The strain of Pseudomonas SIPI-215 has been screened out from371 strains with a rapid plate method, and its cultural conditions were iuvestiga-ted.
通过平板初筛和摇瓶复筛,从371株菌中筛得一株有工业生产价值的胆固醇酯酶产生菌,并对它进行了发酵条件的研究。
CONLUSION: Compound SIPI 1 3 and 4 were first reported with new structures, Their lowering cholesterol biosynthesis activities were first found so far.
结论:化合物sipi -1 -3和4为首次报道的新结构化合物,抑制胆固醇生物合成活性也为新发现。
It showed that 19 strains had anti-MRSA activity. Then we selected a broad spectrum antimicrobial activity of endophytic fungi SIPI 3.0070 to identify strains.
而后我们选取了1株具有广谱抗菌活性的内生真菌SIPI 3.0070进行菌种鉴定,该菌拮抗革兰氏阳性菌(包括MRSA)和真菌。
The study on biological activity found that compound SIPI 763 1 showed anti fungal activity and new activity against a methicillin resistant Staphylococus aureus.
生物学活性研究发现,化合物sipi - 763- 1不仅具有抗真菌活性,还具有抗耐药菌的新活性。
In this paper, we validated that Micromonospora purpurea SIPI-A-2020 can produce Gentamicin by strain cultivation, fermentation and extracted Gentamicin from the fermentation broth.
本文通过对绛红色小单孢菌SIPI-A-2020的培养、发酵和初步提取鉴定,验证了绛红色小单孢菌SIPI-A-2020为庆大霉素产生菌。
Bio-transforming the canrenone with the enzyme system of Aspergillus ochraceus SIPI-4411; By solvent extraction and silica gel column chromatography, the compound SIPI-CANR was obtained.
应用赭曲霉SIPI-4411的羟化酶系统对化合物坎利酮进行生物转化,通过溶剂萃取、硅胶柱层析,获得转化产物SIPI-CANR化合物的纯品。
Bio-transforming the canrenone with the enzyme system of Aspergillus ochraceus SIPI-4411; By solvent extraction and silica gel column chromatography, the compound SIPI-CANR was obtained.
应用赭曲霉SIPI-4411的羟化酶系统对化合物坎利酮进行生物转化,通过溶剂萃取、硅胶柱层析,获得转化产物SIPI-CANR化合物的纯品。
应用推荐