1.
Gene Replacement of dnmV in Daunorubicin Producer SIPI-DM
柔红霉素产生菌SIPI-DM中dnmV的基因置换
2.
Genome Shuffling of Daunomycin- Producing Streptomyces Coeruleorubidus SIPI 1482 M1;
抗肿瘤抗生素柔红霉素产生菌的基因组改组研究
3.
Study on Disruption and Replacement of dnmV Gene in Daunorubicin Biosynthesis;
柔红霉素产生菌dnmV基因阻断突变和功能替换研究
4.
This research is aimed to improve DNR productivity by genome shuffling.
本工作研究了应用基因组改组技术提高柔红霉素产生菌的发酵水平,研究结果如下:
5.
Studies of temperature shift fermentation for erythromycin production by Saccharopolyspora erythraea HA
红色糖多孢菌变温发酵生产红霉素的研究
6.
Construction of an Epidaunorubicin Engineering Producer and Its Protoplast Mutagenesis by UV Irradiation
表柔红霉素工程菌的构建及其原生质体紫外诱变
7.
Breeding of Erythromycin High-yielding Saccharopolyspora Erythraea Strain
糖多孢红霉菌红霉素高产菌种的诱变选育
8.
Influence of dauW Gene on Daunorubicin Production
dauW基因对柔红霉素产量的影响
9.
Study on Fermentation Kinetics of Lycopene Producing by Blakeslea Trispora
三孢布拉霉菌发酵生产番茄红素动力学的研究
10.
Study on the dnrV and dnrX Gene in Daunorubicin Biosynthesis;
柔红霉素生物合成基因dnrV、dnrX的研究
11.
daunoblastina HC1 vial
注射用盐酸柔红霉素
12.
Effects of Nitrogen Sources on Monascus Pigment Production by Mounoculus HNLI
氮源对红曲霉菌株HNLI产色素的影响
13.
"They are produced by many actinomycetes (e.g., streptomycin, tetracycline) and other Bacteria (e.g., polypeptides such as Bacitracin) and by fungi (e.g., penicillin)."
这些抗生素是从放线菌(如链霉素、四环素)、真菌(如青霉素)和细菌产生。
14.
Relationship between colonial morphology of blakeslea trispora and lycopene fermentation production capacity
三孢布拉霉的菌落形态与番茄红素发酵生产能力的关系
15.
Construction of a Saccharopolyspora erythraea mutant producing erythromycin B as its major fermentation product
产红霉素B红色糖多孢菌突变体的构建(英文)
16.
Objective Screening Streptomyces erthreus antiphage strain.
目的筛选红霉素链霉菌抗噬菌体菌株。
17.
Selective Breeding of Rifamycin Producer Nocardia Mediterranei 906-43;
利福霉素产生菌906—43菌株的选育
18.
The Disruption of eryF Gene in Saccharopolyspora Erythraea and the Influence of Biosynthetic of Erythromycin;
糖多孢红霉菌eryF基因的阻断及对红霉素生物合成的影响