一株假单胞菌属分离菌株对二氯甲烷的二次底物利用
Secondary substrate utilization of methylene chloride by an isolated strain of Pseudomonas sp.
作者信息
LaPat-Polasko L T, McCarty P L, Zehnder A J
出版信息
Appl Environ Microbiol. 1984 Apr;47(4):825-30. doi: 10.1128/aem.47.4.825-830.1984.
Abstract
Secondary substrate utilization of methylene chloride was analyzed by using Pseudomonas sp. strain LP. Both batch and continuously fed reactors demonstrated that this strain was capable of simultaneously consuming two substrates at different concentrations: the primary substrate at the higher concentration (milligrams per liter) and the secondary substrate at the lower concentration (micrograms per liter). The rate of methylene chloride utilization at trace concentrations was greater in the presence of the primary substrate, acetate, than without it. However, when the substrate roles were changed, the acetate secondary substrate utilization rate was less when methylene chloride was present. Thus, substrate interactions are important in the kinetics of secondary substrate utilization. Pseudomonas sp. strain LP showed a preference toward degrading methylene chloride over acetate, whether it was the primary or secondary substrate, providing it was below an inhibitory concentration of ca. 10 mg/liter.
摘要
利用假单胞菌属菌株LP分析了二氯甲烷的次生底物利用情况。间歇式和连续进料反应器均表明,该菌株能够同时消耗不同浓度的两种底物:较高浓度(毫克/升)的主要底物和较低浓度(微克/升)的次生底物。在存在主要底物乙酸盐的情况下,痕量浓度下二氯甲烷的利用速率比不存在时更高。然而,当底物角色互换时,存在二氯甲烷时乙酸盐次生底物的利用率较低。因此,底物相互作用在次生底物利用动力学中很重要。假单胞菌属菌株LP表现出更倾向于降解二氯甲烷而非乙酸盐,无论其是主要底物还是次生底物,只要其浓度低于约10毫克/升的抑制浓度。
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