PagSND1‐B1 Regulates Wood Formation by Influencing Phosphorus Absorption and Distribution in Poplar

木质部 运输机 植物 生物 植物生长 化学 细胞生物学 基因 生物化学 有机化学
作者
Pu‐Jen Cheng,Liling Gong,Qiuxian Bai,Ning Dong,Yi An,Chen Jiang,Lichao Huang,Mengzhu Lu,Jin Zhang,Ningning Chen
出处
期刊:Plant Cell and Environment [Wiley]
卷期号:48 (6): 4026-4038 被引量:3
标识
DOI:10.1111/pce.15405
摘要

ABSTRACT In natural environments, the growth and development of trees are continuously affected by phosphorus (P) starvation stress. However, the mechanisms through which trees balance stem growth and P distribution remain unknown. This study found that in the woody model species poplar, the P loss in stems is more severe than that in roots and leaves under P starvation conditions, thereby inhibiting stem development and reducing the expression of numerous genes related to wood formation, including PagSND1‐B1 . Intriguingly, overexpression of PagSND1‐B1 in poplar enhances resistance to P starvation and promotes xylem development. Further analysis demonstrated that PagSND1‐B1 can directly and positively regulate the phosphorus transporter PagPHT1;5a . Analysis of P content changes in leaves, stems and roots of transgenic poplar before and after treatment indicated that overexpression of PagSND1‐B1 disrupts the normal P redistribution procedure, leading to increased P accumulation in stems, which is beneficial for xylem development. Therefore, PagSND1‐B1 participates in the phosphorus absorption and homoeostasis of poplar by modulating PagPHT1;5a . This study provides valuable insights into the regulatory function of PagSND1‐B1 in wood formation and the process by which trees balance phosphorus distribution and xylem development.
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