Zhouzhou Tang scite author profile

Blood orange is generally recognized to accumulate anthocyanins in its fruit pulp in a cold‐inducible manner. We observed that the fruit peel of blood orange can also accumulate anthocyanins under ample light conditions. Interestingly, purple pummelo can accumulate anthocyanins only in its fruit peel but not in its pulp. The mechanism underlying the tissue specificity of anthocyanin accumulation in citrus is unknown. Here, we show that the active promoter of Ruby1, a key activator of anthocyanin biosynthesis, is also light inducible in addition to its already known cold inducibility in blood orange. Electrophoretic mobility shift assays and transient expression assays showed that HY5 positively regulated the transcription of Ruby1 by binding to the G‐box motif (CACGTC). The tissue specificity of anthocyanin accumulation in the peel of purple pummelo may be due to the lack of a low temperature responsive element and a MYC binding site, which were shown to be involved in cold inducibility of CsRuby1 in blood orange by insertion of a long terminal repeat type retrotransposon in the promoter. These results bring new insights into the regulatory mechanism of anthocyanin biosynthesis in response to environmental stimuli and provide cis‐elements for genetic improvement of anthocyanin‐stable fruits rich in antioxidant metabolites.

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CsMYB3 and CsRuby1 form an ‘Activator-and-Repressor’ Loop for the Regulation of Anthocyanin Biosynthesis in Citrus

Ding

Tang

et al. 2019

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Anthocyanins are preferentially accumulated in certain tissues of particular species of citrus. A R2R3-MYB transcription factor (named Ruby1) has been well documented as an activator of citrus anthocyanin biosynthesis. In this study, we characterized CsMYB3, a transcriptional repressor that regulates anthocyanin biosynthesis in citrus. CsMYB3 was expressed in anthocyanin-pigmented tissues, and the expression was closely associated with that of Ruby1, which is a key anthocyanin activator. Overexpression of CsMYB3 in Arabidopsis resulted in a decrease in anthocyanins under nitrogen stress. Overexpression of CsMYB3 in the background of CsRuby1-overexpressing strawberry and Arabidopsis reduced the anthocyanin accumulation level. Transient promoter activation assays revealed that CsMYB3 could repress the activation capacity of the complex formed by CsRuby1/CsbHLH1 for the anthocyanin biosynthetic genes. Moreover, CsMYB3 could be transcriptionally activated by CsRuby1 via promoter binding, thus forming an ‘activator-and-repressor’ loop to regulate anthocyanin biosynthesis in citrus. This study shows that CsMYB3 plays a repressor role in the regulation of anthocyanin biosynthesis and proposes an ‘activator-and-repressor’ loop model constituted by CsRuby1 and CsMYB3 in the regulation of anthocyanin biosynthesis in citrus.

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XIST sponges miR-320d to promote chordoma progression by regulating ARF6

Wang

Tang

Guo

2022

Journal of Bone Oncology

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Ding¹,

Yuan²,

Tang³

et al. 2019

Plant Cell & Environment

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Zhouzhou Tang

Subfunctionalization of the Ruby2–Ruby1 gene cluster during the domestication of citrus

Retrotransposon promoter of Ruby1 controls both light‐ and cold‐induced accumulation of anthocyanins in blood orange

CsMYB3 and CsRuby1 form an ‘Activator-and-Repressor’ Loop for the Regulation of Anthocyanin Biosynthesis in Citrus

XIST sponges miR-320d to promote chordoma progression by regulating ARF6

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