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PagDET2 promotes cambium cell division and xylem differentiation in poplar stem

Yao Wang, Yi Hao, Yakun Guo, Huixia Shou, Juan Du

2022Frontiers in Plant Science12 citationsDOIOpen Access PDF

Abstract

Secondary growth of the woody tree stem is governed by meristematic cell division and differentiation in the vascular cambium. Multiple hormonal signals and endogenous developmental programs regulate vascular cambium activity. Brassinosteroids (BRs) significantly promote secondary stem growth and wood formation in poplar trees. However, the underlying regulatory mechanisms of BRs within the vascular tissue remain unclear. Genetic and anatomical approaches were used here to elucidate the role of PagDET2 , the rate-limiting enzyme for BRs biosynthesis, in regulating secondary vascular cambium activity in Populus . This study showed that the elevated endogenous castasterone (CS) levels in tree stems through overexpressing PagDET2 could enhance cambium meristem cell activity and xylem (XY) differentiation to promote secondary stem growth. RNA-seq analysis revealed that genes involved in BRs response, vascular cambium cell division, XY differentiation, and secondary cell wall synthesis were up-regulated.

Topics & Concepts

Vascular cambiumCambiumMeristemXylemBiologySecondary growthBotanyCell divisionCell biologyVascular tissueBrassinolideCellular differentiationCellGeneBiochemistryShootPlant growthPlant Molecular Biology ResearchPlant Gene Expression AnalysisPolysaccharides and Plant Cell Walls
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