混合菌株对四种喹诺酮类抗生素的降解及代谢机制研究

Hongdan Wang, Qiaoning Wang, Min Lv, Zhihua Song, Jialuo Yu, Xiaoyan Wang, Jinhua Li, Lingxin Chen
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摘要

喹诺酮类抗生素是环境中常见的一类抗生素,受到广泛关注。本研究通过筛选、富集和微生物多样性检测实验,筛选出三组针对混合喹诺酮类抗生素、诺氟沙星(NOR)和恩诺沙星(ENR)的混合降解菌株。通过降解效率实验、群落组成检测和功能富集分析,本研究筛选出的菌株分为两类。在混合组和 ENR 组中,抗性菌是主要微生物,降解菌是次要微生物;而在 NOR 组中,具有降解效果的菌株是主要菌株,具有抗性效果的菌株是次要菌株。此外,碳源对喹诺酮类抗生素降解菌和耐药菌的群落组成影响不大,组间差异主要受抗生素种类的控制。在此基础上,我们发现 NOR 降解的关键在于哌嗪环上碳氮键的裂解,然后是氧化和脱乙基。初步研究证实了NOR降解菌株的最佳降解条件,同时发现环境因素对混合菌株和NOR降解菌株的降解效率没有显著影响,这表明混合菌在自来水、海水、河水、湖水等不同的实际环境中都能有效降解NOR。本手稿是第一篇关于喹诺酮类抗生素微生物降解混合菌株的报道,也是目前已知报道中降解 NOR 效率最高的研究。它对喹诺酮类抗生素在环境中的共代谢和生物降解具有重要的研究价值。
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Study on the degradation and metabolic mechanism of four quinolone antibiotics by mixed strains
Quinolone antibiotics are a common class of antibiotics in the environment and have received considerable attention. In this study, three groups of mixed degradation strains targeting mixed quinolone antibiotics, norfloxacin (NOR), and enrofloxacin (ENR) were selected through screening, enrichment, and microbial diversity detection experiments. The strains screened in this study are divided into two categories through degradation efficiency experiments, community composition detection and functional enrichment analysis. In groups mix and ENR, the resistant bacteria are the main microorganisms and the degrading bacteria are the secondary ones, while in group NOR, the strains with degradation effects are the main ones, and the strains with resistance effects are the secondary ones. What’s more, that carbon sources have little effect on the community composition of the quinolone antibiotic degrading and tolerant bacteria, the difference between groups is mainly controlled by the type of antibiotics. On this basis, we found the key to NOR degradation is the cleavage of carbon nitrogen bonds on the piperazine ring, followed by oxygenation and deethylation. Preliminary studies have confirmed that the optimal degradation conditions for NOR degrading strains, and also found that environmental factors did not significantly affect the degradation efficiency of the Mix and NOR degrading strains, which indicating that the mixed bacteria can degrade NOR in different real environments effectively such as tap water, seawater, river water, and lake water. This manuscript is the first report on a mixed strain of quinolone antibiotic microbial degradation, and it is also the study with the highest NOR degradation efficiency among known reports. It has great research value for the co-metabolism and biodegradation of quinolone antibiotics in the environment.
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