Mutations in the acetolactate synthase (ALS) enzyme affect shattercane (Sorghum bicolor) response to ALS-inhibiting herbicides.

IF 2.7 3区 生物学 Hereditas Pub Date : 2023-06-21 DOI:10.1186/s41065-023-00291-y
Ismail M Dweikat, Malleswari Gelli, Mark Bernards, Alex Martin, Amit Jhala
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引用次数: 1

Abstract

Background: Shattercane [Sorghum bicolor (L.) Moench ssp. Arundinaceum (Desv.)] is a competitive weed in North America's corn, soybean, sorghum, and other agronomic crops. Control of shattercane with POST herbicides in corn became possible with the introduction of acetolactate synthase (ALS)-inhibiting herbicides in the 1980s, and their extensive use resulted in the evolution of ALS-inhibitors resistant shattercane.

Results: Shattercane seeds were collected from 16 south-eastern and south-central Nebraska fields that were treated with primisulfuron for three consecutive years. Three resistant plants were found in greenhouse evaluations of more than 30,000 plants. Results from a greenhouse bioassay conducted to assess the response of each shattercane biotype to ALS-inhibiting herbicides showed a differential response to ALS inhibitors within and between chemical classes. Biotype P8-30 was resistant or partially resistant to all ALS-inhibiting herbicides applied and displayed a unique amino acid sequence substitution (Trp574 to Leu) relative to the other two resistant biotypes, P2-205 and P9-102. Whole plant dose-response studies confirmed a 4- to the 12-fold level of primisulfuron resistance in three shattercane biotypes compared with the known primisulfuron-susceptible shattercane biotype. The ALS gene was sequenced using primers designed from the corn ALS sequence to identify mutations in the ALS gene that confer resistance. A total of seven nucleotide substitutions were detected in the three herbicide-resistant biotypes P2-205, P8-30, and P9-102. These biotypes are being crossed to adapted sorghum lines (grain, sweet, and forage) to broaden germplasm with resistance to ALS-inhibiting herbicides.

Conclusion: The discovery of these mutants should accelerate the development of sorghum genotypes that tolerate ALS-based herbicides, which provide additional choices for sorghum farmers to control weeds, especially grasses, in their fields.

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乙酰乳酸合成酶(ALS)酶的突变影响高粱对ALS抑制除草剂的反应。
背景:高粱双色(L.)Moench ssp。是北美玉米、大豆、高粱和其他农作物中的一种竞争性杂草。随着20世纪80年代乙酰乳酸合成酶(acetolactate synthase, ALS)抑制除草剂的引入,POST除草剂在玉米中控制玉米花成为可能,它们的广泛使用导致了玉米花抗ALS抑制剂的进化。结果:内布拉斯加州东南部和中南部16块连续3年施用磺胺呋虫酮的田中,采集到细藤种子。在对3万多株植物的温室评估中发现了3种抗性植物。温室生物测定的结果表明,不同化学类型的禾草对ALS抑制剂的反应不同。生物型P8-30对所有抗als除草剂均具有抗性或部分抗性,且与其他2种生物型P2-205和P9-102相比,具有独特的氨基酸序列替换(Trp574到Leu)。全株剂量反应研究证实,与已知的易受嘧磺隆影响的嘧磺隆生物型相比,三种嘧磺隆生物型对嘧磺隆的抗性水平为4- 12倍。利用从玉米ALS序列设计的引物对ALS基因进行测序,以确定ALS基因中赋予抗性的突变。在3个抗除草剂生物型P2-205、P8-30和P9-102中共检测到7个核苷酸取代。这些生物型正被杂交到适应高粱品系(谷物、甜高粱和饲草)上,以扩大具有抗als抑制除草剂的种质资源。结论:这些突变体的发现将加速耐受als除草剂的高粱基因型的开发,为高粱农民控制农田杂草,特别是禾草提供额外的选择。
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来源期刊
Hereditas
Hereditas Biochemistry, Genetics and Molecular Biology-Genetics
CiteScore
3.80
自引率
3.70%
发文量
0
期刊介绍: For almost a century, Hereditas has published original cutting-edge research and reviews. As the Official journal of the Mendelian Society of Lund, the journal welcomes research from across all areas of genetics and genomics. Topics of interest include human and medical genetics, animal and plant genetics, microbial genetics, agriculture and bioinformatics.
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