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本文引用的文献

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Supplemental substrate enhancement of 2,4-dinitrophenol mineralization by a bacterial consortium.细菌协同作用对 2,4-二硝基苯酚矿化的补充基质增强作用。
Appl Environ Microbiol. 1990 Jun;56(6):1551-8. doi: 10.1128/aem.56.6.1551-1558.1990.
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THE INTERACTION OF UNCOUPLING PHENOLS WITH MITOCHONDRIA AND WITH MITOCHONDRIAL PROTEIN.解偶联酚与线粒体及线粒体蛋白的相互作用
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Isolation and characterization of a pentachlorophenol-degrading bacterium.一株五氯苯酚降解菌的分离与鉴定
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Secondary substrate utilization of methylene chloride by an isolated strain of Pseudomonas sp.一株假单胞菌属分离菌株对二氯甲烷的二次底物利用
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Metabolism of Halophenols by 2,4,5-trichlorophenoxyacetic acid-degrading Pseudomonas cepacia.2,4,5-三氯苯氧乙酸降解菌洋葱伯克霍尔德氏菌对卤代酚的代谢作用
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Nile blue A as a fluorescent stain for poly-beta-hydroxybutyrate.尼罗蓝A作为聚β-羟基丁酸酯的荧光染色剂。
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Isolation and characterization of Flavobacterium strains that degrade pentachlorophenol.降解五氯苯酚的黄杆菌菌株的分离与鉴定
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一种能使高浓度五氯苯酚矿化的新型假单胞菌的特性研究。

Characterization of a novel Pseudomonas sp. that mineralizes high concentrations of pentachlorophenol.

作者信息

Radehaus P M, Schmidt S K

机构信息

Department of Environmental, Population and Organismic Biology, University of Colorado, Boulder 80309-0334.

出版信息

Appl Environ Microbiol. 1992 Sep;58(9):2879-85. doi: 10.1128/aem.58.9.2879-2885.1992.

DOI:10.1128/aem.58.9.2879-2885.1992
PMID:1444401
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC183022/
Abstract

A pentachlorophenol (PCP)-mineralizing bacterium was isolated from polluted soil and identified as Pseudomonas sp. strain RA2. In batch cultures, Pseudomonas sp. strain RA2 used PCP as its sole source of carbon and energy and was capable of completely degrading this compound as indicated by radiotracer studies, stoichiometric release of chloride, and biomass formation. Pseudomonas sp. strain RA2 was able to mineralize a higher concentration of PCP (160 mg liter-1) than any previously reported PCP-degrading pseudomonad. At a PCP concentration of 200 mg liter-1, cell growth was completely inhibited and PCP was not degraded, although an active population of Pseudomonas sp. RA2 was still present in these cultures after 2 weeks. The inhibitory effect of PCP was partially attributable to its effect on the growth rate of Pseudomonas sp. strain RA2. The highest specific growth rate (mu = 0.09 h-1) was reached at a PCP concentration of 40 mg liter-1 but decreased at higher or lower PCP concentrations, with the lowest mu (0.05 h-1) occurring at 150 mg liter-1. Despite this reduction in growth rate, total biomass production was proportional to PCP concentration at all PCP concentrations degraded by Pseudomonas sp. RA2. In contrast, final cell density was reduced to below expected values at PCP concentrations greater than 100 mg liter-1. These results indicate that, in addition to its effect as an uncoupler of oxidative phosphorylation, PCP may also inhibit cell division in Pseudomonas sp. strain RA2.(ABSTRACT TRUNCATED AT 250 WORDS)

摘要

从污染土壤中分离出一株能使五氯苯酚(PCP)矿化的细菌,鉴定为假单胞菌属菌株RA2。在分批培养中,假单胞菌属菌株RA2利用PCP作为唯一碳源和能源,放射性示踪研究、氯的化学计量释放和生物量形成表明该菌株能够完全降解这种化合物。假单胞菌属菌株RA2能够矿化比以往报道的任何PCP降解假单胞菌更高浓度的PCP(160毫克/升)。在PCP浓度为200毫克/升时,细胞生长完全受到抑制,PCP未被降解,尽管在2周后这些培养物中仍存在活跃的假单胞菌属RA2菌群。PCP的抑制作用部分归因于其对假单胞菌属菌株RA2生长速率的影响。在PCP浓度为40毫克/升时达到最高比生长速率(μ = 0.09 h-1),但在更高或更低的PCP浓度下降低,最低μ(0.05 h-1)出现在150毫克/升时。尽管生长速率有所降低,但在假单胞菌属RA2降解的所有PCP浓度下,总生物量产量与PCP浓度成正比。相比之下,在PCP浓度大于100毫克/升时,最终细胞密度降至预期值以下。这些结果表明,除了作为氧化磷酸化解偶联剂的作用外,PCP还可能抑制假单胞菌属菌株RA2中的细胞分裂。(摘要截断于250字)