肠杆菌属 LY402 降解多氯联苯过程中的同系物选择性。

Congener selectivity during polychlorinated biphenyls degradation by Enterobacter sp. LY402.

机构信息

College of Lifescience and Technology, Dalian University of Technology, Dalian, China.

出版信息

Curr Microbiol. 2011 Mar;62(3):784-9. doi: 10.1007/s00284-010-9792-1. Epub 2010 Oct 24.

PMID:20972789

Abstract

The relationship between the selectivity of a particular polychlorinated biphenyls (PCBs) congener and its biodegradability under the same concentration, especially by Enterobacter sp. LY402, is less well studied. To measure congener selectivity of Enterobacter sp. LY402, several influencing factors were studied. The results showed LY402 effectively degraded coplanar 3,4,3',4'-chlorobiphenyl (CB) at a concentration of 0.05 μM, but not 0.5 μM. The degradation rates of 2,4,5,2',3'-CB and 2,4,5,2',4',5'-CB were increased significantly when the sample constituents were changed from 12 to 5 congeners or to one congener. This indicated that bioremediation of individual congener was affected by other congeners present in the mixture. Moreover, for PCBs containing one chlorine on each phenyl ring, the reactivity preference of LY402 was 2,2'-CB ≥ 3,3'-CB ≫ 4,4'-CB. For two ortho chlorines congeners of PCBs, 2,2'-CB was degraded faster than 2,6-CB. Although 2,6-CB and 4,4'-CB were poorly degraded, the addition of one (i.e., 2,4,4'-CB and 2,6,3'-CB) or two more chlorines (i.e., 2,4,2',4'-CB) on the phenyl ring significantly increased their biodegradability. In addition, comparing the two congeners of ortho-meta-chlorinated biphenyl, 2,3,2',3'-CB with neighbor meta chlorines was degraded slower than 2,5,2',5'-CB with interval meta chlorines. All these indicated that the transformation rates of PCBs were not consistent with the number of chlorines, and PCBs containing the same numbers of chlorines but at different positions also resulted in different conversions. In principle, the extents of effect caused by the position of chlorine substituents on the degradation of PCBs by LY402 were ortho- > meta- > para-CB. In conclusion, the congener selectivity of LY402 was determined by many factors, including the composition of the congeners, their concentrations in the mixture and location and number of chlorine substituents on the phenyl rings.

摘要

特定多氯联苯（PCBs）同系物的选择性与其在相同浓度下的生物降解性之间的关系，特别是由肠杆菌属 LY402 进行的生物降解性，研究得还不够充分。为了测量肠杆菌属 LY402 的同系物选择性，研究了几个影响因素。结果表明，LY402 可以有效降解浓度为 0.05 μM 的共平面 3,4,3',4'-氯联苯（CB），但不能降解浓度为 0.5 μM 的 CB。当样品成分从 12 种同系物变为 5 种同系物或 1 种同系物时，2,4,5,2',3'-CB 和 2,4,5,2',4',5'-CB 的降解率显著增加。这表明混合物中存在的其他同系物会影响个别同系物的生物修复。此外，对于每个苯环上含有一个氯原子的 PCBs，LY402 的反应性偏好为 2,2'-CB≥3,3'-CB＞4,4'-CB。对于 PCB 的两个邻位氯同系物，2,2'-CB 的降解速度快于 2,6-CB。尽管 2,6-CB 和 4,4'-CB 的降解较差，但在苯环上增加一个（即 2,4,4'-CB 和 2,6,3'-CB）或两个以上的氯原子（即 2,4,2',4'-CB）显著提高了它们的生物降解性。此外，比较邻位间位氯联苯的两个同系物，邻位间位氯联苯 2,3,2',3'-CB 的降解速度慢于间隔间位氯联苯 2,5,2',5'-CB。所有这些表明，PCBs 的转化速率与氯原子的数量不一致，并且含有相同数量氯原子但位置不同的 PCBs 也会导致不同的转化。原则上，LY402 降解 PCBs 时，氯取代基位置对其影响程度为邻位＞间位＞对位 CB。总之，LY402 的同系物选择性受多种因素的影响，包括同系物的组成、混合物中的浓度以及苯环上氯取代基的位置和数量。

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肠杆菌属 LY402 降解多氯联苯过程中的同系物选择性。

Congener selectivity during polychlorinated biphenyls degradation by Enterobacter sp. LY402.

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