Integrated transcriptomics and metabolomics analysis provide insight into the resistance response of rice against brown planthopper

褐飞虱 转录组 代谢组学 苯丙素 生物 植物激素 代谢途径 茉莉酸 类黄酮生物合成 基因 生物合成 莽草酸途径 信号转导 初级代谢物 生物化学 代谢物 基因表达 生物信息学
作者
Shaojie Shi,Wenjun Zha,Xiang Yu,Yan Wu,Sanhe Li,Huashan Xu,Peide Li,Xinxin Yan,Kai Liu,Junxiao Chen,Guocai Yang,Zhijun Chen,Bing‐Fei Wu,Biao Wan,Kai Liu,Lei Zhou,Aiqing You
出处
期刊:Frontiers in Plant Science [Frontiers Media]
卷期号:14 被引量:6
标识
DOI:10.3389/fpls.2023.1213257
摘要

The brown planthopper (Nilaparvata lugens Stål, BPH) is one of the most economically significant pests of rice. The Bph30 gene has been successfully cloned and conferred rice with broad-spectrum resistance to BPH. However, the molecular mechanisms by which Bph30 enhances resistance to BPH remain poorly understood.Here, we conducted a transcriptomic and metabolomic analysis of Bph30-transgenic (BPH30T) and BPH-susceptible Nipponbare plants to elucidate the response of Bph30 to BPH infestation.Transcriptomic analyses revealed that the pathway of plant hormone signal transduction enriched exclusively in Nipponbare, and the greatest number of differentially expressed genes (DEGs) were involved in indole 3-acetic acid (IAA) signal transduction. Analysis of differentially accumulated metabolites (DAMs) revealed that DAMs involved in the amino acids and derivatives category were down-regulated in BPH30T plants following BPH feeding, and the great majority of DAMs in flavonoids category displayed the trend of increasing in BPH30T plants; the opposite pattern was observed in Nipponbare plants. Combined transcriptomics and metabolomics analysis revealed that the pathways of amino acids biosynthesis, plant hormone signal transduction, phenylpropanoid biosynthesis and flavonoid biosynthesis were enriched. The content of IAA significantly decreased in BPH30T plants following BPH feeding, and the content of IAA remained unchanged in Nipponbare. The exogenous application of IAA weakened the BPH resistance conferred by Bph30.Our results indicated that Bph30 might coordinate the movement of primary and secondary metabolites and hormones in plants via the shikimate pathway to enhance the resistance of rice to BPH. Our results have important reference significance for the resistance mechanisms analysis and the efficient utilization of major BPH-resistance genes.

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