Physiological and proteomic analysis of halophyte Halogeton glomeratus in response to Ni2+ stress
Lirong Yao, Jianjun He, Juncheng Wang, Baochun Li, Yaxiong Meng, Xiaole Ma, Erjing Si, Hong Zhang, Ke Yang, Huajun Wang

TL;DR
This study explores how the halophyte Halogeton glomeratus responds to nickel stress, revealing physiological and proteomic mechanisms that help it tolerate and accumulate nickel.
Contribution
The study identifies specific physiological and proteomic responses in H. glomeratus under Ni2+ stress, including 36 detoxification-related proteins.
Findings
H. glomeratus growth is inhibited at Ni2+ concentrations above 1.5 mM, but no seedling death occurs.
Ni2+ accumulates in roots, stems, and leaves, with structural plant adaptations observed.
36 detoxification-related proteins were identified, involved in transmembrane transport, oxidative stress, and metabolism.
Abstract
Halogeton glomeratus (H. glomeratus) is a halophyte that can remediate heavy metals in soil. However, knowledge regarding the mechanisms of Ni remediation in H. glomeratus is limited. In this study, the physiological and molecular mechanisms of H. glomeratus seedlings exposed to different Ni2+ conditions were investigated. The results revealed that H. glomeratus growth was significantly inhibited when the Ni2+ concentration was higher than 1.5 mM, but the seedlings did not experience any seedling death and physiological characteristics showed no significant decrease. The accumulation of Ni2+ in H. glomeratus was found in Ni2+-treated seedling roots, stems and leaves. The size of water-storage tissue, the thickness of cortex and the number of large parenchyma cell rose in H. glomeratus with the increasing of Ni2+ concentrations. Under the 1.5 mmol/L Ni2+ for 6 h, 12 h, 24 h, and 48 h,…
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Taxonomy
TopicsPlant Stress Responses and Tolerance · Plant responses to water stress · Geochemistry and Elemental Analysis
