Bassia scoparia 的代谢解毒能力增强与氟吡甲禾灵抗性有关。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-01-24 eCollection Date: 2024-01-01 DOI:10.1002/pld3.560
Olivia E Todd, Eric L Patterson, Eric P Westra, Scott J Nissen, André Lucas Simões Araujo, William B Kramer, Franck E Dayan, Todd A Gaines
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引用次数: 0

摘要

拟辅酶除草剂通过化学方法模拟植物激素吲哚-3-乙酸(IAA)。在拟辅酶除草剂类别中,除草剂氟吡甲禾灵已被广泛用于控制柯夏(Bassia scoparia)。2014 年对科罗拉多州各地的柯夏种群的除草剂抗性进行了实地调查,发现了一个可能对氟乐灵和麦草畏(模拟助剂)、阿特拉津(光系统 II 抑制剂)、草甘膦(EPSPS 抑制剂)和氯磺隆(乙酰乳酸合成酶抑制剂)具有抗性的种群(Flur-R)。该种群对氟虫腈和氯磺隆具有抗性,但对草甘膦、莠去津和麦草畏敏感。随后的剂量反应研究确定,Flur-R 对氟酰草胺的抗性是同一田间调查收集的易感种群(J01-S)的 40 倍(LD50 分别为 720 和 20 g ae ha-1)。在一项 RNA 测序实验中,Flur-R、J01-S 和抗麦草畏、易感氟xypyr 的品系 9,425 在氟吡草胺处理后,叶绿素反应基因的表达量都有所增加。在 Flur-R 中,几种具有共轭和转运分子功能的转录物(如谷胱甘肽 S-转移酶 (GST)、UDP-葡萄糖基转移酶 (GT) 和 ATP 结合盒转运体 (ABC 转运体) 的组成型表达较高。在分析了随时间变化的代谢曲线后,Flur-R 和 J01-S 都能迅速将施用到植物上的除草剂配方 [14C]-fluroxypyr 酯转化为除草剂的生物活性形式 [14C]-fluroxypyr 酸和三种未知代谢物。这些代谢物在 Flur-R 中的形成和流动速度均快于 J01-S,从而降低了具有植物毒性的氟吡草胺酸的浓度。Flur-R 中存在一种独特的代谢物,而 J01-S 的代谢概况中没有这种代谢物。专门针对辅助素受体和信号转导蛋白的基因序列变异分析表明,候选辅助素靶点基因中不存在影响辅助素信号转导和结合的非同义突变,这进一步支持了我们的假设,即非靶点代谢降解是导致 Flur-R 抗性的原因之一。
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Enhanced metabolic detoxification is associated with fluroxypyr resistance in Bassia scoparia.

Auxin-mimic herbicides chemically mimic the phytohormone indole-3-acetic-acid (IAA). Within the auxin-mimic herbicide class, the herbicide fluroxypyr has been extensively used to control kochia (Bassia scoparia). A 2014 field survey for herbicide resistance in kochia populations across Colorado identified a putative fluroxypyr-resistant (Flur-R) population that was assessed for response to fluroxypyr and dicamba (auxin-mimics), atrazine (photosystem II inhibitor), glyphosate (EPSPS inhibitor), and chlorsulfuron (acetolactate synthase inhibitor). This population was resistant to fluroxypyr and chlorsulfuron but sensitive to glyphosate, atrazine, and dicamba. Subsequent dose-response studies determined that Flur-R was 40 times more resistant to fluroxypyr than a susceptible population (J01-S) collected from the same field survey (LD50 720 and 20 g ae ha-1, respectively). Auxin-responsive gene expression increased following fluroxypyr treatment in Flur-R, J01-S, and in a dicamba-resistant, fluroxypyr-susceptible line 9,425 in an RNA-sequencing experiment. In Flur-R, several transcripts with molecular functions for conjugation and transport were constitutively higher expressed, such as glutathione S-transferases (GSTs), UDP-glucosyl transferase (GT), and ATP binding cassette transporters (ABC transporters). After analyzing metabolic profiles over time, both Flur-R and J01-S rapidly converted [14C]-fluroxypyr ester, the herbicide formulation applied to plants, to [14C]-fluroxypyr acid, the biologically active form of the herbicide, and three unknown metabolites. The formation and flux of these metabolites were faster in Flur-R than J01-S, reducing the concentration of phytotoxic fluroxypyr acid. One unique metabolite was present in Flur-R that was not present in the J01-S metabolic profile. Gene sequence variant analysis specifically for auxin receptor and signaling proteins revealed the absence of non-synonymous mutations affecting auxin signaling and binding in candidate auxin target site genes, further supporting our hypothesis that non-target site metabolic degradation is contributing to fluroxypyr resistance in Flur-R.

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ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
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464
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