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<scp>SlERF</scp>.<scp>G3‐Like</scp> mediates a hierarchical transcriptional cascade to regulate ripening and metabolic changes in tomato fruit

Sheng‐Jie You, Yu Wu, Wen Li, Xiaofeng Liu, Qinlan Tang, Fengkun Huang, Yan Li, Hsihua Wang, Mingchun Liu, Yang Zhang

2023Plant Biotechnology Journal41 citationsDOIOpen Access PDF

Abstract

The tomato ripening process contains complex changes, including ethylene signalling, cell wall softening and numerous metabolic changes. So far, much is still unknown about how tomato plants precisely coordinate fruit maturation and metabolic regulation. In this paper, the ERF family transcription factor SlERF.G3-Like in tomato was found to be involved in the regulation of ethylene synthesis, cell wall degradation and the flavonoid pathway. We show that the master ripening regulator SlRIN was found to directly bind to the promoter region of SlERF.G3-Like to activate its expression. In addition, we managed to increase the production of resveratrol derivatives from ~1.44 mg/g DW in E8:VvStSy line to ~2.43 mg/g DW by crossing p35S: SlERF.G3-Like with the E8:VvStSy line. Our data provide direct evidence that SlERF.G3-Like, a hierarchical transcriptional factor, can directly manipulate pathways in which tomatoes can coordinate fruit maturation and metabolic changes. We also attest that SlERF.G3-Like can be used as an effective tool for phenylpropanoid metabolic engineering.

Topics & Concepts

RipeningPhenylpropanoidTranscription factorBiologyMetabolic pathwayMaster regulatorCell biologyGenetically modified tomatoTranscriptional regulationBiochemistryRegulatorEthyleneResveratrolMetabolismTransgeneBiosynthesisGeneBotanyGenetically modified cropsCatalysisPlant Gene Expression AnalysisPostharvest Quality and Shelf Life ManagementPlant Molecular Biology Research