Ingredients: Salvia Officinalis Saga, Coumarin, Geraniol.
主要成分:凤梨鼠尾草,香豆素,香叶醇。
Saponin is one of the chief ingredients in Cornus officinalis fruits.
山茱萸中的皂甙是山茱萸的主要代表成分。
Objective: To study the effects on extracts of Valeriana Officinalis L.
目的:研究复方缬草川芎提取物对心、脑组织微循环的影响。
Major ingredients: Salvia Officinalis, Lactic Acid, Limonene, Glyeoilic Acid.
主要成分:凤梨鼠尾草,乳酸,柠檬烯,乙醇酸。
The induction of body cell embryo and anther embryoid of Asparagus officinalis l.
本试验对石刁柏体细胞胚及花粉胚状体诱导进行了研究。
Study on the extraction process of logan in from cornus officinalis sieb. et zucc.
山茱萸中马钱素的提取工艺研究。
Objective: To extract and isolate effective chemical constituents from Magnolia officinalis.
目的:提取分离中药厚朴的有效成分。
Studies on factors influencing callus induction in anther culture of asparagus officinalis l.
石刁柏花药培养愈伤组织诱导影响因素的研究。
Ingredients: Biosaccharide Gum, Salvia Officinalis Saga, Calendula Officinalis Flower Extract.
主要成分:活性糖胶,凤梨鼠尾草,金盏花萃取。
The induction of body cell embryo and anther embryoid of Asparagus officinalis L. was studied.
本试验对石刁柏体细胞胚及花粉胚状体诱导进行了研究。
Eucalyptus (Eucalyptus globulus) and sage (Salvia officinalis) : Decongestant and antibacterial.
桉树(蓝桉)和鼠尾草解充血药、抗菌剂。
Aim to study triterpenoid saponins of Sanguisorba officinalis and their anti-inflammatory activity.
目的研究地榆中的三萜皂苷类成分及其抗炎活性。
Objective To compare and identify certified Magnolia Officinalis species and its counterfeit species.
目的对正品厚朴及伪品厚朴进行鉴别比较。
Objective: To find the rule of accumulation and distribution of Alkaloids of Cortex Magnoliae Officinalis.
前言:目的探索厚朴中生物碱的积累与分布规律。
CONCLUSION the best harvesting time and quality evaluation of Cornus officinalis is to be further studied.
结论山茱萸的质量评价及采收时间尚待进一步的研究。
OBJECTIVE To explore the effects of different landing races on the quality control of Morinda officinalis.
目的探讨不同农家类型对巴戟天质量的影响。
The results showed that HPD-300 resin had better adsorption and desorption properties to Cornus officinalis saponins.
结果表明,HPD- 300树脂对山茱萸总皂苷的吸附和解吸性能较好。
Objective: To investigate the scavenging effects of fomes officinalis polysaccharides (FOPS) on oxygen free radicals.
目的:研究阿里红多糖对氧自由基的清除作用。
The spatial pattern and sampling methods of asparagus (asparagus officinalis) stem blight were studied in this paper.
对芦笋茎枯病病株空间分布型及其抽样技术进行研究。
The extraction and separation techniques of oligoprocyanidins(OPC) from the root of wild Sanguisorba officinalis Linn.
对吉林地区野生地榆根低聚原花青素(OPC)进行了提取分离工艺研究。
Objective: To identify Chinese traditional medicine(CTM)"Hou-pu" (Cortex Magnoliae Officinalis), its counterfeits and substitues.
前言: 目的:鉴别中药材厚朴及其伪品、混淆品。
Changes of functional components such as asparagus, rutin, saponins of asparagus officinalis were investigated during storage period.
本文研究了芦笋贮藏过程中天门冬酰胺、芦丁、芦笋皂甙等功能成分的变化规律。
Ingredients: Glycerin, Propylene Glycol, Salvia Officinalis Saga, Calendula Officinalis Flower Extract, Melalenca Alternifolia Leaf Oil.
主要成分:甘油,丙二醇,凤梨鼠尾草,金盏花萃取,茶树油。
Conclusion: the HPLC-FPS can provide the useful information for the quality estimation and plant source of Cortex Magnoliae Officinalis.
结论:建立厚朴hplc - FPS能为厚朴质量与植物来源的评估提供有用的信息。
To determine quickly and accurately the gross saponins is an efficient insurance for the quality of Cornus officinalis natural beverage.
快速、有效、简便地测出总皂甙含量是保证山茱萸汁保健饮品质量的有效方法。
Conclusion the method can be applied to the analysis of the monosaccharides composition of the polysaccharides from Asparagus officinalis.
结论本方法准确、简便、快速,可用于芦笋多糖的单糖组分分析。
A woody Eurasian plant (Hyssopus officinalis) having spikes of small blue flowers and aromatic leaves used in perfumery and as a condiment.
海索草一种象树木的亚欧植物(神香草神香草属),有一穗穗的小的蓝色的花,芳香的叶子用于制香水和用作调味品。
AEC could inhibit the growth of asparagus (asparagus officinalis L.), this inhibition could be partially relieved by lysine or by methionine.
氨乙基-L -半胱氨酸AEC可抑制芦笋愈伤组织的生长,此抑制作用可被赖氨酸或甲硫氨酸部分解除。
The structures of efficacious components of S. officinalis root by ultrasonic extraction do not change judging from the analysis by UV and FTIR.
通过UV和FTIR光谱分析,超声波浸提没有使地榆根中有效成分的结构发生改变。
The structures of efficacious components of S. officinalis root by ultrasonic extraction do not change judging from the analysis by UV and FTIR.
通过UV和FTIR光谱分析,超声波浸提没有使地榆根中有效成分的结构发生改变。
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