Target-site EPSPS Pro-106-Ser mutation in Conyza canadensis biotypes with extreme resistance to glyphosate in Ohio and Iowa, USA

Documenting the diversity of mechanisms for herbicide resistance in agricultural weeds is helpful for understanding evolutionary processes that contribute to weed management problems. More than 40 species have evolved resistance to glyphosate, and at least 13 species have a target-site mutation at p...

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Published in	Scientific reports Vol. 10; no. 1; p. 7577
Main Authors	Beres, Zachery T., Giese, Laura A., Mackey, David M., Owen, Micheal D. K., Page, Eric R., Snow, Allison A.
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 05.05.2020 Nature Publishing Group
Subjects	3-Phosphoshikimate 1-Carboxyvinyltransferase - genetics 38/77 631/158/2456 631/449/2668 631/449/2669 Amino Acid Substitution Biotypes Conyza - drug effects Conyza - genetics Conyza canadensis Glycine - analogs & derivatives Glycine - pharmacology Glyphosate Herbicide resistance Herbicide Resistance - genetics Herbicides Humanities and Social Sciences Iowa multidisciplinary Mutation Nucleotide sequence Ohio Proline Science Science (multidisciplinary) Seeds Serine Weed control Weeds Iowa Ohio United States > US
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Abstract	Documenting the diversity of mechanisms for herbicide resistance in agricultural weeds is helpful for understanding evolutionary processes that contribute to weed management problems. More than 40 species have evolved resistance to glyphosate, and at least 13 species have a target-site mutation at position 106 of EPSPS . In horseweed ( Conyza canadensis ), this p106 mutation has only been reported in Canada. Here, we sampled seeds from one plant (= biotype) at 24 sites in Ohio and 20 in Iowa, screened these biotypes for levels of resistance, and sequenced their DNA to detect the p106 mutation. Resistance categories were based on 80% survival at five glyphosate doses: S (0×), R1 (1×), R2 (8×), R3 (20×), or R4 (40×). The p106 mutation was not found in the19 biotypes scored as S, R1, or R2, while all 25 biotypes scored as R3 or R4 had the same proline-to-serine substitution at p106. These findings represent the first documented case of target-site mediated glyphosate resistance in horseweed in the United States, and the first to show that this mutation was associated with very strong resistance. We hypothesize that the p106 mutation has occurred multiple times in horseweed and may be spreading rapidly, further complicating weed management efforts.
AbstractList	Documenting the diversity of mechanisms for herbicide resistance in agricultural weeds is helpful for understanding evolutionary processes that contribute to weed management problems. More than 40 species have evolved resistance to glyphosate, and at least 13 species have a target-site mutation at position 106 of EPSPS. In horseweed (Conyza canadensis), this p106 mutation has only been reported in Canada. Here, we sampled seeds from one plant (= biotype) at 24 sites in Ohio and 20 in Iowa, screened these biotypes for levels of resistance, and sequenced their DNA to detect the p106 mutation. Resistance categories were based on 80% survival at five glyphosate doses: S (0×), R1 (1×), R2 (8×), R3 (20×), or R4 (40×). The p106 mutation was not found in the19 biotypes scored as S, R1, or R2, while all 25 biotypes scored as R3 or R4 had the same proline-to-serine substitution at p106. These findings represent the first documented case of target-site mediated glyphosate resistance in horseweed in the United States, and the first to show that this mutation was associated with very strong resistance. We hypothesize that the p106 mutation has occurred multiple times in horseweed and may be spreading rapidly, further complicating weed management efforts. Documenting the diversity of mechanisms for herbicide resistance in agricultural weeds is helpful for understanding evolutionary processes that contribute to weed management problems. More than 40 species have evolved resistance to glyphosate, and at least 13 species have a target-site mutation at position 106 of EPSPS . In horseweed ( Conyza canadensis ), this p106 mutation has only been reported in Canada. Here, we sampled seeds from one plant (= biotype) at 24 sites in Ohio and 20 in Iowa, screened these biotypes for levels of resistance, and sequenced their DNA to detect the p106 mutation. Resistance categories were based on 80% survival at five glyphosate doses: S (0×), R1 (1×), R2 (8×), R3 (20×), or R4 (40×). The p106 mutation was not found in the19 biotypes scored as S, R1, or R2, while all 25 biotypes scored as R3 or R4 had the same proline-to-serine substitution at p106. These findings represent the first documented case of target-site mediated glyphosate resistance in horseweed in the United States, and the first to show that this mutation was associated with very strong resistance. We hypothesize that the p106 mutation has occurred multiple times in horseweed and may be spreading rapidly, further complicating weed management efforts. Abstract Documenting the diversity of mechanisms for herbicide resistance in agricultural weeds is helpful for understanding evolutionary processes that contribute to weed management problems. More than 40 species have evolved resistance to glyphosate, and at least 13 species have a target-site mutation at position 106 of EPSPS . In horseweed ( Conyza canadensis ), this p106 mutation has only been reported in Canada. Here, we sampled seeds from one plant (= biotype) at 24 sites in Ohio and 20 in Iowa, screened these biotypes for levels of resistance, and sequenced their DNA to detect the p106 mutation. Resistance categories were based on 80% survival at five glyphosate doses: S (0×), R1 (1×), R2 (8×), R3 (20×), or R4 (40×). The p106 mutation was not found in the19 biotypes scored as S, R1, or R2, while all 25 biotypes scored as R3 or R4 had the same proline-to-serine substitution at p106. These findings represent the first documented case of target-site mediated glyphosate resistance in horseweed in the United States, and the first to show that this mutation was associated with very strong resistance. We hypothesize that the p106 mutation has occurred multiple times in horseweed and may be spreading rapidly, further complicating weed management efforts.
ArticleNumber	7577
Author	Page, Eric R. Snow, Allison A. Mackey, David M. Beres, Zachery T. Owen, Micheal D. K. Giese, Laura A.
Author_xml	– sequence: 1 givenname: Zachery T. orcidid: 0000-0001-6513-6142 surname: Beres fullname: Beres, Zachery T. email: beres.36@osu.edu organization: Department of Evolution, Ecology, and Organismal Biology; Ohio State University – sequence: 2 givenname: Laura A. surname: Giese fullname: Giese, Laura A. organization: Department of Horticulture and Crop Science; Ohio State University – sequence: 3 givenname: David M. surname: Mackey fullname: Mackey, David M. organization: Department of Horticulture and Crop Science; Ohio State University – sequence: 4 givenname: Micheal D. K. surname: Owen fullname: Owen, Micheal D. K. organization: Department of Agronomy; Iowa State University – sequence: 5 givenname: Eric R. orcidid: 0000-0003-3361-5151 surname: Page fullname: Page, Eric R. organization: Harrow Research and Devleopment Centre, Agriculture and Agri-Food Canada – sequence: 6 givenname: Allison A. surname: Snow fullname: Snow, Allison A. organization: Department of Evolution, Ecology, and Organismal Biology; Ohio State University
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The SO Duke (64458_CR2) 2008; 64 BP Murphy (64458_CR48) 2019; 67 CH Ng (64458_CR54) 2004; 55 TD Ngo (64458_CR49) 2016; 74 N Nol (64458_CR30) 2012; 52 H Han (64458_CR9) 2017; 40 Q Yu (64458_CR8) 2015; 167 JS Yuan (64458_CR26) 2010; 58 Y Bostamam (64458_CR34) 2012; 60 A Perez-Jones (64458_CR59) 2007; 226 Y Peng (64458_CR25) 2014; 166 MJ VanGessel (64458_CR13) 2001; 49 Q Yu (64458_CR62) 2007; 225 64458_CR1 A Collavo (64458_CR64) 2012; 52 PC Feng (64458_CR16) 2004; 52 JT Dauer (64458_CR37) 2009; 24 SS Kaundun (64458_CR35) 2011; 59 RD Sammons (64458_CR4) 2014; 70 J Chen (64458_CR10) 2015; 242 DL Regehr (64458_CR41) 1979; 6 Y Peng (64458_CR24) 2010; 66 ER Page (64458_CR23) 2018; 66 R Alcántara-de la Cruz (64458_CR7) 2016 VK Nandula (64458_CR33) 2013; 61 J Chen (64458_CR11) 2017; 143 M Jasieniuk (64458_CR60) 2008; 56 JT Dauer (64458_CR36) 2007; 44 CH Koger (64458_CR18) 2005; 53 IA Zelaya (64458_CR15) 2007; 94 64458_CR12 64458_CR56 R Alcántara-de la Cruz (64458_CR58) 2016; 7 64458_CR52 R Alarcón-Reverte (64458_CR51) 2012; 61 IA Zelaya (64458_CR14) 2004; 100 M Simarmata (64458_CR63) 2008; 56 AM Wakelin (64458_CR61) 2006; 46 LB de Carvalho (64458_CR50) 2012; 60 Y Mei (64458_CR31) 2018; 146 VM Davis (64458_CR45) 2009; 57 CM Benbrook (64458_CR3) 2016; 28 SS Kaundun (64458_CR55) 2008; 56 DA d’Avignon (64458_CR27) 2018; 292 ZT Beres (64458_CR32) 2018; 8 F González-Torralva (64458_CR22) 2012; 169 ML Moretti (64458_CR20) 2017; 57 64458_CR5 X Ge (64458_CR29) 2011; 67 RB Cross (64458_CR65) 2015; 63 MS Bell (64458_CR47) 2013; 61 G Dinelli (64458_CR19) 2006; 86 VM Davis (64458_CR44) 2010; 58 E Tani (64458_CR28) 2015; 33 E Tozzi (64458_CR42) 2014; 94 SE Weaver (64458_CR40) 2001; 81 M Okada (64458_CR38) 2013; 6 F González-Torralva (64458_CR39) 2012; 58 X Ge (64458_CR17) 2010; 66 BD Hanson (64458_CR21) 2009; 57 JA Dominguez-Valenzuela (64458_CR46) 2017; 115 CH Ng (64458_CR53) 2003; 43 HK Takano (64458_CR57) 2018; 67 DL Shields (64458_CR43) 2006; 54 SR Baerson (64458_CR6) 2002; 129
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Snippet	Documenting the diversity of mechanisms for herbicide resistance in agricultural weeds is helpful for understanding evolutionary processes that contribute to... Abstract Documenting the diversity of mechanisms for herbicide resistance in agricultural weeds is helpful for understanding evolutionary processes that...
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SubjectTerms	3-Phosphoshikimate 1-Carboxyvinyltransferase - genetics 38/77 631/158/2456 631/449/2668 631/449/2669 Amino Acid Substitution Biotypes Conyza - drug effects Conyza - genetics Conyza canadensis Glycine - analogs & derivatives Glycine - pharmacology Glyphosate Herbicide resistance Herbicide Resistance - genetics Herbicides Humanities and Social Sciences Iowa multidisciplinary Mutation Nucleotide sequence Ohio Proline Science Science (multidisciplinary) Seeds Serine Weed control Weeds
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Title	Target-site EPSPS Pro-106-Ser mutation in Conyza canadensis biotypes with extreme resistance to glyphosate in Ohio and Iowa, USA
URI	https://link.springer.com/article/10.1038/s41598-020-64458-7 https://www.ncbi.nlm.nih.gov/pubmed/32371909 https://www.proquest.com/docview/2398569993 https://pubmed.ncbi.nlm.nih.gov/PMC7200745
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