Comparative Metabolomic and Transcriptomic Analyses Uncover Variation in Pigment Accumulation Profiles in <i>Alpinia hainanensis</i> Bracts

Comparative Metabolomic and Transcriptomic Analyses Uncover Variation in Pigment Accumulation Profiles in <i>Alpinia hainanensis</i> Bracts

<i>Alpinia hainanensis</i> is a famous flowering herbaceous plant with valuable ornamental value that is distinguished by its brightly colored labellum. <i>A. hainanensis</i> ‘Shengzhen’ has been identified to possess a novel ornamental feature: its inflorescence is adorned w...

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Bibliographic Details
Main Authors: Tong Zhao, Qianxia Yu, Huanfang Liu, Zehong Wei
Format: Article
Language:English
Published: MDPI AG 2025-03-01
Series:Horticulturae
Subjects:
<i>Alpinia hainanensis</i>
anthocyanins
bract coloration
flavonoids
metabolomic profiling
transcriptomic analysis
Online Access:https://www.mdpi.com/2311-7524/11/3/266
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Summary:<i>Alpinia hainanensis</i> is a famous flowering herbaceous plant with valuable ornamental value that is distinguished by its brightly colored labellum. <i>A. hainanensis</i> ‘Shengzhen’ has been identified to possess a novel ornamental feature: its inflorescence is adorned with charming pink bracts. Although flavonoids are recognized as the primary pigments that color most flowers, the role of their metabolic pathways in shaping the bract color of <i>A. hainanensis</i> ‘Shengzhen’ has not yet been fully explored. This research performed transcriptomic and metabolomic analyses on the floral bracts of both wild-type (white bract) and ‘Shengzhen’ cultivar (pink bract) of <i>A. hainanensis</i>. The results identified 565 flavonoid metabolites, including 19 anthocyanins. The ‘Shengzhen’ cultivar showed a higher accumulation of 17 anthocyanins (seven cyanidins, two delphinidins, one pelargonidin, three peonidins, and four petunidins) compared to the wild type. A combined transcriptomic and metabonomic investigation revealed significant links between four differentially expressed genes and seven anthocyanins. The key genes responsible for flavonoid and anthocyanin synthesis, such as <i>AhPAL</i>, <i>AhC4H</i>, <i>AhCHI</i>, <i>AhF3H</i>, <i>AhDFR</i>, <i>AhFLS</i>, and <i>AhF3′5′H</i>, were further analyzed to explain the differences in pigmentation. This study offers a fresh perspective on anthocyanin accumulation in <i>Alpinia</i>, paving the way for future flower color breeding efforts in the genus.
ISSN:2311-7524

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