糖多孢红霉菌的原生质体转化和染色体同源整合,是红霉素生物合成基因改造的重要途径。
Protoplast transformation and homologous chromosomal integration of s erythraea was an important path in changing gene involved in erythromycin biosynthesis.
本研究评价了米卡芬净、两性霉素B和伏立康唑单独用药,二联用药和三联用药治疗播散性多育赛多孢感染鼠类模型的疗效。
We have evaluated the efficacies of micafungin, amphotericin B, and voriconazole, alone and in double and triple combinations, in a murine model of systemic infection by Scedosporium prolificans.
红色糖多孢菌的摇瓶培养基中使用不同有机氮源时红霉素的效价明显不同。
The production of erythromycin in the shake flask was significantly influenced by adding different kinds of organic nitrogen source (e. g. amino acids).
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