生物积累过程中物种特异性的脱氯和异构体分离:现象和潜在机制

Ke-Lan Guan, Hong-Ying Liu, Xiaojun Luo
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引用次数: 0

摘要

二氯丙烷(DP)是一种氯化阻燃剂添加剂,自2006年被发现以来,人们一直在深入研究它的存在和行为。DP的商业产品是两种立体异构体的混合物:syndp和anti-DP。通过野外监测和室内实验报道了DP异构体在生物群中的立体选择性生物积累。本文综述了DP在生物群样品中的立体选择性生物积累,并提出了这种立体选择性生物积累的潜在机制。synp - dp的立体选择性富集在鱼类中广泛存在,而anti-DP的选择性富集主要存在于一些鸟类中。DP的立体选择性富集可能反映了变温动物和恒温动物在生物积累过程中DP异构体的两种不同类型的分离。在所有动物中,Anti-DP更容易通过生物转化代谢。然而,根据现有数据,观察到鱼类优先排出anti-DP,鸟类优先排出syn-DP。这两个过程决定了DP异构体在生物积累中的分离。大多数研究都是通过直接比较生物样品和商业产品之间的DP组成来确定立体选择性DP富集的发生,这可能导致低估了DP在生物体内潜在的立体选择性富集。影响生物体内DP异构体组成的因素包括使用的组织或器官、DP浓度、生物所占的营养水平和性别。考虑这些影响因素的影响,得到了不一致的结果。根据目前的数据,这些不一致结果的根本原因尚不清楚。DP的生物转化及与生物大分子的相互作用有待进一步研究。
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Species-specific dechlorane plus isomer fractionation during bioaccumulation: phenomenon and potential mechanisms
The occurrence and behavior of dechlorane plus (DP), an additive chlorinated flame retardant, have been intensively studied since it was identified in 2006. The commercial products of DP are a mixture of two stereoisomers: syn-DP and anti-DP. Stereoselective bioaccumulation of DP isomers in biota was reported in field monitoring and laboratory experiments. This review summarizes stereoselective bioaccumulation of DP in biota samples and provides the potential mechanisms for this stereoselective bioaccumulation. Stereoselective enrichment of syn-DP was widely observed in fish, whereas selective enrichment of anti-DP was mainly found in some birds. This species-specific stereoselective enrichment of DP might reflect that two different types of DP isomer fractionation occurred in bioaccumulation between ectotherms and endotherms. Anti-DP is more readily metabolized through biotransformation in all animals. However, a preferential excretion of anti-DP in fish and syn-DP in birds was observed based on the available data. Both processes determine the DP isomer fractionation in bioaccumulation. A direct comparison in DP composition between biological samples and commercial products was conducted for most studies to determine the occurrence of stereoselective DP enrichment, which may lead to underestimating the potential stereoselective enrichment of DP in organisms. The factors which affected the DP isomer composition in organisms included the tissues or organs used, DP concentration, organisms’ trophic levels occupied, and sex. Inconsistent results were obtained considering the effects of these influence factors. The underlying cause of these inconsistent results is unclear based on present data. Further research on DP biotransformation and interactions between DP and biomacromolecule is needed.
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