Allelic interactions defining Raphanus raphanistrum AHAS resistance level: strong vs weak target-site AHAS resistance alleles

IF 3.8 1区农林科学 Q1 AGRONOMY Pest Management Science Pub Date : 2024-10-16 DOI:10.1002/ps.8471

Mercedes Gil, Federico Garcia, Gabriela Breccia, Ana C. Ochogavía, Graciela Nestares, Pedro E. Gundel, Heping Han, Qin Yu, Stephen B. Powles, Martin Vila-Aiub

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Abstract

BACKGROUND

Chlorsulfuron resistance and genetic dominance was evaluated in Raphanus raphanistrum genotypes homozygous (122-RR, 376-RR), heterozygous (122-RS, 376-RS) and compound heterozygous (122-R/376-R) for the target-site resistance mutations Ala-122-Tyr and Asp-376-Glu in the AHAS (acetohydroxyacid synthase) gene.

RESULTS

At the AHAS level, 122-RR and 122-RS plants exhibited significantly higher I₅₀ values than 376-RR and 376-RS plants, respectively. However, plants of the compound heterozygous genotype (122-R/376-R), showed no difference in AHAS activity compared to the 122-RS genotype but lower activity than the 122-RR genotype, and showed a nearly 400-fold greater I₅₀ value than both genotypes (376-RR and 376-RS) carrying the 376-Glu allele. At the whole-plant level, 100% survival was observed for 122-RR plants at the highest chlorsulfuron dose of 640 g ha⁻¹, yet 376-RR plants showed no survival at 380 g ha⁻¹. Thus, this survival difference resulted in different median lethal dose (LD₅₀) estimates [>640 (122-RR) versus 330 g ha⁻¹(376-RR)]. The effect of chlorsulfuron in reducing aboveground growth of surviving plants also was markedly lower for the homozygous 122-RR (GR₅₀ = 566 g ha⁻¹) than for 376-RR plants (GR₅₀ = 66). Heterozygous plants carrying the 122-Tyr allele (122-RS) exhibited two- and five-fold higher LD₅₀ values than both homozygous and heterozygous plants carrying the 376-Glu allele (376-RR, 376-RS), respectively. Along the difference in plant survival, 122-RS plants also showed four-fold higher GR₅₀ than both 376-RR and 376-RS plants. Survival of plants with the compound heterozygous genotype (122-R/376-R) under increasing chlorsulfuron doses was similar to 122-RR or 122-RS genotypes. However, this compound heterozygous genotype showed two- and six-fold higher LD₅₀ values than 376-RR or 376-RS genotypes, respectively. However, both resistance 122-Tyr and 376-Glu alleles were dominant or nearly dominant over the wild-type susceptible alleles (ALA-122 and ASP-376), and the resistance 122-Tyr allele was dominant over the 376-Glu allele.

CONCLUSIONS

These results broaden our understanding of AHAS target-site resistance in R. raphanistrum and strengthens the hypothesis that the AHAS 122-Tyr allele corresponds to a stronger target-site resistance allele than the 376-Glu allele. © 2024 Society of Chemical Industry.

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确定 Raphanus raphanistrum AHAS 抗性水平的等位基因相互作用：强目标位点 AHAS 抗性等位基因与弱目标位点 AHAS 抗性等位基因的比较

对AHAS（乙酰羟基酸合成酶）基因中靶点抗性突变Ala-122-Tyr和Asp-376-Glu的Raphanus raphanistrum基因型（122-RR、376-RR）、杂合子（122-RS、376-RS）和复合杂合子（122-R/376-R）的氯磺隆抗性和遗传优势进行了评估。

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来源期刊

Pest Management Science 农林科学-昆虫学

CiteScore

7.90

自引率

9.80%

发文量

553

审稿时长

4.8 months

期刊介绍： Pest Management Science is the international journal of research and development in crop protection and pest control. Since its launch in 1970, the journal has become the premier forum for papers on the discovery, application, and impact on the environment of products and strategies designed for pest management. Published for SCI by John Wiley & Sons Ltd.