Multi-omics analysis of the metabolic and transcriptional regulatory mechanisms underlying strontium-induced anthocyanin accumulation in fresh purple maize
Zhao Binhan, Pu Rumin, Mei Yuqin, Rui Lin, Deng Hanyu, Zhou Wenhao, Xiang Wenqi, Liu Mao, Wei Chengzhi, Lu Yanli, Wang Qingjun, Li Jingwei, Rui Tijiang, Li Jizhang, Lin Haijian

TL;DR
This study shows how strontium boosts anthocyanin levels in purple corn, offering a way to improve its nutrition and health benefits.
Contribution
The first systematic multi-omics analysis of strontium's role in promoting anthocyanin synthesis in purple corn.
Findings
Strontium treatment significantly increased anthocyanin content in purple corn kernels.
Strontium activates specific genes and enhances key metabolites involved in anthocyanin synthesis.
Strontium suppresses competing pathways to optimize glycosylation donor allocation.
Abstract
Fresh purple corn (Zea mays L.) is rich in anthocyanins, and enhancing its anthocyanin content is crucial for improving its nutritional profile and commercial appeal. Strontium (Sr), an essential human micronutrient involved in physiological processes such as bone formation, exhibits low dietary bioavailability, making the consumption of Sr-enriched agricultural products a critical route for Sr supplementation. Given the biphasic effect of strontium on plant growth, characterized by low-dose stimulation and high-dose inhibition, elucidating its regulatory mechanism in fresh purple corn anthocyanin biosynthesis and breeding cultivars with dual high strontium and anthocyanin traits represents a biofortification strategy with considerable application potential. In this study, a pot experiment was conducted with fresh purple corn, and the anthocyanin and strontium contents in the kernels…
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Taxonomy
TopicsPlant Gene Expression Analysis · Plant nutrient uptake and metabolism · Plant Molecular Biology Research
