目的研究抗真菌药物布替萘芬的体外抗真菌活性和对真菌麦角甾醇生物合成的影响。
Objective To study in vitro antifungal activity of butenafine and its effect on ergosterol biosynthesis in fungi.
综述了产紫杉醇的药用植物和其他药用植物内生真菌的研究进展。
The endophytic fungi of producing taxol and other medicinal plants were integrated in this article.
结论GCMS分析获满意的效果,可对抗真菌药物阻断真菌麦角甾醇合成通路所引起各甾醇组分的含量变化进行研究。
CONCLUSION the satisfactory results are obtained by GC MS analysis and it can be used to study the inhibition of antifungal agents on sterol biosynthesis with the shift in sterol composition.
胆甾醇、麦角甾醇和豆甾醇及其衍生物是真菌中的主要甾体化合物,具有重要的生理功能和生物学活性。
Cholesterol, ergosterol and stigmasterol and their derivatives are the major steroids in fungi with important physiological functions in fungi as well as biological activities on other organisms.
研究了在一株产紫杉醇真菌的发酵培养中,初始糖浓度、碳源、氮源和前体饲喂对生物量和紫杉醇合成的影响。
Effects of sugar content, carbon source, nitrogen source and precursor feeding on taxol production of endophytic fungus in liquid fermentation were studied .
产紫杉醇的内生真菌菌丝体生长和紫杉醇积累之间存在相反的关系。
There is a contrary relationship between the growth of fungal hyphae and the accumulation of taxol in the mycelium.
本发明提供一种新的产紫杉醇的内生真菌,增加可用于紫杉醇微生物发酵的菌株数量。
The invention provides a new taxol-producing endophytic fungus and increases the number of strains that can be used in microbial fermentation of taxol.
本发明不仅增加了一种产紫杉醇的内生真菌,而且为将来产紫杉醇微生物的基因改造,奠定了物质基础。
The invention not only provides an additional taxol-producing endophytic fungus, but also establishes physical foundation for the genetic modification of taxol-producing microorganisms in future.
目的:研究透皮促进剂氮酮和薄荷醇对外用抗真菌药联苯苄唑体外经皮渗透性影响。
AIM: To investigate the effects of penetration enhancer 1-menthol and azone on percutaneous absorption of bifonazole in vitro.
目的:研究透皮促进剂氮酮和薄荷醇对外用抗真菌药联苯苄唑体外经皮渗透性影响。
AIM: To investigate the effects of penetration enhancer 1-menthol and azone on percutaneous absorption of bifonazole in vitro.
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