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The MdBBX22–miR858–MdMYB9/11/12 module regulates proanthocyanidin biosynthesis in apple peel
The MdBBX22–miR858–MdMYB9/11/12 module regulates proanthocyanidin biosynthesis in apple peel
by Yang, Ya‐Zhou , Zhu, Zhen‐Zhen , Zhao, Zheng‐Yang , Qu, Dong , Zhang, Bo , Yang, Hui‐Juan
in Accumulation / Anthocyanin / Anthocyanins / Antioxidants / Apple / apple peels / Apples / Arabidopsis / Arabidopsis - genetics / Arabidopsis thaliana / Biosynthesis / biotechnology / callus / Correlation analysis / Enzymes / Flavonoids / Fruit - genetics / Fruit - metabolism / fruiting / Fruits / Gene expression / Gene Expression Regulation, Plant / human health / light stress / luminescence / Malus - genetics / Malus - metabolism / Malus domestica / MdBBX22 / MdMYB9/11/12 / mdm‐miR858 / MicroRNA / MicroRNAs / MicroRNAs - genetics / MicroRNAs - metabolism / miRNA / Modules / Physiological aspects / Plant Proteins - genetics / Plant Proteins - metabolism / Proanthocyanidins / Proanthocyanidins - biosynthesis / Regulatory mechanisms (biology) / Tobacco
2022
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The MdBBX22–miR858–MdMYB9/11/12 module regulates proanthocyanidin biosynthesis in apple peel
by Yang, Ya‐Zhou , Zhu, Zhen‐Zhen , Zhao, Zheng‐Yang , Qu, Dong , Zhang, Bo , Yang, Hui‐Juan
in Accumulation / Anthocyanin / Anthocyanins / Antioxidants / Apple / apple peels / Apples / Arabidopsis / Arabidopsis - genetics / Arabidopsis thaliana / Biosynthesis / biotechnology / callus / Correlation analysis / Enzymes / Flavonoids / Fruit - genetics / Fruit - metabolism / fruiting / Fruits / Gene expression / Gene Expression Regulation, Plant / human health / light stress / luminescence / Malus - genetics / Malus - metabolism / Malus domestica / MdBBX22 / MdMYB9/11/12 / mdm‐miR858 / MicroRNA / MicroRNAs / MicroRNAs - genetics / MicroRNAs - metabolism / miRNA / Modules / Physiological aspects / Plant Proteins - genetics / Plant Proteins - metabolism / Proanthocyanidins / Proanthocyanidins - biosynthesis / Regulatory mechanisms (biology) / Tobacco
2022
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The MdBBX22–miR858–MdMYB9/11/12 module regulates proanthocyanidin biosynthesis in apple peel
The MdBBX22–miR858–MdMYB9/11/12 module regulates proanthocyanidin biosynthesis in apple peel
by Yang, Ya‐Zhou , Zhu, Zhen‐Zhen , Zhao, Zheng‐Yang , Qu, Dong , Zhang, Bo , Yang, Hui‐Juan
in Accumulation / Anthocyanin / Anthocyanins / Antioxidants / Apple / apple peels / Apples / Arabidopsis / Arabidopsis - genetics / Arabidopsis thaliana / Biosynthesis / biotechnology / callus / Correlation analysis / Enzymes / Flavonoids / Fruit - genetics / Fruit - metabolism / fruiting / Fruits / Gene expression / Gene Expression Regulation, Plant / human health / light stress / luminescence / Malus - genetics / Malus - metabolism / Malus domestica / MdBBX22 / MdMYB9/11/12 / mdm‐miR858 / MicroRNA / MicroRNAs / MicroRNAs - genetics / MicroRNAs - metabolism / miRNA / Modules / Physiological aspects / Plant Proteins - genetics / Plant Proteins - metabolism / Proanthocyanidins / Proanthocyanidins - biosynthesis / Regulatory mechanisms (biology) / Tobacco
2022

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The MdBBX22–miR858–MdMYB9/11/12 module regulates proanthocyanidin biosynthesis in apple peel
The MdBBX22–miR858–MdMYB9/11/12 module regulates proanthocyanidin biosynthesis in apple peel
Journal Article

The MdBBX22–miR858–MdMYB9/11/12 module regulates proanthocyanidin biosynthesis in apple peel

Yang, Ya‐Zhou,
Zhu, Zhen‐Zhen,
Zhao, Zheng‐Yang,
Qu, Dong,
Zhang, Bo,
Yang, Hui‐Juan
2022
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Overview
Summary Proanthocyanidins (PAs) have antioxidant properties and are beneficial to human health. The fruit of apple (Malus × domestica Borkh.), especially the peel, is rich in various flavonoids, such as PAs, and thus is an important source of dietary antioxidants. Previous research on the regulation of PAs in apple has mainly focussed on the transcription level, whereas studies conducted at the post‐transcriptional level are relatively rare. In this study, we investigated the function of mdm‐miR858, a miRNA with multiple functions in plant development, in the peel of apple fruit. We showed that mdm‐miR858 negatively regulated PA accumulation by targeting MdMYB9/11/12 in the peel. During fruit development, mdm‐miR858 expression was negatively correlated with MdMYB9/11/12 expression and PA accumulation. A 5′‐RACE experiment, GUS staining assays and transient luminescent assays indicated that mdm‐miR858 cleaved and inhibited the expression of MdMYB9/11/12. Overexpression of mdm‐miR858 in apple calli, tobacco and Arabidopsis reduced the accumulation of PAs induced by overexpression of MdMYB9/11/12. Furthermore, we found that MdBBX22 bound to the mdm‐miR858 promoter and induced its expression. Overexpression of MdBBX22 induced the expression of mdm‐miR858 to inhibit the accumulation of PAs in apple calli overexpressing MdMYB9/11/12. Under light stress, MdBBX22 induced mdm‐miR858 expression to inhibit PA accumulation and thereby indirectly enhanced anthocyanin synthesis in the peel. The present results revealed that the MdBBX22–miR858–MdMYB9/11/12 module regulates PA accumulation in apple. The findings provide a reference for further studies of the regulatory mechanism of PA accumulation and the relationship between PAs and anthocyanins.
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Publisher
John Wiley & Sons, Inc,John Wiley and Sons Inc
Subject

Accumulation

/ Anthocyanin

/ Anthocyanins

/ Antioxidants

/ Apple

/ apple peels

/ Apples

/ Arabidopsis

/ Arabidopsis - genetics

/ Arabidopsis thaliana

/ Biosynthesis

/ biotechnology

/ callus

/ Correlation analysis

/ Enzymes

/ Flavonoids

/ Fruit - genetics

/ Fruit - metabolism

/ fruiting

/ Fruits

/ Gene expression

/ Gene Expression Regulation, Plant

/ human health

/ light stress

/ luminescence

/ Malus - genetics

/ Malus - metabolism

/ Malus domestica

/ MdBBX22

/ MdMYB9/11/12

/ mdm‐miR858

/ MicroRNA

/ MicroRNAs

/ MicroRNAs - genetics

/ MicroRNAs - metabolism

/ miRNA

/ Modules

/ Physiological aspects

/ Plant Proteins - genetics

/ Plant Proteins - metabolism

/ Proanthocyanidins

/ Proanthocyanidins - biosynthesis

/ Regulatory mechanisms (biology)

/ Tobacco

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