Overlooked role of extracellular polymeric substances in antibiotic-resistance gene transfer within microalgae-bacteria system

IF 11.3 1区环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL

Journal of Hazardous Materials Pub Date : 2025-01-13 DOI:10.1016/j.jhazmat.2025.137206

Shengnan Li, Yun Bai, Zhiling Li, Aijie Wang, Nan-Qi Ren, Shih-Hsin Ho

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Abstract

Controlling the spread of antibiotic-resistance genes (ARGs) under antibiotic stress has become an increasingly urgent issue. Microalgae possess the capability to remove antibiotics while concurrently inhibiting ARGs. Microalgae-bacteria systems can produce significant quantities of extracellular polymeric substances (EPS). However, the roles of EPS in the spread of ARGs have not been sufficiently explored, resulting in an insufficient understanding of the contribution of each EPS component and a lack of analysis on the complex interactions between EPS and ARGs. This study systematically explored the overlooked role of EPS in the transmission of ARGs within microalgae-bacteria systems. The current results showed that the potential of the microalgae-bacteria system for treating antibiotic wastewater. The tightly bound-EPS (TB-EPS) can acquire the higher absolute abundances of ARGs compared with the loosely bound-EPS (LB-EPS). The correlation coefficient between polysaccharides and TB-EPS ARGs was higher than that between polysaccharides and LB-EPS ARGs. The gene patterns of LB-EPS closely clustered with those of TB-EPS, while intracellular ARG gene patterns differed from both TB-EPS and LB-EPS. Metagenomic analyses indicated that the relative abundances of sul1 and sul2 were considerably higher at the beginning stage compared to the end stage. The abundance of Achromobacter, increased by the end stage, aligning with its potential to produce exopolysaccharide. Additionally, the absolute abundance of genes encoding exopolysaccharides (nagB and galE) and conjugative transfer transcription regulator (traF), increased over time. These findings enhanced our comprehension of the significance of EPS on the fate of ARGs in microalgae-bacteria systems during the treatment of antibiotic-contaminated wastewater.

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细胞外聚合物质在微藻-细菌系统中抗生素耐药基因转移中被忽视的作用

控制抗生素耐药基因（ARGs）在抗生素胁迫下的传播已成为一个日益紧迫的问题。微藻具有去除抗生素的同时抑制ARGs的能力。微藻-细菌系统可以产生大量的细胞外聚合物质（EPS）。然而，EPS在ARGs传播中的作用尚未得到充分的探讨，导致对EPS各组成部分的贡献认识不足，对EPS与ARGs之间复杂的相互作用分析不足。本研究系统地探讨了微藻-细菌系统中EPS在ARGs传播中被忽视的作用。目前的研究结果表明，微藻-细菌系统处理抗生素废水的潜力很大。与松散结合的聚苯乙烯（LB-EPS）相比，紧密结合的聚苯乙烯（TB-EPS）可以获得更高的ARGs绝对丰度。多糖与TB-EPS ARGs的相关系数高于与LB-EPS ARGs的相关系数。LB-EPS的基因模式与TB-EPS紧密聚集，而细胞内ARG基因模式与TB-EPS和LB-EPS不同。宏基因组分析表明，硫1和硫2的相对丰度在生育期初期明显高于生育期末期。无色杆菌的丰度在最后阶段增加，与它产生胞外多糖的潜力一致。此外，编码外多糖（nagB和galE）和共轭转移转录调节因子（traF）的基因的绝对丰度随着时间的推移而增加。这些发现增强了我们对微藻-细菌系统在处理抗生素污染废水过程中ARGs命运的重要性的理解。尽管越来越多的人认识到细胞外聚合物（EPS），但它们在微藻-细菌系统中抗生素耐药基因（ARGs）传播中的作用仍未得到充分研究。本研究旨在阐明从微藻-细菌体系中提取的EPS的理化特性，并对EPS和ARGs进行多变量分析。结果表明，多糖与紧密结合的ARGs （TB-EPS）的相关系数高于松散结合的ARGs （LB-EPS）。LB-EPS基因模式与TB-EPS基因模式紧密聚集。这项工作可以增强我们对微藻-细菌系统中EPS对ARGs增殖管理意义的理解。

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来源期刊

Journal of Hazardous Materials 工程技术-工程：环境

CiteScore

25.40

自引率

5.90%

发文量

3059

审稿时长

58 days

期刊介绍： The Journal of Hazardous Materials serves as a global platform for promoting cutting-edge research in the field of Environmental Science and Engineering. Our publication features a wide range of articles, including full-length research papers, review articles, and perspectives, with the aim of enhancing our understanding of the dangers and risks associated with various materials concerning public health and the environment. It is important to note that the term "environmental contaminants" refers specifically to substances that pose hazardous effects through contamination, while excluding those that do not have such impacts on the environment or human health. Moreover, we emphasize the distinction between wastes and hazardous materials in order to provide further clarity on the scope of the journal. We have a keen interest in exploring specific compounds and microbial agents that have adverse effects on the environment.