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水稻植株中甲氧基和羟基多氯联苯的互变:一个重要但被忽视的代谢途径。

Interconversion between Methoxylated and Hydroxylated Polychlorinated Biphenyls in Rice Plants: An Important but Overlooked Metabolic Pathway.

机构信息

Department of Environmental Science, Zhejiang University , Hangzhou, Zhejiang 310058, China.

Zhejiang Provincial Key Laboratory of Organic Pollution Process and Control , Hangzhou, Zhejiang 310058, China.

出版信息

Environ Sci Technol. 2016 Apr 5;50(7):3668-75. doi: 10.1021/acs.est.6b00266. Epub 2016 Mar 15.

DOI:10.1021/acs.est.6b00266
PMID:26928534
Abstract

To date, there is limited knowledge on the methoxylation of polychlorinated biphenyls (PCBs) and the relationship between hydroxylated polychlorinated biphenyls (OH-PCBs) and methoxylated polychlorinated biphenyls (MeO-PCBs) in organisms. In this study, rice (Oryza sativa L.) was chosen as the model organism to determine the metabolism of PCBs in plants. Limited para-substituted 4'-OH-CB-61 (major metabolite) and 4'-MeO-CB-61 (minor metabolite) were found after a 5-day exposure to CB-61, while ortho- and meta-substituted products were not detected. Interconversion between OH-PCBs and MeO-PCBs in organisms was observed for the first time. The demethylation ratio of 4'-MeO-CB-61 was 18 times higher than the methylation ratio of 4'-OH-CB-61, indicating that formation of OH-PCBs was easier than formation of MeO-PCBs. The transformation products were generated in the roots after 24 h of exposure. The results of in vivo and in vitro exposure studies show that the rice itself played a key role in the whole transformation processes, while endophytes were jointly responsible for hydroxylation of PCBs and demethylation of MeO-PCBs. Metabolic pathways of PCBs, OH-PCBs, and MeO-PCBs in intact rice plants are proposed. The findings are important in understanding the fate of PCBs and the source of OH-PCBs in the environment.

摘要

迄今为止,人们对多氯联苯(PCBs)的甲氧基化以及生物体中羟基化多氯联苯(OH-PCBs)和甲氧基化多氯联苯(MeO-PCBs)之间的关系知之甚少。在本研究中,选择水稻(Oryza sativa L.)作为模型生物,以确定植物中 PCB 的代谢情况。在暴露于 CB-61 5 天后,仅发现有限数量的对取代 4'-OH-CB-61(主要代谢物)和 4'-MeO-CB-61(次要代谢物),而未检测到邻位和间位取代产物。首次观察到生物体中 OH-PCBs 和 MeO-PCBs 之间的互变。4'-MeO-CB-61 的脱甲基比 4'-OH-CB-61 的甲基化比高 18 倍,表明 OH-PCBs 的形成比 MeO-PCBs 的形成更容易。转化产物在暴露 24 小时后在根部生成。体内和体外暴露研究的结果表明,水稻本身在整个转化过程中起着关键作用,而内生菌共同负责 PCB 的羟化和 MeO-PCBs 的脱甲基。提出了完整水稻植株中 PCB、OH-PCBs 和 MeO-PCBs 的代谢途径。这些发现对于理解 PCBs 的命运和环境中 OH-PCBs 的来源非常重要。

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