Hyperoside

  • 网络金丝桃苷;金丝桃甙
HyperosideHyperoside
  1. In this paper the contents of Arbutin and Hyperoside in sterns and leaves of Vaccinium Vitis collected in different seasons from different areas have been analyzed by HPLC .

    本文利用HPLC方法对不同产地、不同采收期越桔茎叶中熊果甙、金丝桃甙含量进行测定。

  2. Analysis of CD spectra showed that the binding of hyperoside to HSA could induce partial changes in the secondary structure of the protein .

    CD谱显示,金丝桃苷诱导HSA的二级结构产生稍许的变化。

  3. Determination of hyperoside in different parts and different species of Herba Bidens by RP-HPLC

    RP-HPLC测定鬼针草属不同药用部位和不同种中的金丝桃苷

  4. Objective : To study the contents of hyperoside in Semen Cuscutae , which grew in different host and different environment .

    前言:目的:考查不同的寄主植物及不同生长环境对菟丝子药材中金丝桃苷含量的影响。

  5. Determination of Effective Compounds Hypericin and Hyperoside in Hypericum perforatum Tablets by RP-HPLC

    RP-HPLC法测定贯叶连翘片剂中有效成分金丝桃素和金丝桃苷的含量

  6. Conclusion : Except for okanin and hyperoside , the rest 7 compounds are isolated from the plant for the first time .

    结论:以上化合物除奥卡宁、金丝桃苷外,其余7个化合物均为首次从鬼针草中分离得到。

  7. The content of Hyperoside in the drug of Xinghua is 0.98 % with RSD 1.49 % .

    江苏兴化黄蜀葵花中金丝桃苷含量0.98%,RSD为1.49%;

  8. Determination of Rutin and Hyperoside in Extract from Crataegus pinnatifida Bge . by HPLC

    高效液相色谱法测定山楂总黄酮提取物中芦丁和金丝桃苷的含量

  9. Results : The content of hyperoside is0.28 % - 0.65 % in the semen Cuscutae growing in different conditions in Shandong .

    结果:不同生长条件下,菟丝子及南方菟丝子中金丝桃苷的含量在0。28%-0。

  10. Determination of Total Flavonoid and Hyperoside Contents in Different Parts of Poacynum hendersonii ( Hook . f. ) Woodson

    大叶白麻不同部位总黄酮和金丝桃苷含量研究

  11. The results of AFM and resonance light scattering revealed that the individual HSA molecules was largened and aggregated after interaction with hyperoside .

    AFM图像和共振散射光谱表明,与金丝桃苷结合后HSA的分子直径变大,产生相互聚集。

  12. Effects of active various concentrations of hyperoside on PGI2 , TXA2 and PAF production induced by SLT - ⅱ e in rat intestinal microvascular endothelial cells

    金丝桃苷对SLT-Ⅱe诱导大鼠肠黏膜微血管内皮细胞分泌PGI2、TXA2及PAF的影响

  13. To control the quality of LBM , it is necessary to determine hyperoside and isoquercitrin at the same time . This study guides the clinical medication and further pharmacological studies .

    在中药质量控制的同时对金丝桃苷和异槲皮苷进行控制很有必要,阐明了多成分含量测定对中药质量控制的科学性,对临床合理用药以及罗布麻的后续药理研究具有指导意义。

  14. Pharmacological studies show that , hyperoside can protect animal with the model of myocardial ischemia and cerebral ischemia , and it is expected to become one of the anti-cerebral ischemia injury drugs .

    药理研究表明,金丝桃苷对心肌缺血的动物模型和脑缺血的不同大鼠模型都具有一定的保护作用,其有望成为抗心脑缺血损伤的药物。

  15. While the pH value is upon 9.50 , the E is decreased with the pH increasing because more and more OH-compete with hyperoside for combining to CTAB polar terminal .

    当超过9.50后,体系[OH-]增大,对CTAB极性头的竞争增强,因此,E随pH升高而减小。

  16. Comparing with the reference of hyperoside , the relative preserving time , the relative areas of other peaks and the similitude degree of each fingerprint are calculated as the technique parameters to estimate the fingerprint .

    确定了17个共有峰,以金丝桃苷为参照物,计算其它色谱峰的相对保留时间和相对峰面积以及各指纹图谱的相似度,作为技术参数评价指纹图谱。

  17. Determination of Chlorogenic Acid and Hyperoside in Leaves of Acanthopanax Senticosus Produced in Different Areas by HPLC Acanthopanax senticosus saponins ameliorates oxidative damage induced by hydrogen peroxide in neonatal rat cardiomyocytes

    HPLC法测定不同产地刺五加叶中绿原酸和金丝桃苷含量刺五加叶皂苷对乳鼠心肌细胞氧化应激损伤的保护作用

  18. The binding effect of hyperoside on human serum albumin ( HSA ) was studied by fluorescence , resonance light scattering , CD spectroscopy and atomic force microscopy ( AFM ), as well as molecule docking .

    采用荧光、共振瑞利散射、圆二色等光谱方法和原子力显微镜(AFM)以及分子对接技术,研究了金丝桃苷与人血清白蛋白(HSA)的相互作用。

  19. The content of hyperoside was 0.60 ~ 0.91 % in samples from Apocynum linn , and 0.39 ~ 0.55 % in those from Poacynum baill .

    罗布麻属罗布麻叶中金丝桃苷含量在0.60~0.91%,白麻属两种含量在0.39~0.55%。

  20. The small intestine as the most important absorption place for an oral drug , and to study the absorption mechanism provides an important basis for research and development of oral dosage forms , thus we did the experiment of in rats intestinal absorption of hyperoside .

    金丝桃苷大鼠在体肠道吸收研究。小肠作为口服药物吸收最主要的场所,研究药物在肠内的吸收机理对开发口服制剂提供重要基础。

  21. It select six known flavonoid monomers ( rutin , hyperoside , isoquercitrin , quercitrin , quercetin and kaempferol ) as reference substance , the use of HPLC method for simultaneous determination of six flavonoids monomer content .

    选取地耳草已知明确的六种黄酮类单体(芦丁、金丝桃苷、异槲皮苷、槲皮苷、槲皮素、山柰酚)作对照品,采用HPLC法同时测定六种黄酮类单体的含量。

  22. Hyperoside has poor solubility , and the rat intestinal absorption research on hyperin showed that although the absorption of hyperin was fairly well , it could not be absorbed completely . So we first propose to prepare it into solid dispersion .

    金丝桃苷的溶解度较差,大鼠肠吸收研究结果表明,不能完全被吸收,因此,首次提出了将金丝桃苷制成固体分散体,以提高其生物利用度。

  23. We studied on analysis of paeoniflorin and total glucosides in Cortex Moutan and separation-purification process of Total Glucosides , and on analysis of hyperoside and total flavonoids in Fructus Crataegi and separation-purification process of total flavonoids .

    本实验研究了牡丹皮中芍药苷和牡丹皮总苷的分析方法、牡丹皮总苷的提取分离工艺,以及确定了山楂中金丝桃苷和总黄酮的分析方法、山楂总黄酮的提取分离工艺。

  24. The interaction between hyperoside and HSA was predicted using the molecular docking method : hyperoside might locate in the subdomain IIA ( Site I ) of HSA , which coincides with the results of displacement experiment of the site markers . 4 .

    利用分子对接技术预测金丝桃苷与HSA的作用区域位于HSA亚结构域IIA,预测结果与位点竞争实验结果吻合。