Identification and knockout of a herbivore susceptibility gene enhances planthopper resistance and increases rice yield

IF 23.6 Q1 FOOD SCIENCE & TECHNOLOGY
Peng Kuai, Na Lin, Miaofen Ye, Meng Ye, Lin Chen, Shuting Chen, Hongyue Zu, Lingfei Hu, Angharad M. R. Gatehouse, Yonggen Lou
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Abstract

Brown planthoppers (Nilaparvata lugens) and white-backed planthoppers (Sogatella furcifera) are among the most destructive pests on rice. However, plant susceptibility genes have not yet been exploited for crop protection. Here we identified a leucine-rich repeat protein, OsLRR2, from susceptible rice varieties that facilitates infestation by brown planthopper N. lugens. Field trials showed that knockout of OsLRR2 significantly reduced BPH infestation and enhanced natural biological control by attracting natural enemies. Yield of a susceptible variety was increased by 18% in insecticide-treated plots that eliminated planthoppers and by 25% in untreated plots. These findings underscore the pivotal role of OsLRR2, offering a promising pathway for pest population suppression and rice yield increase. Planthoppers are among the most destructive pests on rice. This study identified that a leucine-rich repeat protein OsLRR2 negatively regulates defence responses. Knockout of the encoding gene OsLRR2 enhances rice herbivore resistance and yield, which holds the potential to produce high-yielding rice varieties that are resistant to devastating pest insects.

Abstract Image

Abstract Image

鉴定并敲除食草动物易感基因,增强稻飞虱抗性并提高水稻产量
褐跳甲(Nilaparvata lugens)和白背跳甲(Sogatella furcifera)是水稻上最具破坏性的害虫之一。然而,植物易感基因尚未被用于作物保护。在这里,我们从易感水稻品种中发现了一种富亮氨酸重复蛋白 OsLRR2,它能促进褐跳甲 N. lugens 的侵染。田间试验表明,敲除 OsLRR2 能显著减少褐飞虱的侵扰,并通过吸引天敌加强自然生物防治。在经过杀虫剂处理并消灭了褐飞虱的地块上,易感品种的产量提高了 18%,而在未经处理的地块上,易感品种的产量提高了 25%。这些发现强调了 OsLRR2 的关键作用,为抑制害虫数量和提高水稻产量提供了一条很有前景的途径。
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CiteScore
28.50
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