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The MYC Gene <i>RrbHLH105</i> Contributes to Salt Stress–Induced Geraniol in Rose by Regulating Trehalose‐6‐Phosphate Signalling

Mingyue Bao, Yongsheng Xu, Guo Wei, Mengjuan Bai, Jianwen Wang, Liguo Feng

2024Plant Cell & Environment11 citationsDOIOpen Access PDF

Abstract

Rose (Rosa rugosa) is an important perfume plant, but its cultivation is significantly constrained by salt stress. Terpenes represent the most abundant volatile aromatic compounds in roses, yet little is known about how terpene metabolism responds to salt stress. In this study, salt-treated rose petals presented significant accumulation of monoterpenes, including geraniol, due to the disruption of jasmonic acid (JA) biosynthesis and signalling. Overexpression and silencing analyses revealed a MYC transcription factor involved in JA signalling (RrbHLH105) as a repressor of geraniol biosynthesis. RrbHLH105 was shown to activate the trehalose-6-phosphate synthase genes RrTPS5 and RrTPS8 by binding to the E-box (5'-CANNTG-3'). The increased trehalose-6-phosphate content and decreased geraniol content in rose petals overexpressing TPS5 or RrTPS8, along with the high accumulation of geraniol in petals where both RrbHLH105 and TPSs were cosilenced, indicate that trehalose signalling plays a role in the negative regulation of geraniol accumulation via the RrbHLH105-TPS module. In summary, the suppression of RrbHLH105 by salt stress leads to excessive geraniol accumulation through the inhibition of both RrbHLH105-mediated JA signalling and RrTPS-mediated trehalose signalling in rose petals. Additionally, this study highlights the emerging role of RrbHLH105 as a critical integrator of JA and trehalose signalling crosstalk.

Topics & Concepts

GeraniolTrehaloseSignallingRose (mathematics)PhosphateChemistryGeneFood scienceCell biologyBiochemistryBiologyHorticultureEssential oilPhotosynthetic Processes and MechanismsPlant Stress Responses and ToleranceLight effects on plants
The MYC Gene <i>RrbHLH105</i> Contributes to Salt Stress–Induced Geraniol in Rose by Regulating Trehalose‐6‐Phosphate Signalling | Litcius