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野油菜代谢乙酰乳酸合成酶抑制剂阔草清的抗性由细胞色素 P450 酶介导。

Metabolic Resistance to Acetolactate Synthase Inhibiting Herbicide Tribenuron-Methyl in Descurainia sophia L. Mediated by Cytochrome P450 Enzymes.

机构信息

Department of Applied Chemistry, College of Science , China Agricultural University , Beijing 100193 , PR China.

出版信息

J Agric Food Chem. 2018 May 2;66(17):4319-4327. doi: 10.1021/acs.jafc.7b05825. Epub 2018 Apr 19.

DOI:10.1021/acs.jafc.7b05825
PMID:29652484
Abstract

Descurainia sophia is one of the most notorious broadleaf weeds in China and has evolved extremely high resistance to acetolactate synthase (ALS)-inhibiting herbicide tribenuron-methyl. The target-site resistance due to ALS gene mutations was well-known, while the non-target-site resistance is not yet well-characterized. Metabolic resistance, which is conferred by enhanced rates of herbicide metabolism, is the most important NTSR. To explore the mechanism of metabolic resistance underlying resistant (R) D. sophia plants, tribenuron-methyl uptake and metabolism levels, qPCR reference gene stability, and candidate P450 genes expression patterns were investigated. The results of liquid chromatography-mass spectrometry (LC-MS) analysis indicated that the metabolic rates of tribenuron-methyl in R plants was significantly faster than in susceptible (S) plants, and this metabolism differences can be eliminated by P450 inhibitor malathion. The genes for 18S rRNA and TIP41-like were identified as the most suitable reference genes using programs of BestKeeper, NormFinder, and geNorm. The P450 gene CYP96A146 constitutively overexpressed in R plants compared to S plants; this overexpression in R plants can be suppressed by malathion. Taken together, a higher expression level of P450 genes, leading to higher tribenuron-methyl metabolism, appears to be responsible for metabolic resistance to tribenuron-methyl in R D. sophia plants.

摘要

播娘蒿是中国最恶名昭著的阔叶杂草之一,对乙酰乳酸合成酶(ALS)抑制剂绿磺隆已产生极高的抗性。由于 ALS 基因突变导致的靶标抗性是众所周知的,而非靶标抗性尚未得到很好的描述。代谢抗性是由增强除草剂代谢率赋予的,是最重要的 NTSR。为了探索抗(R)播娘蒿植物代谢抗性的机制,研究了绿磺隆的摄取和代谢水平、qPCR 参考基因稳定性以及候选 P450 基因表达模式。液相色谱-质谱(LC-MS)分析的结果表明,R 植株中绿磺隆的代谢率明显快于敏感(S)植株,而这种代谢差异可以通过 P450 抑制剂马拉硫磷消除。使用 BestKeeper、NormFinder 和 geNorm 程序鉴定了 18S rRNA 和 TIP41-like 基因作为最适合的参考基因。与 S 植株相比,R 植株中 P450 基因 CYP96A146 持续过表达;马拉硫磷可抑制 R 植株中这种过表达。总之,P450 基因的更高表达水平导致更高的绿磺隆代谢,似乎是 R 播娘蒿植物对绿磺隆代谢抗性的原因。

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