Decoding Flavonoid Metabolism for Nutritional Enhancement: A Transcriptome–Metabolome Integration Study of Biosynthesis in Edible <i>Chrysanthemum indicum</i> L.

Decoding Flavonoid Metabolism for Nutritional Enhancement: A Transcriptome–Metabolome Integration Study of Biosynthesis in Edible <i>Chrysanthemum indicum</i> L.

<i>Chrysanthemum indicum</i> L. is characterized by a high concentration of flavonoid compounds, which exert multifaceted influences on the organoleptic properties, chromatic stability, and therapeutic efficacy of capitulum-derived extracts. These components exhibit diverse biological ac...

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Bibliographic Details
Main Authors: Chengxiang Wang, Yong Su, Min Wei, Qiaosheng Guo, Qingjun Zou, Tao Wang
Format: Article
Language:English
Published: MDPI AG 2025-05-01
Series:Foods
Subjects:
<i>Chrysanthemum indicum</i> L.
flavonoids
transcriptome
metabolome
Online Access:https://www.mdpi.com/2304-8158/14/11/1896
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Summary:<i>Chrysanthemum indicum</i> L. is characterized by a high concentration of flavonoid compounds, which exert multifaceted influences on the organoleptic properties, chromatic stability, and therapeutic efficacy of capitulum-derived extracts. These components exhibit diverse biological activities, including heat-clearing, antibacterial, and hepatoprotective properties. A novel white <i>C. indicum</i> variant lacking linarin was recently identified, but its metabolic and transcriptional differences from traditional yellow varieties remain unclear. This study compared flavonoid metabolism in white mutant (BHYJ) and yellow (HJ06) varieties through integrated metabolomic and transcriptomic analyses. Metabolomics identified 491 flavonoids, revealing distinct accumulation patterns: BHYJ accumulated dihydroflavones/chalcones (eriodictyol, hesperetin-8-<i>C</i>-glucoside-3′-<i>O</i>-glucoside, naringenin chalcone), while HJ06 showed higher flavones/flavonols (linarin, rhoiflolin, vitexin, rutin, nicotiflorin). Transcriptomics identified 43 differentially expressed enzyme genes, with key regulators <i>FNSII</i>, <i>F3′H</i>, and <i>F3H</i> showing expression patterns correlating with metabolite profiles. Integrated analysis revealed metabolic divergence at the naringenin node: BHYJ produced less naringenin than HJ06 and preferentially channeled it toward eriodictyol synthesis rather than linarin production. This metabolic shift explains the reduced linarin accumulation in BHYJ. Experimental validation confirmed the coordinated expression patterns of key enzymes. These findings provide foundational insights into transcriptional regulation of flavonoid divergence in pigmented <i>C. indicum</i> varieties, establishing a framework for elucidating enzymatic control of flavonoid biosynthesis in capitulum development.
ISSN:2304-8158

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