首页|期刊导航|中国中药杂志|代谢组联合转录组分析探讨不同品种菊花萜类成分差异形成机制

代谢组联合转录组分析探讨不同品种菊花萜类成分差异形成机制OA

Mechanism of differences in terpenoids bewteen different varieties of Chrysanthemi Flos by integrated metabolomics and transcriptomcis analyses

中文摘要英文摘要

探究不同品种菊花中萜类成分差异及其积累的分子机制,为解析不同品种菊花口感风味及功效差异的物质基础提供依据.通过代谢组学分析 2 种菊花的次生代谢产物,结合转录组数据挖掘关键基因,利用实时荧光定量聚合酶链式反应(qRT-PCR)验证基因表达情况.通过代谢组学分析,在杭菊、怀菊中共鉴定了 21 个萜类相关差异代谢物,包括桉油精、樟脑、γ-松油烯、α-松油醇等;转录组学分析共获得了 21 个与萜类合成相关的差异基因;相关性分析表明 10 个基因与怀菊中多个高积累的萜类差异代谢物呈显著正相关.qRT-PCR 验证结果显示,选取的 8 个参与萜类合成的酶基因在杭菊和怀菊中表达趋势与转录组测序结果一致.该研究解析了杭菊和怀菊中萜类成分差异及其积累的机制,揭示了两者口感风味和疏风清热功效差异的物质基础,为阐明关键酶基因对差异萜类成分的调控奠定基础,为菊花种质资源改良与高值化利用提供重要依据.

This study compared the terpenoids among different varieties of Chrysanthemi Flos and explored the molecular mechanisms underlying their accumulation,aiming to provide a basis for elucidating the material basis responsible for the differences in taste,flavor,and efficacy among different varieties.Secondary metabolites of two Chrysanthemi Flos varieties—"Hangju"and"Huaiju"—were analyzed by metabolomics.Key genes were identified from the transcriptome data,and gene expression levels were determined by qRT-PCR.A total of 21 terpenoid-related differential metabolites were identified in"Hangju"and"Huaiju"via metabolomics analysis,including eucalyptol,camphor,γ-terpinene,and α-terpineol.Transcriptomics analysis yielded 21 differentially expressed genes associated with terpenoid biosynthesis.Correlation analysis revealed that ten genes had significantly positive correlations with multiple highly accumulated differential terpenoids in"Huaiju".The qRT-PCR validation showed that the expression trends of the eight enzyme genes involved in terpenoid biosynthesis were consistent with those obtained from transcriptome sequencing in"Hangju"and"Huaiju".This study elucidates the differences in terpenoids and their accumulation mechanisms between the two varieties.It lays a foundation for further revealing the material basis underlying the differences in taste,flavor,and the wind-dispersing and heat-clearing efficacy of the two varieties,as well as for clarifying the regulation of key enzyme genes on differential terpenoids.The results provide a reference for the genetic improvement and high-value utilization of Chrysanthemi Flos germplasm resources.

李志洁;杨丹;王星文;陈竹荫;程慧婷;师玉华;陈莎;朱晶晶;王智民

中国中医科学院 中药研究所,北京 100700中国中医科学院 中药研究所,北京 100700中国中医科学院 中药研究所,北京 100700中国中医科学院 中药研究所,北京 100700中国中医科学院 中药研究所,北京 100700||安徽中医药大学,安徽 合肥 230012中国中医科学院 中药研究所,北京 100700中国中医科学院 中药研究所,北京 100700中国中医科学院 中药研究所,北京 100700中国中医科学院 中药研究所,北京 100700

菊花萜类合成基因代谢组转录组

Chrysanthemi Flosgenes involved in terpenoid biosynthesismetabolometranscriptome

《中国中药杂志》 2026 (9)

2506-2514,9

国家自然科学基金项目(82474076)国家重点研发计划项目(2023YFC3504000,2024YFC3506600)北京市自然科学基金项目(7242248)

10.19540/j.cnki.cjcmm.20260305.401

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