Target-site is the main mechanism of resistance to ALS -inhibitor herbicides in a rice flatsedge population from Southern Brazil

IF 1.8 4区农林科学 Q2 PLANT SCIENCES

Advances in Weed Science Pub Date : 2023-01-01 DOI:10.51694/advweedsci/2023;41:00007

D. M. Chiapinotto, Luis A. Avila, C. E. Schaedler, S. Mathioni, Claudiane Oliveira, V. E. Viana, E. R. Camargo

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Abstract

: Background: Overuse of ALS-inhibiting herbicides in rice paddy fields has resulted in the selection of Cyperus iria L. (rice flatsedge) with a high level of resistance to this herbicide group. Objective: This study aimed to identify mutations endowing ALS resistance (target-site resistance) and the involvement of a metabolic-mediated resistance mechanism of C. iria to ALS herbicides. Methods: Dose-response experiments were performed to estimate GR 50 values (GR 50 denotes the rate at with a herbicide reduces growth by 50%). Experiments I and II were conducted in a greenhouse, with a factorial arrangement comprised of two C. iria populations, CYPIR-S and CYPIR-R (with and without malathion treatment), which were susceptible and resistant to ALS-inhibiting herbicides, respectively; ALS-inhibiting herbicides (bispyribac-sodium, imazapyr + imazapic, penoxsulam, and pyrazosulfuron-ethyl); and herbicide doses above and below the maximum field rates. Genomic DNA was extracted from CYPIR-S and CYPIR-R for partial sequencing of the ALS gene. Results: The GR 50 values of CYPIR-R were 400 to > 4,000 times higher than those of CYPIR-S, indicating a high level of resistance to all herbicides evaluated. Tests with bispyribac-sodium plus malathion showed that metabolism might be involved. However, dose-response curves demonstrated that a specific mutation in the ALS gene is the main resistance mechanism. DNA sequencing electropherogram analysis for CYPIR-R showed different nucleotide changes at Trp 574 in the first [thymine (T) to adenine (A)] and second bases [guanine (G) to T], which can result in changes from tryptophan (TGG) to arginine (AGG), to leucine (TTG), and/or to methionine (ATG), respectively. Conclusions: Target-site

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靶位是巴西南部稻系对ALS抑制剂除草剂产生抗性的主要机制

背景:稻田中过量使用抗als除草剂导致对该除草剂具有较高抗性的平莎草(Cyperus iria L.)被选择。目的:本研究旨在鉴定赋予ALS抗性(靶点抗性)的突变及其代谢介导的对ALS除草剂的抗性机制。方法:采用剂量-反应实验方法估算GR 50值(GR 50表示除草剂对生长的抑制率为50%)。试验1和试验2在温室中进行，因子安排包括两个对als抑制除草剂敏感和抗性的鸢尾花群体CYPIR-S和CYPIR-R(马拉硫磷处理和未处理);抗als除草剂(双嘧菌酯钠、伊马唑吡嗪+伊马唑吡嗪、培诺舒仑和吡唑磺隆乙基);除草剂用量高于或低于最大田间用量。从CYPIR-S和CYPIR-R中提取基因组DNA，对ALS基因进行部分测序。结果:CYPIR-R的GR 50值比CYPIR-S的GR 50值高400 ~ 4000倍，表明CYPIR-R对所评价的所有除草剂均具有较高的抗性。双嘧菌酯钠加马拉硫磷试验表明可能与代谢有关。然而，剂量-反应曲线表明，ALS基因的特定突变是主要的耐药机制。CYPIR-R的DNA测序电泳分析显示，第一碱基[胸腺嘧啶(T)到腺嘌呤(A)]和第二碱基[鸟嘌呤(G)到T]的Trp 574位点发生了不同的核苷酸变化，分别导致色氨酸(TGG)到精氨酸(AGG)、亮氨酸(TTG)和/或蛋氨酸(ATG)的变化。结论:目标站点

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来源期刊

Advances in Weed Science PLANT SCIENCES-

CiteScore

2.10

自引率

42.90%

发文量