在低氧条件下，产氧光异养型沼泽红假单胞菌DCP3与好氧产碱菌的纯培养物和混合培养物中3-氯苯甲酸的降解情况。

Degradation of 3-chlorobenzoate under low-oxygen conditions in pure and mixed cultures of the anoxygenic photoheterotroph Rhodopseudomonas palustris DCP3 and an aerobic Alcaligenes species.

作者信息

Krooneman J, van den Akker S, Pedro Gomes T M, Forney L J, Gottschal J C

机构信息

Department of Microbiology, University of Groningen, 9750 AA Haren, The Netherlands.

出版信息

Appl Environ Microbiol. 1999 Jan;65(1):131-7. doi: 10.1128/AEM.65.1.131-137.1999.

DOI:10.1128/AEM.65.1.131-137.1999

PMID:9872770

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC90993/

Abstract

The presence or absence of molecular oxygen has been shown to play a crucial role in the degradability of haloaromatic compounds. In the present study, it was shown that anaerobic phototrophic 3-chlorobenzoate (3CBA) metabolism by Rhodopseudomonas palustris DCP3 is oxygen tolerant up to a concentration of 3 microM O2. Simultaneous oxidation of an additional carbon source permitted light-dependent anaerobic 3CBA degradation at oxygen input levels which, in the absence of such an additional compound, would result in inhibition of light-dependent dehalogenation. Experiments under the same experimental conditions with strain DCP3 in coculture with an aerobic 3CBA-utilizing heterotroph, Alcaligenes sp. strain L6, revealed that light-dependent dehalogenation of 3CBA did not occur. Under both oxygen limitation (O2 < 0.1 microM) and low oxygen concentrations (3 microM O2), all the 3CBA was metabolized by the aerobic heterotroph. These data suggest that biodegradation of (halo)aromatics by photoheterotrophic bacteria such as R. palustris DCP3 may be restricted to anoxic photic environments.

摘要

分子氧的存在与否已被证明在卤代芳烃化合物的可降解性方面起着关键作用。在本研究中，已表明沼泽红假单胞菌DCP3对3 - 氯苯甲酸（3CBA）的厌氧光养代谢在高达3微摩尔O₂的浓度下仍能耐受氧气。在有额外碳源同时氧化的情况下，在氧气输入水平下可实现光依赖的厌氧3CBA降解，而在没有这种额外化合物时，该氧气输入水平会导致光依赖脱卤作用受到抑制。在相同实验条件下，用菌株DCP3与利用3CBA的好氧异养菌产碱杆菌属菌株L6进行共培养实验，结果表明未发生3CBA的光依赖脱卤作用。在氧气限制（O₂ < 0.1微摩尔）和低氧浓度（3微摩尔O₂）条件下，所有的3CBA均由好氧异养菌代谢。这些数据表明，像沼泽红假单胞菌DCP3这样的光合异养细菌对（卤代）芳烃的生物降解可能仅限于缺氧的光照环境。

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