Rinu Kooliyottil, Floyd Inman, Sivanadane Mandjiny, Len Holmes
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引用次数: 0
摘要
Xenorhabdus nematophila 是一种与昆虫寄生线虫 Steinernema carpocapsae 共生的昆虫病原菌,本研究旨在确定其利用葡萄糖的生理参数。利用两升发酵系统,在最佳条件下,在含有不同浓度葡萄糖的化学定义培养基中培养 X. 线虫。从每批葡萄糖中获得特定生长率。特定生长率及其相关葡萄糖浓度用于确定生理参数。这些参数包括细菌的底物利用常数(K s)和最大特定生长率(μ max)。该细菌的 K s 值为 2.02 mg/L,表明 X. nematophila 对葡萄糖有很高的亲和力。经测定,Xenorhabdus 的 μ max 为 1.03 h(-1)。要确定微生物对不同底物的亲和力是否会影响原核生物与高等生物之间的生物关系(共生、致病、寄生等),还需要进一步的研究。
Physiological Constants of the Entomopathogenic Bacterium Xenorhabdus nematophila Determined by Microbial Growth Kinetics.
Xenorhabdus nematophila, an entomopathogenic bacterium that symbiotically associates with the entomoparasitic nematode Steinernema carpocapsae, was studied to determine its physiological parameters of glucose utilization. X. nematophila was cultured in chemically defined media containing various concentrations of glucose under optimal conditions utilizing a two-liter fermentation system. Specific growth rates were obtained from each glucose batch. Specific growth rates and their associated glucose concentrations were used to determine physiological parameters. These parameters include the bacterium's substrate utilization constant (K s ) and its maximum specific growth rate (μ max). The bacteria exhibited a K s value of 2.02 mg/L suggesting that X. nematophila has a high affinity for glucose. The μ max of Xenorhabdus was determined to be 1.03 h(-1). Further research is needed to determine if microbial affinities to different substrates have any influence on biological relationships (symbiosis, pathogenicity, parasitism, etc.) between prokaryotes and higher organisms.
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