microparticles Show Similar Efficacy With Lipid Nanoparticles in Delivering mRNA and Preventing Cancer."PHARMACEUTICAL RESEARCH.2022 Nov;:1-15

36. [4.927] Qinhua Zheng et al."Protective Effect of Flavonoids from Mulberry Leaf on AAPH-Induced Oxidative Damage in Sheep Erythrocytes."MOLECULES.2022 Jan;27(21):7625

35. [IF=3.654] Wenfeng Li et al."Inhibition characteristics and mechanism of tyrosinase using five citrus flavonoids: A spectroscopic and molecular dynamics simulation study."JOURNAL OF FOOD BIOCHEMISTRY.2022 Oct;:e14484

34. [IF=5.168] Pan Wang et al."Discovery and characterization of novel ATP citrate lyase inhibitors from natural products by a luminescence-based assay."CHEMICO-BIOLOGICAL INTERACTIONS.2022 Nov;367:110199

33. [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

32. [IF=3.307] Juan Liu et al."Production of hesperetin from naringenin in an engineered Escherichia coli consortium."J Biotechnol. 2022 Mar;347:67

31. [IF=3.638] Wenfeng Li et al."Zein enhanced the digestive stability of five citrus flavonoids via different binding interaction."Journal Of The Science Of Food And Agriculture. 2022 Mar 09

30. [IF=3.935] Jingyun Zheng et al."A systematic investigation on free phenolic acids and flavonoids profiles of commonly consumed edible flowers in China."J Pharmaceut Biomed. 2019 Aug;172:268

29. [IF=3.943] Si-wei Wang et al."Hesperetin, a SIRT1 activator, inhibits hepatic inflammation via AMPK/CREB pathway."Int Immunopharmacol. 2020 Dec;89:107036

28. [IF=4.268] Si-wei Wang et al."Hesperetin promotes DOT1L degradation and reduces histone H3K79 methylation to inhibit gastric cancer metastasis."Phytomedicine. 2021 Apr;84:153499

27. [IF=4.411] Liuyi Yu et al."Systematic Detection and Identification of Bioactive Ingredients from Citrus aurantium L. var. amara Using HPLC-Q-TOF-MS Combined with a Screening Method."Molecules. 2020 Jan;25(2):357

26. [IF=4.432] Wei He et al."Flavonoids from Citrus aurantium ameliorate TNBS-induced ulcerative colitis through protecting colonic mucus layer integrity."Eur J Pharmacol. 2019 Aug;857:172456

25. [IF=4.451] Xiao Guo et al."Intestinal absorption and distribution of naringin, hesperidin, and their metabolites in mice."J Funct Foods. 2020 Nov;74:104158

24. [IF=4.581] Xiyi Qian et al."Hesperetin protects crayfish Procambarus clarkii against white spot syndrome virus infection."Fish Shellfish Immun. 2019 Oct;93:116

23. [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

22. [IF=5.279] Feng Wang et al."Four Citrus Flavanones Exert Atherosclerosis Alleviation Effects in ApoE–/– Mice via Different Metabolic and Signaling Pathways."J Agr Food Chem. 2021;69(17):5226–5237

21. [IF=6.543] Wang Yue et al."Polymethoxyflavones in Citrus Regulate Lipopolysaccharide-Induced Oscillating Decay of Circadian Rhythm Genes by Inhibiting Nlrp3 Expression."Oxid Med Cell Longev. 2021;2021:8419415

20. [IF=7.514] Jing Zhao et al."A sensitive and practical ELISA for analyzing naringenin in pummelo and herb samples."Food Chem. 2021 Nov;362:130223

19. He, Wei, et al. "Flavonoids from Citrus aurantium ameliorate TNBS-induced ulcerative colitis through protecting colonic mucus layer integrity." European journal of pharmacology 857 (2019): 172456.https://doi.org/10.1016/j.ejphar.2019.172456

18. Guo, Xiao, et al. "Intestinal absorption and distribution of naringin, hesperidin, and their metabolites in mice." Journal of Functional Foods 74 (2020): 104158.https://doi.org/10.1016/j.jff.2020.104158

17. Qian, Xiyi, and Fei Zhu. "Hesperetin protects crayfish Procambarus clarkii against white spot syndrome virus infection." Fish & shellfish immunology 93 (2019): 116-123.https://doi.org/10.1016/j.fsi.2019.07.029

16. Wang, Si-wei, et al. "Hesperetin, a SIRT1 activator, inhibits hepatic inflammation via AMPK/CREB pathway." International Immunopharmacology 89 (2020): 107036.https://doi.org/10.1016/j.intimp.2020.107036

15. He, Wei, et al. "Citrus aurantium L. and its flavonoids regulate TNBS-induced inflammatory bowel disease through anti-inflammation and suppressing isolated jejunum contraction." International journal of molecular sciences 19.10 (2018): 3057.https://doi.org

14. Wang, Peng, et al. "Chemical and genetic discrimination of commercial Guangchenpi (Citrus reticulata ‘Chachi’) by using UPLC-QTOF-MS/MS based metabolomics and DNA barcoding approaches." RSC advances 9.40 (2019): 23373-23381.https://doi.org/10.1039/C9RA0374

13. 李文峰,张向阳,王翠,林兰婷,陈小平,屈阳,张雪梅,林瑶,谭飔,郑俏然,高晓旭.茎瘤芥的气体射流冲击干燥动力学及多酚降解动力学特征[J].食品科学,2021,42(05):106-114.

12. 徐艳阳,赵玉娟,高峰,王二雷,鲁海玲,李雪凤,姜雯雯,陈艳.高效液相色谱法分析中国人参不同部位中多酚类化合物[J].食品科学,2021,42(04):240-246.

11. 蒋家璐,孙溧,倪姐,徐坠成,宋蒙蒙,姚卫峰,程海波,康安,孙东东.肠道菌群对半枝莲中活性成分的代谢及其抑制CYP1A1酶的影响[J].南京中医药大学学报,2021,37(02):225-230.

10. 谢辉陈亚雷爱玲等. SPE-HPLC-DAD法同时检测柑橘药用资源中黄烷酮类和川陈皮素成分[J]. 天然产物研究与开发 2019(8).

9. 高喜梅, 池玉梅, 张雯,等. 指纹图谱结合一测多评法评价酸橙枳实质量的研究[J]. 中草药, 2020, v.51;No.668(09):281-289.

8. 韩星, 李雪岩, 杨海洋,等. 菊花水提物的质量控制成分筛选及其网络药理学作用研究[J]. 中国药房, 2019, 030(023):3258-3265.

7. 周佳, 蔡皓, 段煜,等. 基于UHPLC-QqQ-MS的四逆散水提液中16种主要化学成分的定量研究[J]. 南京中医药大学学报, 2019, v.35(01):91-95.

6. 黄华花, 张伟云, 陈景海,等. 陈皮配方颗粒的质量标准提高研究[J]. 中国药房, 2019, 030(007):937-941.

5. 张智敏, 聂莼, 李亚梅,等. 聚类分析结合主成分分析评价不同产地枳壳药材的一致性与差异性[J]. 亚太传统医药, 2019, 015(004):30-36.

4. 毛晨梅, 郁丹红, 桂环. 橙皮素抑制P-选择素诱导的乳腺癌转移作用机制研究[J]. 中草药, 2017(4).

3. 薛豹, 桑伟林, 姜亚飞,等. 橙皮素抑制NF-κB通路调控软骨细胞炎性退变的实验研究[J]. 现代生物医学进展, 2019, 19(04):18-23.

2. 王丽芳, 刘大银, 赵方毓,等. 橙皮素对SW480结肠癌细胞的凋亡诱导作用[J]. 中国临床药理学杂志, 2019, 035(021):2695-2697,2705.

1. 刘玉华王丹杨丹等. 响应面法优化沙漠嘎种子超声辅助提取工艺研究[J]. 辽宁中医药大学学报 2018 v.20;No.169(05):59-61.