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丰年虫(甲壳纲:无甲目)对农用化学品的抗性及交叉抗性机制

Mechanisms of resistance and cross-resistance to agrochemicals in the fairy shrimp Thamnocephalus platyurus (Crustacea: Anostraca).

作者信息

Brausch John M, Smith Philip N

机构信息

The Institute of Environmental and Human Health, Department of Environmental Toxicology, Texas Tech University, 1207 Gilbert Dr, Lubbock, TX 79416, USA.

出版信息

Aquat Toxicol. 2009 May 5;92(3):140-5. doi: 10.1016/j.aquatox.2009.02.002. Epub 2009 Feb 12.

Abstract

Extensive pesticide usage in the Southern High Plains has led to the development of resistance in many pest species, as well as some non-target organisms. Thamnocephalus platyurus derived from agriculturally impacted watersheds are between two and three times less sensitive to commonly applied agrochemicals than T. platyurus from native grassland watersheds. Biological mechanisms that convey such resistance are currently unknown. This study identified the contribution of metabolic enzymes to T. platyurus pesticide resistance using the synergists piperonyl butoxide (PBO) and S,S,S-tributyl phosphorotrithioate (DEF) to inhibit cytochrome P450s or hydrolases, respectively. Inhibition of cytochrome P450s and hydrolases partially restored cyfluthrin and DDT sensitivity in T. platyurus, suggesting other resistance inferring mechanism(s) were also involved. However, inhibition of hydrolases with DEF completely restored methyl parathion sensitivity in pesticide resistant T. platyurus. DDT resistance paralleled cyfluthrin resistance, but did not for methyl parathion resistance. These data suggest that the primary mechanism for the development of resistance to agrochemicals in T. platyurus is due to increased metabolic detoxification.

摘要

美国南部高平原地区广泛使用杀虫剂,导致许多害虫物种以及一些非目标生物产生了抗药性。来自受农业影响流域的扁头鲎对常用农用化学品的敏感度比来自原生草原流域的扁头鲎低两到三倍。目前尚不清楚传递这种抗药性的生物学机制。本研究使用增效剂胡椒基丁醚(PBO)和三丁基三硫代磷酸酯(DEF)分别抑制细胞色素P450或水解酶,确定了代谢酶对扁头鲎抗药性的作用。抑制细胞色素P450和水解酶部分恢复了扁头鲎对氯氟氰菊酯和滴滴涕的敏感性,表明还涉及其他抗药性推断机制。然而,用DEF抑制水解酶完全恢复了抗药性扁头鲎对甲基对硫磷的敏感性。滴滴涕抗性与氯氟氰菊酯抗性平行,但与甲基对硫磷抗性不平行。这些数据表明,扁头鲎对农用化学品产生抗药性的主要机制是代谢解毒增加。

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