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INTERNATIONAL HERBICIDE-RESISTANT WEED DATABASE
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WILD RADISH
(
Raphanus raphanistrum
)
with
GROUP B/2 resistance: (INHIBITION OF ACETOLACTATE SYNTHASE )
Inhibition of Acetolactate Synthase
MUTATION: TRYPTOPHAN 574 to LEUCINE
Wild Radish
(
Raphanus raphanistrum
) is a dicot plant in the brassicaceae family. A single amino acid substitution from Tryptophan 574 to Leucine has led to resistance to Inhibition of Acetolactate Synthase as indicated in the table below.
Wild Radish
Chemical Family
Example Herbicide
Resistance Level
Imidazolinones
Imazethapyr
Not Determined
Pyrimidinyl benzoates
Bispyribac-Na
Not Determined
Sulfonylureas
Chlorsulfuron
Not Determined
Triazolopyrimidine - Type 1
Chloransulam-methyl
Not Determined
Triazolinones
Flucarbazone-Na
Not Determined
NOTE
The population from which the biotype was obtained was reported to be resisant to sulfonylurea herbicides.
REFERENCES
Yu, Q. ; Han, H. ; Li, M. ; Purba, E. ; Walsh, M. J. ; Powles, S. B.
.
2012
.
Resistance evaluation for herbicide resistance-endowing acetolactate synthase (ALS) gene mutations using
Raphanus raphanistrum
populations homozygous for specific ALS mutations
.
Weed Research (Oxford)
52
:
178 - 186
.
Acetolactate synthase (ALS)-inhibiting herbicide resistance is common in
Raphanus raphanistrum
(wild radish) populations across the Western Australian (WA) grain belt. This study investigates the molecular and biochemical basis of ALS herbicide resistance in five
R. raphanistrum
populations. Five known ALS herbicide resistance-endowing mutations (Pro-197-Ala, Pro-197-Thr, Pro-197-Ser, Asp-376-Glu and Trp-574-Leu) were identified, and their resistance spectrum to ALS-inhibiting herbicides was determined using purified populations individually homozygous for each mutation (except for Pro-197-Ala). Plants homozygous for ALS mutations at Pro-197 were found to be cross-resistant to ALS-inhibiting sulfonylurea (SU) and triazolopyrimidine (TP) herbicides, while plants homozygous for Trp-574-Leu were resistant to SU, TP and imidazolinone (IMI) ALS herbicide classes. The Asp-376-Glu mutation is reported here for the first time in
R. raphanistrum
populations and characterised at both the whole-plant and enzyme level. Plants homozygous for Asp-376-Glu were highly resistant to SU and TP herbicides, based on LD
50
R/S ratios (>130 and 128 respectively) and I
50
R/S ratios (170 and >110 respectively). In contrast, these plants were moderately resistant to the IMI imazamox (LD
50
R/S ratio of 8, I
50
R/S ratio of 3) and imazethapyr (I
50
R/S ratio of 8) and susceptible to imazapyr (I
50
R/S ratio of 0.76). A novel observation in this study is that resistance of homozygous Glu-376 plants is associated with a remarkable growth reduction in the presence of the ALS herbicides tested, making early resistance diagnosis and management difficult.
.
Tan, M. K. ; Medd, R. W.
.
2002
.
Characterisation of the acetolactate synthase (ALS) gene of
Raphanus raphanistrum
L. and the molecular assay of mutations associated with herbicide resistance
.
Plant Science
163
:
195 - 205
.
The coding sequence of the entire acetolactate synthase (ALS) gene of wild radish (
R. raphanistrum
) was determined to be 1758 bp. Twelve ALS coding sequences were generated from representative populations collected from different geographical regions in Australia and consisted of populations that were either resistant or susceptible to ALS-inhibiting herbicides. Comparative analysis of the ALS gene sequences identified 81 base polymorphisms, 74 of which were neutral resulting in no amino acid change. There were seven loci where base changes resulted in amino acid substitutions in the gene. Five of these occurred randomly amongst the susceptible and resistant
R. raphanistrum
populations. Two of these five base polymorphisms were adjacent and accounted for three possible amino acids at the loci, indicating there are at least three alleles of the ALS gene in
R. raphanistrum
. The remaining two base mutations were observed only in the herbicide resistant populations. Three of the four resistant populations examined had a mutation, which disrupted the Pro codon in Domain A, a conserved region widely reported as conferring resistance to sulfonylurea herbicides in many weeds. The fourth herbicide resistant population had a mutation that caused a Trp->Leu substitution in Domain B. Studies have shown that this single point mutation endows a broad resistance to all four classes of ALS-inhibiting herbicides. An important aspect of our work was the development of molecular diagnostic assays for rapid screening of the pivotal mutations in Domains A and B in natural populations. Not every plant in the resistant, natural populations had the associated mutations, and some plants were heterozygotes for the resistant ALS gene allele characterized.
.
This case was entered by Patrick Tranel Email:
tranel@illinois.edu
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PERMISSION MUST BE OBTAINED FIRST if you intend to base a significant portion of a scientific paper on data derived from this site. Citation:
Heap, I. The International Herbicide-Resistant Weed Database. Online.
Monday, December 30, 2024
. Available
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