花青素
生物
转录组
遗传学
基因
表型
遗传变异
植物
栽培
植物化学
种间竞争
植物生理学
拟南芥
表型可塑性
基因表达
代谢途径
代谢组学
计算生物学
利基
天竺葵苷
系统发育树
类黄酮
遗传多样性
作者
Yiming Liu,Xiaoying Xu,Chunlei Ma,Jianqiang Ma,Jiedan Chen,Yao MingZhe,Hualing Wu,Jiqiang Jin,Xuecheng Zhao,Liang Chen
出处
期刊:Plant Journal
[Wiley]
日期:2026-02-01
卷期号:125 (4): e70741-e70741
被引量:1
摘要
Anthocyanins, a ubiquitous class of water-soluble phytochemicals renowned for their chromatic diversity and potent bioactivity, are integral to the phenotypic and metabolic plasticity of higher plants. Using an integrative multi-omics approach that combines transcriptomic and metabolomic profiling, we identified anthocyanin synthase (CsANS1) as the key genetic determinant responsible for interspecific variation in anthocyanin accumulation among tea plants. Architectural comparison of promoter regions revealed a 192-bp variation insertion in the CsANS1 cis-regulatory region with potential functional significance. This insertion was strictly conserved in anthocyanin-rich (purple-leaf) cultivars, including both natural and hybrid genotypes, but entirely missing in anthocyanin-deficient (green-leaf) cultivars. Dual-luciferase assays confirmed that this insertion enhances promoter activity. Additionally, we delineated a tripartite regulatory axis comprising CsmiR156b, CsSPL9, and CsMYB75 which orchestrates the spatiotemporal modulation of CsANS1 expression and, consequently, anthocyanin biosynthesis. Collectively, these findings provide a mechanistic paradigm for anthocyanin polymorphism in tea plants, implicating both cis-regulatory evolution and transcriptional network synergy as pivotal drivers of phytochemical diversification.
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