Biodegradation efficiency and mechanism of erythromycin degradation by Paracoccus versutus W7.

Continuous and excessive usage of erythromycin results in serious environmental pollution and presents a health risk to humans. Biological treatment is considered as an efficient and economical method to remove it from the environment. In this study, a novel erythromycin-degrading bacterial strain, W7, isolated from sewage sludge was identified as Paracoccus versutus. Strain W7 degraded 58.5% of 50 mg/L erythromycin in 72 h under the optimal conditions of 35 °C, pH 7.0, and 0.1% sodium citrate with yeast powder in mineral salt medium. It completely eliminated erythromycin from erythromycin fermentation residue at concentrations of 100 and 300 mg/L within 36 and 60 h, respectively. Erythromycin esterase (EreA) was found to be involved in erythromycin metabolism in this strain and was expressed successfully. EreA could hydrolyze erythromycin, and its maximum activity occurred at pH 8.5 and 35 °C. Finally, six intermediates of erythromycin degraded by strain W7 were detected by high performance liquid chromatography mass spectrometry. Based on the novel intermediates and enzymes, we determined two possible pathways of erythromycin degradation by strain W7. This study broadened our understanding of the erythromycin catabolic processes of P. versutus and developed a feasible microbial strategy for removing erythromycin from erythromycin fermentation residue, wastewater, and other erythromycin-contaminated environments. Copyright © 2023 Elsevier Ltd. All rights reserved.

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Jianjun Ren, Xiancheng Qi, Jian Zhang, Dongze Niu, Yunpeng Shen, Changyong Yu, Junqiang Zhi, Chongqing Wang, Xingmei Jiang, Wenfan Zhang, Chunyu Li. Biodegradation efficiency and mechanism of erythromycin degradation by Paracoccus versutus W7. Journal of environmental management. 2023 Apr 15;332:117372

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PMID: 36731410

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