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Glucose- and sucrose-signaling modules regulate the Arabidopsis juvenile-to-adult phase transition

Lai‐Sheng Meng, Qin‐Xin Bao, Xin‐Rong Mu, Tong Chen, Xiaoying Cao, Jinjin Huang, Li-Na Xue, Chang-Yue Liu, Yue Fei, Gary J. Loake

2021Cell Reports58 citationsDOIOpen Access PDF

Abstract

CINV1, converting sucrose into glucose and fructose, is a key entry of carbon into cellular metabolism, and HXK1 functions as a pivotal sensor for glucose. Exogenous sugars trigger the Arabidopsis juvenile-to-adult phase transition via a miR156A/SPL module. However, the endogenous factors that regulate this process remain unclear. In this study, we show that sucrose specifically induced the PAP1 transcription factor directly and positively controls CINV1 activity. Furthermore, we identify a glucose feed-forward loop (sucrose-CINV1-glucose-HXK1-miR156-SPL9-PAP1-CINV1-glucose) that controls CINV1 activity to convert sucrose into glucose signaling to dynamically control the juvenile-to-adult phase transition. Moreover, PAP1 directly binds to the SPL9 promoter, activating SPL9 expression and triggering the sucrose-signaling-mediated juvenile-to-adult phase transition. Therefore, a glucose-signaling feed-forward loop and a sucrose-signaling pathway synergistically regulate the Arabidopsis juvenile-to-adult phase transition. Collectively, we identify a molecular link between the major photosynthate sucrose, the entry point of carbon into cellular metabolism, and the plant juvenile-to-adult phase transition.

Topics & Concepts

SucroseArabidopsisFructoseCarbohydrate metabolismBiologyBiochemistrySignal transductionMetabolismJuvenileCell biologyArabidopsis thalianaMutantGeneGeneticsPlant Molecular Biology ResearchPhotosynthetic Processes and MechanismsPlant nutrient uptake and metabolism
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