Point Mutations as Main Resistance Mechanism Together With P450-Based Metabolism Confer Broad Resistance to Different ALS-Inhibiting Herbicides in Glebionis coronaria From Tunisia

Hada, Zeineb; Menchari, Yosra; Rojano-Delgado, Antonia M.; Torra, Joel; Menéndez, J.; Palma-Bautista, Candelario; Souissi, T.

doi:10.3389/fpls.2021.626702

Cited by 15 publications

(15 citation statements)

References 50 publications

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“…However, in the R population of E. sumatrensis, there was no synergism between the tested ALS-inhibiting herbicides and the organophosphate malathion, which indicates that ALS inhibitors metabolism by P450 enzymes is not the mechanism involved in the resistance of this population. Malathion may not inhibit all P450 enzymes, and then, further investigations are necessary since metabolism can simultaneously contribute with other mechanisms of ALS-resistant plants [24].…”

Section: Discussionmentioning

confidence: 99%

A Target-Site Mutation Confers Cross-Resistance to ALS-Inhibiting Herbicides in Erigeron sumatrensis from Brazil

Silva

Mendes

Suzukawa

et al. 2022

Plants

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Cases of weed resistant to herbicides have changed the dynamics of agricultural areas in Brazil, and in recent years, Erigeron species have caused major problems to farmers in the country, mainly in relation to the ineffectiveness of herbicide treatments used. The objective of this study was to confirm the cross-resistance to ALS inhibitors in populations of Erigeron sumatrensis as well as to investigate the existence of mutations in the site of action of ALS-inhibiting herbicides. To do this, 30 populations collected in the 2016/2017 crop season were grown in a greenhouse. Dose–response (chlorimuron-ethyl and cloransulam-methyl), inhibition of cytochrome P-450 with malathion, and ALS gene sequencing experiments were carried out in the F1 generations of two fleabane populations. The results proved the cross-resistance to chlorimuron-ethyl and cloransulam-methyl herbicides applied in the post-emergence of the resistant population of E. sumatrensis. The higher activity of P450 enzymes is unlikely responsible for the resistance of the population studied. The resistance mechanism found in R was the target site mutation Pro197Ser at the ALS gene. This is the first study in Brazil to identify a target-site change as a survival mechanism in E. sumatrensis for the resistance to ALS-inhibiting herbicides.

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Section: Discussionmentioning

confidence: 99%

A Target-Site Mutation Confers Cross-Resistance to ALS-Inhibiting Herbicides in Erigeron sumatrensis from Brazil

Silva

Mendes

Suzukawa

et al. 2022

Plants

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“…The tests revealed cross-resistance patterns to sulfonylurea herbicides, i.e., tribenuron, chlorsulfuron and sulfometuron, and to an imidazolinone herbicide, i.e., imazapyr. Cross-resistance to other ALS inhibitors is commonly found in weed species [33,52,53]. P. rhoeas is another broadleaved weed species causing problems in winter cereals owing to herbicide resistance.…”

Section: Discussionmentioning

confidence: 99%

Herbicide Resistance of Centaurea cyanus L. in Poland in the Context of Its Management

et al. 2021

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Cornflower (Centaurea cyanus L.), one of the main weeds found among winter crops in Poland, has developed herbicide resistance (HR) to acetolactate synthase (ALS) herbicides, a finding first reported in 2006, and in recent years, farmers have been complaining about inadequate chemical control of this weed. This study aimed to characterise the current state of cornflower HR to ALS inhibitors and synthetic auxins in Poland and the agricultural practices in fields with herbicide-resistant populations. From 2017 to 2020, 159 seed samples together with the field history were collected across the country and biological tests performed in glasshouses. This revealed that 47 populations of C. cyanus were cross-resistant to both tribenuron and florasulam, 28 and 8 populations were single resistant to tribenuron and florasulam, respectively, and 3 populations had developed multiple resistance to both ALS inhibitors and synthetic auxins, i.e., 2,4-D and dicamba. Resistant populations were found mostly frequent in northern Poland, but also in the eastern and western parts of the country. Based on a survey of farmers, the resistant populations were found in winter crops regardless of the tillage system (77% of fields with HR cornflower were mouldboard ploughed). Based on the proposed population treatment (PT) index showing the frequency of herbicide use during three consecutive seasons on farms with HR cornflower, the average PT for all the surveyed farms was 5.4. The highest PT of 7.4 was found in the province of Warmia-Masuria in northern Poland.

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“…Participation of Cyt-P450 in the metabolism of tribenuron-methyl was only partial, allowing that R C. bonariensis plants transformed 58% of the herbicide applied into OH-MM and the conjugate-MM. Metabolism-based resistance to ALS inhibiting herbicides have long been reported and are increasing in both monocot and dicot weed species. , However, there are a few cases in which the metabolism of sulfonylureas has been described as the dominant resistance mechanism in dicot weeds. ,, Because the susceptibility to tribenuron-methyl of the R population did not decrease at the level of the S population with the application of malathion, it is possible that a target site mutation, other metabolic enzyme families, or NTSR mechanisms also participate in the resistance to this herbicide; i.e., resistance to tribenuron-methyl involves TSR and NTSR mechanisms.…”

Section: Discussionmentioning

confidence: 99%

Non-Target-Site Resistance Mechanisms Endow Multiple Herbicide Resistance to Five Mechanisms of Action in Conyza bonariensis

Palma-Bautista

Vázquez-García

Domínguez-Valenzuela

et al. 2021

J. Agric. Food Chem.

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The repeated use of herbicides can lead to the selection of multiple resistance weeds. Some populations of Conyza bonariensis occurring in olive groves from southern Spain have developed resistance to various herbicides. This study determined the resistance levels to 2,4-D, glyphosate, diflufenican, paraquat, and tribenuron-methyl in a putative resistant (R) C. bonariensis population, and the possible non-target-site resistance (NTSR) mechanisms involved were characterized. Resistance factors varied as follows: glyphosate (8.9), 2,4-D (4.8), diflufenican (5.0), tribenuron-methyl (19.6), and paraquat (85.5). Absorption of 14 Cglyphosate was up to 25% higher in the susceptible (S) population compared to the R one, but 14 C-paraquat absorption was similar (up to 70%) in both populations. S plants translocated more than 60% of both 14 C-glyphosate and 14 C-paraquat toward shoots and roots, while R plants translocated less than 10%. The R population was able to metabolize 57% of the 2,4-D into nontoxic metabolites and 68% of the tribenuron-methyl into metsulfuron-methyl (10%), metsulfuron-methyl-hydroxylate (18%), and conjugate-metsulfuron-methyl (40%). Among the NTSR mechanisms investigated, absorption and translocation could be involved in glyphosate resistance, but only translocation for paraquat. Proofs of the presence of enhanced metabolism as a resistance mechanism were found for tribenuron-methyl and 2,4-D, but not for diflufenican. This research informs the first occurrence of multiple resistance to five herbicide classes (acetolactate synthase inhibitors, 5-enolpyruvylshikimate-3-phosphate synthase inhibitors, photosystem I electron diverters, photosystem II inhibitors, and synthetic auxin herbicides) in C. bonariensis.

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Point Mutations as Main Resistance Mechanism Together With P450-Based Metabolism Confer Broad Resistance to Different ALS-Inhibiting Herbicides in Glebionis coronaria From Tunisia

Cited by 15 publications

References 50 publications

A Target-Site Mutation Confers Cross-Resistance to ALS-Inhibiting Herbicides in Erigeron sumatrensis from Brazil

A Target-Site Mutation Confers Cross-Resistance to ALS-Inhibiting Herbicides in Erigeron sumatrensis from Brazil

Herbicide Resistance of Centaurea cyanus L. in Poland in the Context of Its Management

Non-Target-Site Resistance Mechanisms Endow Multiple Herbicide Resistance to Five Mechanisms of Action in Conyza bonariensis

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