目的是测定水芹中金丝桃苷的含量。
The aim is to determine the content of hyperoside in Oenanthe javanica.
根据一项研究,贯叶金丝桃素含量与治疗效果相关。
According to one study, hyperforin content correlates with therapeutic effect.
金丝桃素储存于分泌细胞团内。
金丝桃提取物一般由花制成。
表明元宝草也是一种重要的金丝桃素类药源植物。
So, it is also a significant medicinal species containing hypericin .
产品不指定金丝桃素含量有可能完全是浪费金钱。
Products that do not specify the Hypericin content are likely to be a complete waste of money.
结果不同种金丝桃均显示了它们各自的指纹特征。
Results The different plants from Hypericum Linn. showed different HPLC fingerprint spectrum.
本文对金丝桃素新制剂进行了急性和亚急性毒性实验。
Acute and subacute toxicity experiments of the new preparations of hypericin were p.
研究了从中草药元宝草中提取金丝桃蒽酮素的工艺方法。
The method of preparation of hypericin from Chinese herb is studied.
长柱金丝桃含有二蒽酮类衍生物、黄酮类等化学成分。
Main chemical constituents of hypericum ascyron includes bianthrone derivatives and flavonoids.
目的比较不同产地贯叶连翘中金丝桃素和伪金丝桃素的含量。
Objective To compare the contents of hypericin and pseudohypericin in Hypericum performatum L.
介绍了利用乙醇对贯叶连翘中金丝桃素进行提取的工艺研究。
The paper describes the process of extracting hypericin from Hypericum Perforatum l. with alcohol.
目的:为20种药用金丝桃属植物的显微鉴定提供解剖学依据。
Objective: to provide anatomical evidences for the morphological and histological identification of 20 medicinal species in Hypericum.
没有,我看见风吹散了金丝桃的花瓣,可是我没有见过你的小鸟。
No, No. Ive seen the wind blowing on the flower flakes, but Ive never seen your little bird.
目的探讨光活化的金丝桃素对体外培养胶质瘤细胞凋亡的诱导作用。
Objective To determine whether light-induced photoactivation of hypericin can induce apoptosis in malignant glioma in vitro.
结果表明,金丝桃苷峰形良好,与其他组分的色谱峰达到基线分离。
Hyperin content showed a symmetrical peak shape and reached the baseline separation with the peak content of other chemicals.
结论乌腺金丝桃提取物对异丙肾上腺素所致小鼠心肌缺血具有抵抗作用。
Conclusion Hypericum attenuatum Choisy. extract has protective effects on myocardial ischemia induced by isoproterenol in mice.
金丝桃素有抑制中枢神经和镇静作用,用作中枢神经抑制剂和抗抑郁症。
The hypericin can inhibit nerve center and can be used as anti-depression medicine.
结果:郁可欣胶囊内容物薄层色谱、紫外光谱与对照品金丝桃苷基本一致。
RESULTS TLC chromatogram and UV spectrum of Yukexin capsule content were same as the hyperoside standard sample.
方法采用连续稀释法对毛金丝桃醇提取物进行M IC、MLC实验研究。
MethodsThe MIC MLC experiments were carried out by serial dilution test.
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。
Objective: To study the contents of hyperoside in Semen Cuscutae, which grew in different host and different environment.
用MMX和AMI方法对金丝桃蒽酮(HYP)结构变化过程的生成热进行了计算。
MMX and AMI methods were employed to calculate heat of formation of hypericin(HYP) in the process of structure change.
综上所述,金丝桃苷能够有效地保护氧化应激诱导的细胞损伤,并改善线粒体功能。
In conclusion, Hyperoside effectively protected oxidative stress-induced cell injury and improved the mitochondrial function.
目的建立黄蜀葵花中金丝桃苷含量测定方法,为建立黄蜀葵花药材质量标准提供依据。
Objective Applying quantitative method for abelmoschus manihot and providing the proof of quality specification in the abelmoschus manihot.
方法:衰减全反射-傅立叶变换红外光谱法结合聚类分析方法定性鉴别金丝桃属药材。
Methods: Attenuation Reflection-Fourier transformation infrared spectrometry with clustering analysis was used to the identification of Aarons beard.
利用扫描电镜比较观察金丝桃属9组1 7种1变种和三腺金丝桃属2种植物叶表皮的微形态。
The epidemic micro morphology of 9 sections, 17 species 1 variety in Hypericum and 2 species in Triadenum was comparatively observed with the help of scanning electron microscopy.
方法:用整体透明法、石蜡制片法和半薄切片法对20种药用金丝桃属植物不同器官进行形态解剖学研究。
Method: Morphological and anatomical study on the organs of 20 medicinal species in Hypericum using tissue clearing, paraffin sectioning and thin sectioning.
结果表明:金丝桃甙能增加组织SOD活性及NO含量,降低MDA水平,可能是其发挥药理作用的机制之一。
The results showed that hyperin could increase SOD activity and NO amount of the tissues and decrease MDA level, suggested that hyperin may play its pharmacological role through above mechanisms.
目的用生物信息学软件分析贯叶金丝桃查尔酮合成酶基因编码蛋白的多种蛋白质性质,获取该基因的相关因素。
Objective To obtain information of Chalcone synthase gene in Hypericum perforatum, the character of this gene and its product protein were analyzed by a series of bioinformatics software.
目的用生物信息学软件分析贯叶金丝桃查尔酮合成酶基因编码蛋白的多种蛋白质性质,获取该基因的相关因素。
Objective To obtain information of Chalcone synthase gene in Hypericum perforatum, the character of this gene and its product protein were analyzed by a series of bioinformatics software.
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