Metabolic perturbations of Lolium perenne L. by enrofloxacin: Bioaccumulation and multistage defense system.

Plants are readily exposed to the antibiotics residues in reclaimed water indicating an urgent need to comprehensively analyze their ecotoxicological effects and fate of these emerging contaminants. Here, we unraveled the dissemination of enrofloxacin (ENR) in a pasture grass, Lolium perenne L., and identified multistage defense systems as its adaptation mechanism. Uptaken concentrations of ENR ranged from 1.28 to 246.60 µg g-1 with bioconcentration factors (BCF) upto 15.13, and translocation factors (TF) upto 0.332. The antioxidant enzymatic activities such as superoxide dismutase, peroxidase, and catalase were increased by upto 115%. Further transcriptomics demonstrated that differentially expressed genes (DEGs) involved in glycolysis, tricarboxylic acid (TCA) cycle, oxidative phosphorylation, and glutathione metabolism were significantly up-regulated by 1.56-5.93, 3-7 and 1.04-6.42 times, respectively; whilst, the DEGs in nitrogen and sulfur metabolism pathways were significantly up-regulated by 1.06-5.64 and 2.64-3.54 folds. These processes can supply energy, signaling molecules, and antioxidants for detoxification of ENR in ryegrass. Such results provide understanding into fasting grass adaptability to antibiotics by enhancing the key protective pathways under organic pollutant stresses in environments. Copyright © 2021 Elsevier B.V. All rights reserved.

Citation

Jiu-Qiang Xiong, Chen-Yu Zhao, Jing-Yu Qin, Pengfei Cui, Qiu-Lian Zhong, Shaoguo Ru. Metabolic perturbations of Lolium perenne L. by enrofloxacin: Bioaccumulation and multistage defense system. Journal of hazardous materials. 2022 Apr 05;427:127893

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PMID: 34865897

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