Physiol-biochemical, transcriptome, and root microstructure analyses reveal the mechanism of salt shock recovery in sugar beet
文献类型: 外文期刊
作者: Dong, Yinzhuang 1 ; Liu, Yu 1 ; Li, Xiaodong 4 ; Geng, Gui 1 ; Yu, Lihua 5 ; Xu, Yao 5 ; Liu, Jiahui 5 ; Wang, Yuguang 1 ;
作者机构: 1.Heilongjiang Univ, Engn Res Ctr Agr Microbiol Technol, Minist Educ & Heilongjiang Prov, Harbin 150080, Peoples R China
2.Heilongjiang Univ, Heilongjiang Prov Key Lab Ecol Restorat & Resource, Harbin 150080, Peoples R China
3.Heilongjiang Univ, Sch Life Sci, Harbin 150080, Peoples R China
4.Inner Mongolia Acad Agr & Anim Husb Sci, Inner Mongolia Key Lab Sugar Beet Genet & Germplas, Hohhot 150100, Peoples R China
5.Heilongjiang Univ, Coll Adv Agr & Ecol Environm, Natl Sugar Crop Improvement Ctr, Harbin 150080, Peoples R China
6.Heilongjiang Univ, Coll Adv Agr & Ecol Environm, Heilongjiang Sugar Beet Engn Technol Res Ctr, Harbin 150080, Peoples R China
关键词: Beta vulgaris; Salt shock; Transcriptomic; Microstructural; Photosynthesis; Lignin
期刊名称:PLANT PHYSIOLOGY AND BIOCHEMISTRY ( 影响因子:5.7; 五年影响因子:6.4 )
ISSN: 0981-9428
年卷期: 2025 年 223 卷
页码:
收录情况: SCI
摘要: Soil salinity substantially limits agricultural productivity, necessitating a sound understanding of salt-tolerance mechanisms in key crops for their improved breeding. Despite being a staple sugar crop with strong salt tolerance, sugar beet (Beta vulgaris L.), remains underexplored for its transcriptional responses to salt shock. This study compared the physiological traits, root structure, and full-length transcriptomes of salt-tolerant (T510) and salt-sensitive (S210) sugar beet varieties during stages of osmotic stress (0-24 h) and ionic stress (1-7 d) after incurring salt shock. The results show that T510 recovered faster, maintaining a higher water potential (WP), better osmotic regulation, lower reactive oxygen species (ROS) levels, and a balanced Na+/K+ ratio. Furthermore, while under osmotic stress, T510 exhibited extensive transcriptional reprogramming to enhance its photosynthetic efficiency and carbon assimilation via the C4-dicarboxylic acid (C4) cycle, which compensated for salt shock-induced disruptions to the Calvin-Benson (C3) cycle. Notably, elevated activity of ascorbate peroxidase (APX) and glutathione S-transferase (GST), driven by greater gene expression, enhanced the scavenging of ROS. In tandem, T510 synthesized more lignin than S210, and adapted its root microstructure to maintain water and nutrient transport functioning in the face of high salinity. Overall, these findings provide insights into the physiological, transcriptomic, and structural adaptations enabling salt tolerance in sugar beet plants, thus offering valuable strategies for strengthening crop resilience through molecular breeding.
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