糖生物碱
代谢组
转录组
代谢物
脱落酸
次生代谢
生物化学
代谢途径
茉莉酸
代谢组学
生物
生物合成
新陈代谢
植物激素
赤霉素
基因
基因表达
植物
茄科
生物信息学
作者
Dan‐Dan Shen,Yingpeng Hua,Jinyong Huang,Shuting Yu,Tai-bo Wu,Yannning Zhang,Chen HuanLi,Caipeng Yue
标识
DOI:10.1021/acs.jafc.1c06867
摘要
Steroidal glycoalkaloids (SGAs) present in germinated potato tubers are toxic; however, the mechanisms underlying SGA metabolism are poorly understood. Therefore, integrated transcriptome, metabolome, and hormone analyses were performed in this study to identify and characterize the key regulatory genes, metabolites, and phytohormones related to glycoalkaloid regulation. Based on transcriptome sequencing of bud eyes of germinated and dormant potato tubers, a total of 6260 differentially expressed genes were identified, which were mainly responsible for phytohormone signal transduction, carbohydrate metabolism, and secondary metabolite biosynthesis. Two TCP14 genes were identified as the core transcription factors that potentially regulate SGA synthesis. Metabolite analysis indicated that 149 significantly different metabolites were detected, and they were enriched in metabolic and biosynthetic pathways of secondary metabolites. In these pathways, the α-solanine content was increased and the expression of genes related to glycoalkaloid biosynthesis was upregulated. Levels of gibberellin and jasmonic acid were increased, whereas that of abscisic acid was decreased. This study lays a foundation for investigating the biosynthesis and regulation of SGAs and provides the reference for the production and consumption of potato tubers.
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