分子生物学
IVD分子诊断
细胞培养与分析
蛋白研究
细胞因子
重组蛋白
抗体
高通量测序建库
病原检测UCF系列
生物医药
工具酶
抑制剂激活剂与常用试剂
仪器
耗材

PeBBX24 suppresses GRP2 transcription in contrasting poplars differing in salt tolerance

Jing Li, Jian Liu, Jun Yao, Ziyan Zhao, Kexin Yin, Caixia Yan, Zhe Liu, Kaiyue Dong, Rui Shi, Nan Zhao, Rui Zhao, Shaoliang Chen

Journal:PLANT PHYSIOLOGY AND BIOCHEMISTRY

IF:5.7

DOI:10.1016/j.plaphy.2026.111332

PMID:42060976

Published:2026-04-25

research field:植物分子生物学遗传学转基因植物逆境生理学基因调控

Abstract

Populus euphratica glycine-rich RNA-binding protein 2 (PeGRP2) negatively regulates salt tolerance by destabilizing target mRNAs encoding Na + /H + antiporters, ATPases, and antioxidant enzymes in transgenic poplars. Downregulated PeGRP2 contributes to the adaptation of P. euphratica to long-term salt conditions; however, the regulatory loop governing the transcription of PeGRP2 is poorly understood. To explore the transcription network of PeGRP2 during salt stress, we identified that the B-box zinc finger protein PeBBX24 could bind to the PeGRP2 promoter. Subsequently, PeBBX24 was transferred to P. euphratica (salt-tolerant) and P. × canescens (salt-sensitive) to validate the transcriptional regulation of PeGRP2 and PcGRP2 and the relevance to salt tolerance in poplar species. PeBBX24 -overexpressing poplars exhibited increased stem growth, less accumulated Na + , and enhanced antioxidant capacity compared with non-transgenic controls under NaCl treatment (100 mM, 24 h to 15 d). Functional characterization revealed that PeBBX24 transcriptionally suppresses PeGRP2 and PcGRP2 , thereby counteracting their detrimental effects on Na + homeostasis in transgenic poplars. Moreover, PeBBX24-drived repression of PeGRP2 and PcGRP2 could lessen their negative impact on reactive oxygen species scavenging, ultimately reinforcing the antioxidant defense machinery in transgenic poplars. Consequently, salt-induced PeBBX24 leads to downregulation of PeGRP2 and enhances salt adaptation in P. euphratica . Furthermore, PeBBX24-dependent repression of PcGRP2 offers a conceptual framework and promising genetic resources for breeding salt-tolerant and fast-growing poplars.

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