Integrated Transcriptome and Metabolome Analyses Reveal Details of the Molecular Regulation of Resistance to Stem Nematode in Sweet Potato
文献类型: 外文期刊
作者: Qiao, Shouchen 1 ; Ma, Jukui 2 ; Wang, Yannan 1 ; Chen, Jingwei 2 ; Kang, Zhihe 1 ; Bian, Qianqian 1 ; Chen, Jinjin 1 ; Yin, Yumeng 1 ; Cao, Guozheng 1 ; Zhao, Guorui 1 ; Yang, Guohong 1 ; Sun, Houjun 2 ; Yang, Yufeng 1 ;
作者机构: 1.Henan Acad Agr Sci, Cereal Crop Res Inst, Zhengzhou 450002, Peoples R China
2.Xuzhou Inst Agr Sci Jiangsu Xuhuai Area, Xuzhou 221000, Peoples R China
关键词: sweet potato; stem nematode; transcriptome; metabolome; ethylene; secondary metabolites; resistance pathway
期刊名称:PLANTS-BASEL ( 影响因子:4.5; 五年影响因子:4.8 )
ISSN:
年卷期: 2023 年 12 卷 10 期
页码:
收录情况: SCI
摘要: Stem nematode disease can seriously reduce the yield of sweet potato (Ipomoea batatas (L.) Lam). To explore resistance mechanism to stem nematode in sweet potato, transcriptomes and metabolomes were sequenced and compared between two sweet potato cultivars, the resistant Zhenghong 22 and susceptible Longshu 9, at different times after stem nematode infection. In the transcriptional regulatory pathway, mitogen-activated protein kinase signaling was initiated in Zhenghong 22 at the early stage of infection to activate genes related to ethylene production. Stem nematode infection in Zhenghong 22 also triggered fatty acid metabolism and the activity of respiratory burst oxidase in the metabolic pathway, which further stimulated the glycolytic and shikimic pathways to provide raw materials for secondary metabolite biosynthesis. An integrated analysis of the secondary metabolic regulation pathway in the resistant cultivar Zhenghong 22 revealed the accumulation of tryptophan, phenylalanine, and tyrosine, leading to increased biosynthesis of phenylpropanoids and salicylic acid and enhanced activity of the alkaloid pathway. Stem nematode infection also activated the biosynthesis of terpenoids, abscisic acid, zeatin, indole, and brassinosteroid, resulting in improved resistance to stem nematode. Finally, analyses of the resistance regulation pathway and a weighted gene co-expression network analysis highlighted the importance of the genes itf14g17940 and itf12g18840, encoding a leucine-rich receptor-like protein and 1-aminocyclopropane-1-carboxylate synthase, respectively. These are candidate target genes for increasing the strength of the defense response. These results provide new ideas and a theoretical basis for understanding the mechanism of resistance to stem nematode in sweet potato.
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