ERF5.1 modulates carotenoid accumulation by interacting with CCD4.1 in Lycium

ERF5.1 modulates carotenoid accumulation by interacting with CCD4.1 in Lycium

Carotenoids are important natural pigments and have medical and health functions for humans. Carotenoid cleavage dioxygenase 4 ( ) and ethylene responsive factor (ERF) participate in carotenoid metabolism, but their roles in have not been discovered. Here, we annotated s from the reference genome an...

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Veröffentlicht in:Horticulture research 2023-12, Vol.10 (12), p.uhad230
Hauptverfasser: Zhao, Jianhua, Xu, Yuhui, Li, Haoxia, Zhu, Xinlei, Yin, Yue, Zhang, Xiyan, Qin, Xiaoya, Zhou, Jun, Duan, Linyuan, Liang, Xiaojie, Huang, Ting, Zhang, Bo, Wan, Ru, Shi, Zhigang, Cao, Youlong, An, Wei
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container_issue 12
container_start_page uhad230
container_title Horticulture research
container_volume 10
creator Zhao, Jianhua
Xu, Yuhui
Li, Haoxia
Zhu, Xinlei
Yin, Yue
Zhang, Xiyan
Qin, Xiaoya
Zhou, Jun
Duan, Linyuan
Liang, Xiaojie
Huang, Ting
Zhang, Bo
Wan, Ru
Shi, Zhigang
Cao, Youlong
An, Wei
description Carotenoids are important natural pigments and have medical and health functions for humans. Carotenoid cleavage dioxygenase 4 ( ) and ethylene responsive factor (ERF) participate in carotenoid metabolism, but their roles in have not been discovered. Here, we annotated s from the reference genome and found that expression was significantly correlated with the carotenoid metabolites during five fruit developmental stages. Over-expression of in NQ's leaves resulted in a series of significantly lower contents of carotenoid metabolites, including β-carotene and β-cryptoxanthin. Moreover, , a transcription factor belonging to the ERF family that was located in the nucleus, was isolated. Significant reductions in the carotenoids, especially lutein, violaxanthin and their derivatives, were observed in over-expressing transgenic NQ's leaves. Over-expression or virus-induced gene silencing of in NQ's leaves induced a consistent up- or down-expression, respectively, of . Furthermore, yeast one-hybrid and dual-luciferase reporter assays showed that interacted with the promoter of to increase its expression, and could bind to any one of the three predicted binding sites in the promoter of . A transcriptome analysis of and over-expressed lines showed similar global transcript expression, and geranylgeranyl diphosphate synthase, phytoene synthase, lycopene δ-cyclase cytochrome, cytochrome P450-type monooxygenase 97A, cytochrome P450-type monooxygenase 97C, and zeaxanthin epoxidase in the carotenoid biosynthesis pathway were differentially expressed. In summary, we uncovered a novel molecular mechanism of carotenoid accumulation that involved an interaction between and , which may be used to enhance carotenoid in .
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Carotenoid cleavage dioxygenase 4 ( ) and ethylene responsive factor (ERF) participate in carotenoid metabolism, but their roles in have not been discovered. Here, we annotated s from the reference genome and found that expression was significantly correlated with the carotenoid metabolites during five fruit developmental stages. Over-expression of in NQ's leaves resulted in a series of significantly lower contents of carotenoid metabolites, including β-carotene and β-cryptoxanthin. Moreover, , a transcription factor belonging to the ERF family that was located in the nucleus, was isolated. Significant reductions in the carotenoids, especially lutein, violaxanthin and their derivatives, were observed in over-expressing transgenic NQ's leaves. Over-expression or virus-induced gene silencing of in NQ's leaves induced a consistent up- or down-expression, respectively, of . Furthermore, yeast one-hybrid and dual-luciferase reporter assays showed that interacted with the promoter of to increase its expression, and could bind to any one of the three predicted binding sites in the promoter of . A transcriptome analysis of and over-expressed lines showed similar global transcript expression, and geranylgeranyl diphosphate synthase, phytoene synthase, lycopene δ-cyclase cytochrome, cytochrome P450-type monooxygenase 97A, cytochrome P450-type monooxygenase 97C, and zeaxanthin epoxidase in the carotenoid biosynthesis pathway were differentially expressed. 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title ERF5.1 modulates carotenoid accumulation by interacting with CCD4.1 in Lycium
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