在一种矿物质培养基中,通过一种非2,4-二氯苯酚(DCP)降解微生物去除未鉴定有机化合物后,对低底物(2,4-二氯苯酚[DCP])浓度下假单胞菌属DP-4菌株的产率系数进行估算。
Estimation of the yield coefficient of Pseudomonas sp. strain DP-4 with a low substrate (2,4-dichlorophenol [DCP]) concentration in a mineral medium from which uncharacterized organic compounds were eliminated by a non-DCP-degrading organism.
作者信息
Tarao M, Seto M
机构信息
Laboratory of Environmental Microbiology, Department of Environmental and Natural Resource Science, Tokyo University of Agriculture and Technology, Fuchu, Tokyo 183-8509, Japan.
出版信息
Appl Environ Microbiol. 2000 Feb;66(2):566-70. doi: 10.1128/AEM.66.2.566-570.2000.
The yield coefficient (YC) of Pseudomonas sp. strain DP-4, a 2, 4-dichlorophenol (DCP)-degrading organism, was estimated from the number of CFU produced at the expense of 1 unit amount of DCP at low concentrations. At a low concentration of DCP, the YC can be overestimated in pure culture, because DP-4 assimilated not only DCP but also uncharacterized organic compounds contaminating a mineral salt medium. The concentration of these uncharacterized organic compounds was nutritionally equivalent to 0.7 microg of DCP-C ml(-1). A mixed culture with non-DCP-degrading organisms resulted in elimination of ca. 99.9% of the uncharacterized organic compounds, and then DP-4 assimilated only DCP as a substrate. In a mixed culture, DP-4 degraded an initial concentration of 0.1 to 10 microg of C ml of DCP(-1) and the number of CFU of DP-4 increased. In the mixed culture, DCP at an initial concentration of 0.07 microg of C ml(-1) was degraded. However, the number of CFU of DP-4 did not increase. DCP at an extremely low initial concentration of 0.01 microg of C ml(-1) was not degraded in mixed culture even by a high density, 10(5) CFU ml(-1), of DP-4. When glucose was added to this mixed culture to a final concentration of 1 microg of C ml(-1), the initial concentration of 0.01 microg of C ml of DCP(-1) was degraded. These results suggested that DP-4 required cosubstrates to degrade DCP at an extremely low initial concentration of 0.01 microg of C ml(-1). The YCs of DP-4 at the expense of DCP alone decreased discontinuously with the decrease of the initial concentration of DCP, i.e., 1.5, 0.19, or 0 CFU per pg of DCP-C when 0.7 to 10, 0.1 to 0.5, or 0.07 microg of C ml of DCP(-1) was degraded, respectively. In this study, we developed a new method to eliminate uncharacterized organic compounds, and we estimated the YC of DP-4 at the expense of DCP as a sole source of carbon.
从以低浓度1单位量2,4 - 二氯苯酚(DCP)为代价产生的菌落形成单位(CFU)数量,估算了降解DCP的假单胞菌属DP - 4菌株的产率系数(YC)。在低浓度DCP条件下,纯培养中YC可能被高估,因为DP - 4不仅同化DCP,还同化了污染矿物盐培养基的未鉴定有机化合物。这些未鉴定有机化合物的浓度在营养上相当于0.7微克DCP - C毫升⁻¹。与非DCP降解菌的混合培养导致约99.9%的未鉴定有机化合物被去除,然后DP - 4仅将DCP作为底物进行同化。在混合培养中,DP - 4降解了初始浓度为0.1至10微克C毫升⁻¹的DCP,且DP - 4的CFU数量增加。在混合培养中,初始浓度为0.07微克C毫升⁻¹的DCP被降解。然而,DP - 4的CFU数量没有增加。即使在高密度(10⁵ CFU毫升⁻¹)的DP - 4存在下,初始浓度极低(0.01微克C毫升⁻¹)的DCP在混合培养中也未被降解。当向该混合培养物中添加葡萄糖至终浓度为1微克C毫升⁻¹时,初始浓度为0.01微克C毫升⁻¹的DCP被降解。这些结果表明,DP - 4在初始浓度极低(0.01微克C毫升⁻¹)时降解DCP需要共底物。仅以DCP为代价时,DP - 4的YC随着DCP初始浓度的降低而不连续下降,即当降解0.7至10、0.1至0.5或0.07微克C毫升⁻¹的DCP时,分别为每皮克DCP - C产生1.5、0.19或0 CFU。在本研究中,我们开发了一种消除未鉴定有机化合物的新方法,并估算了仅以DCP作为唯一碳源时DP - 4的YC。
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