目的探讨细胞壁缺陷对枯草芽胞杆菌形成芽胞的能力以及芽胞物质合成代谢的影响及其机制。
Objective To probe the effecting on the sporulation and biosynthesis of spore of Bacillus subtilis by cell wall deficient.
结论:参麦注射液和胞二磷胆碱均可改善大鼠hibd后的学习和记忆能力,前者优于后者。
Conclusion Both the CDPC and Shenmai injection can improve the learning and remembering ability of rat with HIBD, the later is better than the former.
通过其利用麦芽糖和淀粉作为唯一碳和能量来源的能力区别于其他假单胞菌种。
It is distinguishable from other pseudomonad species by its ability to use MALTOSE and STARCH as sole carbon and energy sources.
元胞自动机(CA)具有强大的空间模拟能力,能够模拟和预测复杂的地理现象演变过程。
Cellular Automata (ca) has strong spatial modeling capabilities, which can simulate the evolution of complex geographical phenomena.
本文将细观力学中的单胞(GMC)模型运用到塑性力学的静力极限分析中,研究韧性复合材料的塑性极限承载能力。
By introducing the generalized method of cells (GMC) into plastic limit analysis, the bearing capacity of ductile composites is studied.
研究10株降解菌对混合酚类的降解发现,假单胞菌xq23具有最好的降解能力。
In the 10 strains on the degradation of mixed phenols, we found that Pseudomonas sp. XQ23 has the best performances.
方法在硝吡咯假单胞菌中引入氨基糖苷类抗生素抗性突变,以提高硝吡咯菌素的生产能力。
Method Introducing aminoglycoside antibiotic resistant mutation into a pyrrolnitrin producer to increase pyrrolnitrin productivity.
荧光假单胞杆菌2P2 4菌株分离自小麦全蚀病自然衰退土壤,可产生多种次生抗菌物质,对一些作物土传病害具有较好的防治能力。
Pseudomonasfluorescens 2P24, a biocontrol agent for soil_borne diseases has been isolated from the wheat take_all decline soil, and was characterized with efficient production of antifungal compounds.
荧光假单胞杆菌2P2 4菌株分离自小麦全蚀病自然衰退土壤,可产生多种次生抗菌物质,对一些作物土传病害具有较好的防治能力。
Pseudomonasfluorescens 2P24, a biocontrol agent for soil_borne diseases has been isolated from the wheat take_all decline soil, and was characterized with efficient production of antifungal compounds.
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