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A conserved brassinosteroid-mediated BES1-CERP-EXPA3 signaling cascade controls plant cell elongation

Liping Zhu, Huiqin Wang, Jiaojie Zhu, Xiaosi Wang, Bin Jiang, Liyong Hou, Guanghui Xiao

2023Cell Reports29 citationsDOIOpen Access PDF

Abstract

Continuous plant growth is achieved by cell division and cell elongation. Brassinosteroids control cell elongation and differentiation throughout plant life. However, signaling cascades underlying BR-mediated cell elongation are unknown. In this study, we introduce cotton fiber, one of the most representative single-celled tissues, to decipher cell-specific BR signaling. We find that gain of function of GhBES1, a key transcriptional activator in BR signaling, enhances fiber elongation. The chromatin immunoprecipitation sequencing analysis identifies a cell-elongation-related protein, GhCERP, whose transcription is directly activated by GhBES1. GhCERP, a downstream target of GhBES1, transmits the GhBES1-mediated BR signaling to its target gene, GhEXPA3-1. Ultimately, GhEXPA3-1 promotes fiber cell elongation. In addition, inter-species functional analysis of the BR-mediated BES1-CERP-EXPA3 signaling cascade also promotes Arabidopsis root and hypocotyl growth. We propose that the BES1-CERP-EXPA3 module may be a broad-spectrum pathway that is universally exploited by diverse plant species to regulate BR-promoted cell elongation.

Topics & Concepts

BrassinosteroidCell biologyBiologyArabidopsisChromatin immunoprecipitationSignal transductionTranscription factorChromatinElongationCell divisionCell growthCrosstalkCellMutantGeneBiochemistryGene expressionPromoterMaterials scienceUltimate tensile strengthMetallurgyOpticsPhysicsPlant Molecular Biology ResearchPlant Reproductive BiologyResearch in Cotton Cultivation
A conserved brassinosteroid-mediated BES1-CERP-EXPA3 signaling cascade controls plant cell elongation | Litcius