草地早熟禾
代谢组学
转录组
蛋白质组学
抗性(生态学)
生物
计算生物学
生物技术
生物信息学
植物
遗传学
农学
基因
基因表达
禾本科
作者
Yong Wang,Ting Cui,Kuiju Niu,Huiling Ma
标识
DOI:10.1016/j.jhazmat.2024.134727
摘要
Kentucky bluegrass (Poa pratensis L., KB) demonstrates superior performance in both cadmium (Cd) accumulation and tolerance; however, the regulatory mechanisms and detoxification pathways in this species remain unclear. Therefore, phenotype, root ultrastructure, cell wall components, proteomics, transcriptomics, and metabolomics were analyzed under the hydroponic system to investigate the Cd tolerance and accumulation mechanisms in the Cd-tolerant KB variety 'Midnight (M)' and the Cd-sensitive variety 'Rugby II (R)' under Cd stress. The M variety exhibited higher levels of hydroxyl and carboxyl groups as revealed by Fourier transform infrared spectroscopy spectral analysis. Additionally, a reduced abundance of polysaccharide degradation proteins was observed in the M variety. The higher abundance of glutathione S-transferase and content of L-cysteine-glutathione disulfide and oxidized glutathione in the M variety may contribute to better performance of the M variety under Cd stress. Additionally, the R variety had an enhanced content of carboxylic acids and derivatives, increasing the Cd translocation capacity. Collectively, the down-regulation of cell wall polysaccharide degradation genes coupled with the up-regulation of glutathione metabolism genes enhances the tolerance to Cd stress in KB. Additionally, lignification of the endodermis and the increase in carboxylic acids and derivatives play crucial roles in the redistribution of Cd in KB. Cd in farmland soil can be absorbed by crops and further enter the food chain. Consuming Cd-contained cereal grains increases susceptibility to cancer in humans. Kentucky bluegrass exhibits significant potential for the remediation of soil contaminated with Cd owing to its high biomass production and Cd tolerance. Our study provides potential target genes and metabolites to enhance Cd tolerance and accumulation in the Kentucky bluegrass. These results provide novel insights into the enhancement of Cd detoxification and accumulation in Kentucky bluegrass for the phytoremediation of Cd-containing soil.
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