Genomic distribution of EPSPS copies conferring glyphosate resistance inPalmer amaranth and kochia

Mithila Jugulam; Andrew J. Dillon

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Genomic distribution of EPSPS copies conferring glyphosate resistance inPalmer amaranth and kochia

机译：EPSPS拷贝的基因组分布促进草甘膦抗性Inpalmer Amaranth和Kochia

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Palmer amaranth and kochia are major problem weeds in many cropping systems in the United States. Wide acceptance of glyphosate tolerant crop technology has resulted in extensive use of glyphosate, consequently, a number of weeds including Palmer amaranth and kochia evolved resistance to glyphosate throughout the US. Within a spar,of 5-7 years the glyphosate resistance in these weeds has spread extensively, devastating several major crops. Understanding the mechanisms of herbicide resistance is valuable to determine the level of resistance as well as how the resistance spreads in the populations. Glyphosate resistance mechanisms in Palmer amaranth and kochia have been investigated extensively. Although resistance to glyphosate has evolved as a result of amplification of 5-enoIpyruvylshikimtate-3-phosphate synthase (EPSPS), the target site of glyphosate, but the distribution and configuration of amplified copies of EPSPS gene in the genomes of these two species is different. The EPSPS gene amplification may have possibly mediated by transposons in Palmer amaranth and whereas, likely to have resulted because of unequal recombination in kochia. These findings suggest that the EPSPS amplification can occur via different mechanisms in different weeds.Evolution of glyphosate resistance as a result of EPSPS gene amplification is a threat to long-term sustainability of glyphosate-resistant crop technology.

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来源
《Indian Journal of Weed Science》 |2016年第2期|共4页
作者
Mithila Jugulam; Andrew J. Dillon;
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作者单位

Kansas State University Manhattan KS USA;

Kansas State University Manhattan KS USA;

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原文格式 PDF
正文语种 eng
中图分类植物保护;
关键词
EPSPS; Gene amplification; Glyphosate resistance; Glyphosate; Kochia; Palmer amaranth;

机译：Epsps;基因扩增;草甘膦抗性;草甘膦;Kochia;Palmer Amanth;

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1. Transcriptomic analysis reveals the transcription factors involved in regulating the expression of EPSPS gene,which confers glyphosate resistance of goosegrass (Eleusine indica) [J] . ZHANG Chun, YU Chao-jie, ZHANG Tai-jie, 农业科学学报：英文版 . 2021,第008期
2. Transcriptomic analysis reveals the transcription factors involved in regulating the expression of EPSPS gene, which confers glyphosate resistance of goosegrass (Eleusine indica) [J] . ZHANG Chun, YU Chao-jie, ZHANG Tai-jie, 农业科学学报（英文版） . 2021,第008期
3. The EPSPS Pro106Ser substitution solely accounts for glyphosate resistance in a goosegrass (Eleusine indica) population from Tennessee, United States [J] . Janel L Huffman, Chance W Riggins, Lawrence E Steckel, 农业科学学报（英文版） . 2016,第006期
4. The EPSPS ProlO6Ser substitution solely accounts for glyphosate resistance in a goosegrass （Eleusine indica） population from Tennessee, United States [J] . Janel L Huffman, Chance W Riggins, Lawrence E Steckel, 农业科学学报：英文版 . 2016,第006期
5. Glyphosate-Resistant Kochia (Kochia scoparia) in Kansas: EPSPS Gene Copy Number in Relation to Resistance Levels [J] . Godar Amar S., Stahlman Phillip W., Jugulam Mithila, Weed Science: Journal of the Weed Science Society of America . 2015,第3期

机译：堪萨斯州抗草甘膦的地肤（Kochia scoparia）：EPSPS基因拷贝数与耐药水平的关系
6. EPSPS Gene Amplification Primarily Confers Glyphosate Resistance among Arkansas Palmer amaranth (Amaranthus palmeri) Populations [J] . Singh Shilpa, Singh Vijay, Lawton-Rauh Amy, Weed Science: Journal of the Weed Science Society of America . 2018,第3期

机译：EPSPS基因扩增主要赋予阿肯色州帕拉默苋（Amaranthus Palmeri）人群的草甘膦抗性
7. EPSPS Gene Amplification Primarily Confers Glyphosate Resistance among Arkansas Palmer amaranth (Amaranthus palmeri) Populations [J] . Singh Shilpa, Singh Vijay, Lawton-Rauh Amy, Weed Science: Journal of the Weed Science Society of America . 2018,第3期

机译：EPSPS基因扩增主要赋予阿肯色州帕拉默苋（Amaranthus Palmeri）人群的草甘膦抗性
8. SPATIAL DISTRIBUTION OF TUBULIN MUTATIONS CONFERRING RESISTANCE TO ANTIMICROTUBULAR COMPOUNDS [C] . NATO Advanced Research Workshop on The Plant Cytoskeleton . 2008

机译：赋予抗菌药物抗性抗微小蛋白突变的空间分布
9. EPSPS gene duplication in Palmer amaranth: Relative fitness, inheritance, and duplication mechanism of the glyphosate resistance trait [D] . Giacomini, Darci A. 2015

机译：Palmer AmarantH中的EPSPS基因复制：草甘膦抗性特征的相对健康，遗传和重复机制
10. EPSPS Gene Copy Number and Whole-Plant Glyphosate Resistance Level in Kochia scoparia [O] . Todd A. Gaines, Abigail L. Barker, Eric L. Patterson, 2011

机译：地肤的EPSPS基因拷贝数和全草甘膦抗性水平
11. EPSPS Gene Copy Number and Whole-Plant Glyphosate Resistance Level in Kochia scoparia. [O] . Todd A Gaines, Abigail L Barker, Eric L Patterson, 2016

机译：地肤中Epsps基因拷贝数和全植物草甘膦抗性水平。

Genomic distribution of EPSPS copies conferring glyphosate resistance inPalmer amaranth and kochia

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