A transcriptional cascade involving BBX22 and HY5 finely regulates both plant height and fruit pigmentation in citrus

级联 园艺 生物 柑橘类水果 植物 化学 色谱法
作者
Jialing Fu,Li Liao,Jiajing Jin,Zhihao Lu,Juan Sun,Lizhi Song,Yue Huang,Shengjun Liu,Ding Huang,Yuantao Xu,Jiaxian He,B. Y. Hu,Yiqun Zhu,Fangfang Wu,X Y Wang,Xiuxin Deng,Qiang Xu
出处
期刊:Journal of Integrative Plant Biology [Wiley]
卷期号:66 (8): 1752-1768 被引量:28
标识
DOI:10.1111/jipb.13719
摘要

ABSTRACT Dwarfing is a pivotal agronomic trait affecting both yield and quality. Citrus species exhibit substantial variation in plant height, among which internode length is a core element. However, the molecular mechanism governing internode elongation remains unclear. Here, we unveiled that the transcriptional cascade consisting of B‐BOX DOMAIN PROTEIN 22 ( BBX22 ) and ELONGATED HYPOCOTYL 5 ( HY5 ) finely tunes plant height and internode elongation in citrus. Loss‐of‐function mutations of BBX22 in an early‐flowering citrus ( Citrus hindsii “SJG”) promoted internode elongation and reduced pigment accumulation, whereas ectopic expression of BBX22 in SJG, sweet orange ( C. sinensis ), pomelo ( C. maxima ) or heterologous expression of BBX22 in tomato ( Solanum lycopersicum ) significantly decreased internode length. Furthermore, exogenous application of gibberellin A3 (GA 3 ) rescued the shortened internode and dwarf phenotype caused by BBX22 overexpression. Additional experiments revealed that BBX22 played a dual role in regulation internode elongation and pigmentation in citrus. On the one hand, it directly bound to and activated the expression of HY5 , GA metabolism gene ( GA2 OXIDASE 8 , GA2ox8 ), carotenoid biosynthesis gene ( PHYTOENE SYNTHASE 1 , PSY1 ) and anthocyanin regulatory gene ( Ruby1, a MYB DOMAIN PROTEIN). On the other hand, it acted as a cofactor of HY5, enhancing the ability of HY5 to regulate target genes expression. Together, our results reveal the critical role of the transcriptional cascade consisting of BBX22 and HY5 in controlling internode elongation and pigment accumulation in citrus. Unraveling the crosstalk regulatory mechanism between internode elongation and fruit pigmentation provides key genes for breeding of novel types with both dwarf and health‐beneficial fortification in citrus.
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