Integrated Transcriptomic and Metabolomic analysis reveals a transcriptional regulation network for the biosynthesis of carotenoids and flavonoids in 'Cara cara' navel Orange

Carotenoids and flavonoids are important secondary metabolites in plants, which exert multiple bioactivities and benefits to human health. Although the genes that encode carotenogenesis and flavonoid biosynthetic enzymes are well characterized, the transcriptional regulatory mechanisms that are rela...

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Published in:BMC plant biology 2021-01, Vol.21 (1), p.29-29, Article 29
Main Authors: Zhang, Haipeng, Chen, Jiajing, Peng, Zhaoxin, Shi, Meiyan, Liu, Xiao, Wen, Huan, Jiang, Youwu, Cheng, Yunjiang, Xu, Juan, Zhang, Hongyan
Format: Article
Language:English
Subjects:
4-Coumarate-CoA ligase
Accumulation
Agricultural research
Ammonia
Bioflavonoids
Biosynthesis
Cancer
Carotenoid
Carotenoids
Chalcone isomerase
Chalcone synthase
Citrus
Citrus fruits
Enzymes
Flavones
Flavonoid
Flavonoids
Fruits
Gene expression
Gene regulation
Genes
Genetic aspects
Genetic regulation
Genetic transcription
Lignin
Lycopene
Metabolites
Metabolomics
Oranges
Phenylalanine
Phenylalanine ammonia-lyase
Physiological aspects
Phytoene synthase
Promoters
Reductoisomerase
Regulators
Regulatory mechanisms (biology)
Secondary metabolites
Transcription factor
Transcription factors
Transcriptome
Xylulose
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Summary:Carotenoids and flavonoids are important secondary metabolites in plants, which exert multiple bioactivities and benefits to human health. Although the genes that encode carotenogenesis and flavonoid biosynthetic enzymes are well characterized, the transcriptional regulatory mechanisms that are related to the pathway genes remain to be investigated. In this study, 'Cara cara' navel orange (CNO) fruit at four development stages were used to identify the key genes and TFs for carotenoids and flavonoids accumulation. In this study, CNO was used to investigate the profiles of carotenoids and flavonoids by a combination of metabolomic and transcriptomic analyses. The important stage for the accumulation of the major carotenoid, lycopene was found to be at 120 days after florescence (DAF). The transcripts of five carotenogenesis genes were highly correlated with lycopene contents, and 16, 40, 48, 24 and 18 transcription factors (TFs) were predicted to potentially bind 1-deoxy-D-xylulose-5-phosphate synthase (DXS1), deoxyxylulose 5-phosphate reductoisomerase (DXR), geranylgeranyl diphosphate synthase (GGPPS2), phytoene synthase (PSY1) and lycopene β-cyclase (LCYB) promoters, respectively. Narirutin was the most abundant flavonoid in the flesh at the early stages, 60 DAF was the most important stage for the accumulation of flavonoids, and 17, 22, 14, 25, 24 and 16 TFs could potentially bind phenylalanine ammonia-lyase (PAL-1 and PAL-4), 4-Coumarate-CoA ligase (4CL-2 and 4CL-5), chalcone synthase (CHS-1) and chalcone isomerase (CHI) promoters, respectively. Furthermore, both sets of 15 candidate TFs might regulate at least three key genes and contribute to carotenoids/flavonoids accumulation in CNO fruit. Finally, a hierarchical model for the regulatory network among the pathway genes and TFs was proposed. Collectively, our results suggest that DXS1, DXR, GGPPS2, PSY1 and LCYB genes were the most important genes for carotenoids accumulation, while PAL-1, PAL-4, 4CL-2, 4CL-5, CHS-1 and CHI for flavonoids biosynthesis. A total of 24 TFs were postulated as co-regulators in both pathways directly, which might play important roles in carotenoids and flavonoids accumulation in CNO fruit.
ISSN:1471-2229
1471-2229
DOI:10.1186/s12870-020-02808-3