<b>HRAC Group 5</b> <font size='2'> (Legacy C1 C2) </font> resistant Arabidopsis thaliana from United Kingdom

International Survey of Herbicide-Resistant Weeds

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Tuesday, April 16, 2024

HRAC GROUP 5 (LEGACY C1 C2) RESISTANT MOUSE-EAR CRESS
(Arabidopsis thaliana)

PSII inhibitors - Serine 264 Binders HRAC Group 5 (Legacy C1 C2)

United Kingdom, Cambridgeshire

INTRODUCTION		MOUSE-EAR CRESS
Mouse-ear Cress (Arabidopsis thaliana) is a dicot weed in the Brassicaceae family. In United Kingdom this weed first evolved resistance to Group 5 (Legacy C1 C2) herbicides in 1988 and infests Railways. Group 5 (Legacy C1 C2) herbicides are known as PSII inhibitors - Serine 264 Binders (Inhbition of Photosynthesis at PSll - Serine 264 Binders ). Research has shown that these particular biotypes are resistant to atrazine and they may be cross-resistant to other Group 5 (Legacy C1 C2) herbicides. The 'Group' letters/numbers that you see throughout this web site refer to the classification of herbicides by their site of action. To see a full list of herbicides and HRAC herbicide classifications click here.

QUIK STATS (last updated Dec 15, 2013 )
Common Name	Mouse-ear Cress
Species	Arabidopsis thaliana
Group	PSII inhibitors - Serine 264 Binders HRAC Group 5 (Legacy C1 C2)
Herbicides	atrazine
Location	United Kingdom, Cambridgeshire
Year	1988
Situation(s)	Railways
Contributors - (Alphabetically)	Pádraic Flood
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NOTES ABOUT THIS BIOTYPE

GENERAL

Pádraic Flood

The original accession was collected from a railway line in England in 1988 by a Prof Paul Williams. Atrazine stopped being sprayed by British rail back in 1992, last year (2012) I happened to be passing by and decided to check if the resistant population was still there. And indeed it was, I was quite excited that even with such a photosynthetic cost the resistance has persisted in the absence of the herbicide for 20 years. I have since returned and sampled more extensively and have found that the resistance has spread over a 60km radius along railway lines. Right now I am writing this up as a chapter in my thesis but plan to return this June and continue sampling with the aim being to identify the source population and chart the spread of the mutation along the railway lines.

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GENERAL

Pádraic Flood

Follow up research on this particular case of resistance has shown that it had a single origin and has spread in excess of 400km along railway tracks and is still abundant in the population in spite of triazines being discontinued since 1992. This shows the lasting potential of herbicide resistance and its potential to have long term effects on genetic diversity in wild populations. Further information can be found here: Flood Pádraic J, van Heerwaarden J, Becker F, de Snoo CB, Harbinson J, Aarts Mark GM (2016) Whole-Genome Hitchhiking on an Organelle Mutation. Current Biology 26: 1306-1311

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MECHANISM

Pádraic Flood

Mohamed E.E., G.C. Rodrigues, J.J.S. van Rensen, J.F.H. Snel, Hans J.H.A. Dassen, M. Koornneef, M.A.K. Jansen, M.G.M. Aarts and D. Vreugdenhil. 2005. Altered photosynthetic performance of a natural Arabidopsis accession is associated with atrazine resistance. Journal of Experimental Botany, Vol. 56, No. 416, pp. 1625–1634.

Abstract

Natural variation for photosynthetic traits was studied by determining chlorophyll fluorescence parameters in a collection of Arabidopsis accessions. This screen revealed only one single accession(Ely),exhibiting photosynthetic characteristics markedly different from all others, while a few lines showed small but significant variation. Detailed genetic and physiological analyses showed reduced fitness for Ely compared with the standard laboratory strain Ler for various growth parameters. At low temperature (15 8C), Ely had a higher electron transport rate than Ler, indicating increased photosystem II efficiency under this condition, while at high temperature (30 8C) the opposite was observed. Ely had a high sensitivity to UV-B radiation compared with Ler and was atrazine resistant. This atrazine-resistance and related chlorophyll fluorescence traits were maternally inherited, pointing towards chloroplast-located gene(s). Definite proof that Ely is atrazine-resistant was obtained by sequencing the psbA gene, encoding the D1 protein of photosystem II, revealing a point mutation causing the same amino acid change as found in other atrazine-resistant species. Additional nuclear encoded genetic variation was also present, as was concluded from the small but significant differences in phenotype between Ely and its reciprocal crosses with Ler. It was concluded that the photosynthetic yield is highly conserved and that only severe selection pressure results in marked variations in photosynthetic performance.

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ACADEMIC ASPECTS

Confirmation Tests

Greenhouse, and Laboratory trials comparing a known susceptible Mouse-ear Cress biotype with this Mouse-ear Cress biotype have been used to confirm resistance. For further information on the tests conducted please contact the local weed scientists that provided this information.

Genetics

Genetic studies on HRAC Group 5 resistant Mouse-ear Cress indicate that the inheritance is determined by a one gene, dominant, cytoplasmic trait. There may be a note below or an article discussing the genetics of this biotype in the Fact Sheets and Other Literature

Mechanism of Resistance

Studies on the mechanism of resistance of Group 5 (Legacy C1 C2) resistant Mouse-ear Cress from United Kingdom indicate that resistance is due to an altered target site. There may be a note below or an article discussing the mechanism of resistance in the Fact Sheets and Other Literature

Relative Fitness

Researchers have indicated that Group 5/C1 C2 resistant Mouse-ear Cress is ecologically less fit than normal susceptible Mouse-ear Cress. There may be a note below or an article discussing the fitness of this biotype in the Fact Sheets and Other Literature

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CONTRIBUTING WEED SCIENTISTS

PÁDRAIC FLOOD

Postdoctoral researcher Max Planck Institute for Plant Breeding Research Carl-von-linne-weg 10 Cologne, 50823, Rhein Germany Email Pádraic Flood

ACKNOWLEDGEMENTS
The Herbicide Resistance Action Committee, The Weed Science Society of America, and weed scientists in United Kingdom have been instrumental in providing you this information. Particular thanks is given to Pádraic Flood for providing detailed information.

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Herbicide Resistant Mouse-ear Cress Globally
(Arabidopsis thaliana)

Country

FirstYear

Situation

Active Ingredients

Site of Action

United Kingdom

1988

Railways

atrazine

PSII inhibitors - Serine 264 Binders ( HRAC Group 5 (Legacy C1 C2)

United States (Virginia)

2015

Wheat

flucarbazone-Na, mesosulfuron-methyl, pyroxsulam, thifensulfuron-methyl, and tribenuron-methyl

Inhibition of Acetolactate Synthase ( HRAC Group 2 (Legacy B)

Literature about Similar Cases

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Pamela Carvalho-Moore, Gulab Rangani, Ana Claudia Langaro, Vibha Srivastava, Aimone Porri, Steven J. Bowe, Jens Lerchl, Nilda Roma-Burgos. 2022. Field-Evolved ∆G210-ppo2 from Palmer Amaranth Confers Pre-emergence Tolerance to PPO-Inhibitors in Rice and Arabidopsis. Genes 13 : 1044 - .

Resistance to protoporphyrinogen IX oxidase (PPO)-inhibitors in Amaranthus palmeri and Amaranthus tuberculatus is mainly contributed by mutations in the PPO enzyme, which renders herbicide molecules ineffective. The deletion of glycine210 (∆G210) is the most predominant PPO mutation. ∆G210-ppo2 is overexpressed in rice (Oryza sativac. ‘Nipponbare’) and Arabidopsis thaliana (Col-0). A foliar assay was conducted on transgenic T1 rice plants with 2× dose of fomesafen(780 g ha−1), showing less injury than the non-transgenic (WT) plants. A soil-based assay conducted with T2 rice seeds confirmed tolerance to fomesafen applied pre-emergence. In agar medium, root growth of WT rice seedlings was inhibited 90% at 5μM fomesafen, while root growth of T2seedlings was inhibited by 50% at 45 μM fomesafen. The presence and expression of the transgene were confirmed in the T2rice survivors of soil-applied fomesafen. A soil-based assay was also conducted with transgenic A. thaliana expressing ∆G210-ppo2 which confirmed tolerance to the pre-emergence application of fomesafen and saflufenacil. The expression of A. palmeri ∆G210-ppo2 successfully conferred tolerance to soil-applied fomesafen in rice and Arabidopsis. This mutant also confers cross-tolerance to saflufenacil in Arabidopsis. This trait could be introduced into high-value crops that lack chemical options for weed management.

https://doi.org/10.3390/genes13061044

Menegat, A., G. C. Bailly, R. Aponte, G. M. T. Heinrich, B. Sievernich, and R. Gerhards. 2016. Acetohydroxyacid synthase (AHAS) amino acid substitution Asp376Glu in Lolium perenne: effect on herbicide efficacy and plant growth.. J Plant Dis Prot DOI 10.1007/s41348-016-0023-2 : .

Recently, the acetohydroxyacid synthase (AHAS) amino acid substitution Asp376Glu was detected in a Lolium perenne population originating in France. This is the first documented occurrence of the Asp376Glu single- nucleotide polymorphism in a Lolium species. The effects on herbicide efficacy and plant fitness are presented. Separation of the original population into different genetic subgroups allowed the comparison of different L. perenne AHAS genotypes according to their susceptibility to AHAS-inhibiting herbicides. Root and shoot biomass accumulation as well as tiller production was analysed for resistant and sensitive populations. Genotype-specific AHAS activity and inhibition were studied in vitro, using recombinant Arabidopsis thaliana DNA. Plants expressing the AHAS Asp376Glu genotype were resistant against mesosulfuron ? iodosulfuron, pyroxsulam and propoxycarbazone. To imazamox, reduced susceptibility for dosages below 140 g a.i. ha-1 was observed. In the absence of herbicide, no significant impact of the Asp376Glu genotype on shoot biomass and tiller accumulation could be observed, whereas root biomass of the Asp376Glu genotype was significantly reduced by 68 % compared to the AHAS genetic wild type. The AHAS enzyme study revealed reduced AHAS enzyme rate of 48 % for the Asp376Glu genotype compared to the AHAS genetic wild type. This study highlights the role of the amino acid exchange on resistance profile against the most relevant AHAS-inhibiting herbicides. First indications were found that fitness of the Asp376Glu genotype is hampered..

Tian YongSheng ; Jin XiaoFen ; Xu Jing ; Han Jing ; Zhao Wei ; Fu XiaoYan ; Peng RiHe ; Wang RongTan ; Yao QuanHong. 2014. Isolation from Proteus mirabilis of a novel class I 5-enopyruvylshikimate-3-phosphate synthase with glyphosate tolerance in transgenic Arabidopsis thaliana. Acta Physiologiae Plantarum 36 : 549 - 554.

Applying the genomic library construction process and colony screening, a novel aroA gene encoding 5-enopyruvylshikimate-3-phosphate synthase from Proteus mirabilis was identified and isolated. Furthermore, the transgenic Arabidopsis with the novel aroA gene was obtained to confirm the potential of the novel aroA gene in developing glyphosate-resistant crops..

Yamato, S. ; Sada, Y. ; Ikeda, H.. 2013. Characterization of acetolactate synthase from sulfonylurea herbicide-resistant Schoenoplectus juncoides. Weed Biology and Management 13 : 104 - 113.

Ten accessions of sulfonylurea-resistant Schoenoplectus juncoides were collected from paddy fields in Japan. In order to characterize acetolactate synthase from sulfonylurea-resistant S. juncoides, acetolactate synthase amino acid substitutions, whole-plant growth inhibition and acetolactate synthase enzyme inhibition were examined. Schoenoplectus juncoides has two acetolactate synthase genes (ALS1 and ALS2). The sulfonylurea-resistant accessions harbored amino acid substitutions at Pro197 or Trp574 in either ALS1 or ALS2 (the amino acid number is standardized to the Arabidopsis thaliana sequence). The whole plants of all the sulfonylurea-resistant accessions showed resistance to imazosulfuron. The resistance level depended on the altered amino acid residues in acetolactate synthase. The acetolactate synthase enzyme that was partially purified from all the sulfonylurea-resistant accessions was less sensitive to imazosulfuron, compared to the susceptible accession, suggesting that the resistance is related to the altered acetolactate synthase enzyme. In addition, the concentration-response inhibition of acetolactate synthase activity by imazosulfuron in the sulfonylurea-resistant accessions was remarkably different with the presence of an amino acid substitution in either ALS1 or ALS2. Furthermore, the concentration-response inhibition of acetolactate synthase activity in the sulfonylurea-resistant accessions with a P197S, P197T or W574L mutation showed a double-sigmoid curve. The regression analysis of enzyme inhibition suggested that the abundance ratio of ALS1 to ALS2 enzymes was approximately 70:30%, with a range of±15%. Taken together, these results suggest that the resistance of sulfonylurea-resistant accessions of S. juncoides is related to altered acetolactate synthase in either ALS1 or ALS2, although the abundance of the altered acetolactate synthase in the plants is different among the sulfonylurea-resistant accessions..

Nakamura, M. ; Buzas, D. M. ; Kato, A. ; Fujita, M. ; Kurata, N. ; Kinoshita, T.. 2013. The role of Arabidopsis thaliana NAR1, a cytosolic iron-sulfur cluster assembly component, in gametophytic gene expression and oxidative stress responses in vegetative tissue. New Phytologist 199 : 925 - 935.

Iron-sulfur proteins have iron-sulfur clusters as a prosthetic group and are responsible for various cellular processes, including general transcriptional regulation, photosynthesis and respiration. The cytosolic iron-sulfur assembly (CIA) pathway of yeast has been shown to be responsible for regulation of iron-sulfur cluster assembly in both the cytosol and the nucleus. However, little is known about the roles of this pathway in multicellular organisms. In a forward genetic screen, we identified an Arabidopsis thaliana mutant with impaired expression of the endosperm-specific gene Flowering Wageningen (FWA). To characterize this mutant, we carried out detailed phenotypic and genetic analyses during reproductive and vegetative development. The mutation affects NAR1, which encodes a homolog of a yeast CIA pathway component. Comparison of embryo development in nar1-3 and other A. thaliana mutants affected in the CIA pathway showed that the embryos aborted at a similar stage, suggesting that this pathway potentially functions in early seed development. Transcriptome analysis of homozygous viable nar1-4 seedlings showed transcriptional repression of a subset of genes involved in 'iron ion transport' and 'response to nitrate'. nar1-4 also exhibited resistance to the herbicide paraquat. Our results indicate that A. thaliana NAR1 has various functions including transcriptional regulation in gametophytes and abiotic stress responses in vegetative tissues..

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