Decoding Non-Target-Site Herbicide Resistance in Sunflower: The Beginning of the Story

Q3 Agricultural and Biological Sciences
Helia Pub Date : 2019-05-23 DOI:10.1515/HELIA-2019-0002
M. Gil, G. Nestares
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引用次数: 3

Abstract

Abstract In the last years, many efforts have been made to develop sunflower cultivars showing important agronomical characteristics such as herbicide resistance. These approaches have been focused mainly on resistance to herbicides with the same mode of action, that is acetohydroxyacid synthase (AHAS) inhibitors. To date, four induced and natural AHAS mutations have been found that confer resistance to these herbicides and many of these alleles are being used for the production of sunflower hybrids resistant to herbicides and to develop different non-transgenic technologies for weed control. However, little is known about the bases of non-target-site-based resistance (NTSR) developing cross-resistance to herbicides with different modes of action in sunflower. These mechanisms diminish the number of active herbicide molecules that reach the target and are generally polygenic. Elucidating the nature of NTSR would allow evaluating maximal efficiency conditions for the herbicide and would enable to establish weed management strategies in sunflower crop. Nowadays, mining of NTSR genes can be more easily accomplished taking advantage of up-to-date omics-based approaches: high-throughput techniques involving genomics, transcriptomics, proteomics and metabolomics. Considering the difficulties in the discovery of new compounds with a broad spectrum of weed control, it results essential to broaden the use of former herbicides which are highly efficient and ecologically desirable. Full understanding of NTSR mechanisms in sunflower would allow detecting specific genes potentially useful as biotechnological tools for the phytoremediation of herbicides and modern plant breeding.
解读向日葵对非靶标除草剂的抗性:故事的开端
摘要在过去的几年里,人们做出了许多努力来开发具有重要农艺特性(如抗除草剂)的向日葵品种。这些方法主要集中在对具有相同作用模式的除草剂的抗性上,即乙酰乙酸合成酶(AHAS)抑制剂。到目前为止,已经发现了四种诱导和天然的AHAS突变,它们赋予了对这些除草剂的抗性,其中许多等位基因正被用于生产对除草剂具有抗性的向日葵杂交种,并开发不同的非转基因杂草控制技术。然而,对向日葵对不同作用模式的除草剂产生交叉抗性的非靶位点抗性(NTSR)的基础知之甚少。这些机制减少了到达目标的活性除草剂分子的数量,并且通常是多基因的。阐明NTSR的性质将有助于评估除草剂的最大效率条件,并有助于制定向日葵作物的杂草管理策略。如今,利用最新的基于组学的方法可以更容易地挖掘NTSR基因:涉及基因组学、转录组学、蛋白质组学和代谢组学的高通量技术。考虑到发现具有广谱杂草控制作用的新化合物的困难,因此必须扩大高效和生态理想的前除草剂的使用范围。充分了解向日葵中的NTSR机制将有助于检测特定基因,这些基因可能作为除草剂植物修复和现代植物育种的生物技术工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Helia
Helia Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
1.00
自引率
0.00%
发文量
9
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