Gao Yu-Xi, Li Xing, Fan Xiao-Yan, Zhao Jun-Ru, Zhang Zhong-Xing
Faculty of Architecture, Civil and Transportation Engineering, Beijing University of Technology, Beijing 100124, PR China.
Faculty of Architecture, Civil and Transportation Engineering, Beijing University of Technology, Beijing 100124, PR China.
Bioresour Technol. 2022 Nov;363:127937. doi: 10.1016/j.biortech.2022.127937. Epub 2022 Sep 10.
Effect of copper (Cu) on antibiotic resistance genes (ARGs) and bacterial/archaeal community of activated sludge under gradient increasing (0.5-10 mg/L) or decreasing exposure (10-0.5 mg/L) modes was explored. Here, 29 genes were detected among 48 selected ARGs and mobile gene elements (MGEs). Two exposure modes showed dissimilar effects on ARGs and distribution was more affected by environmental concentrations of Cu, which promoted transmission of ARGs (multiple drug resistance and sulfonamide). Cellular protection was main resistance mechanism, which was less inhibited than efflux pumps. The tnpA-02, as main MGE, interacted closely with ARGs (sul2, floR, etc.). Gradient increasing exposure mode had more effects on bacterial/archaeal structure and composition. Bacteria were main hosts for specific ARGs and tnpA-02, while archaea carried multiple ARGs (cmx(A), adeA, etc.), and bacteria (24.24 %) contributed more to changes of ARGs than archaea (19.29 %). This study clarified the impacts of Cu on the proliferation and transmission of ARGs.
研究了在梯度增加(0.5 - 10毫克/升)或减少暴露(10 - 0.5毫克/升)模式下,铜(Cu)对活性污泥中抗生素抗性基因(ARGs)以及细菌/古菌群落的影响。在此,在48个选定的ARGs和移动基因元件(MGEs)中检测到29个基因。两种暴露模式对ARGs显示出不同的影响,且分布受铜的环境浓度影响更大,铜促进了ARGs(多重耐药性和磺胺类)的传播。细胞保护是主要的抗性机制,其受抑制程度低于外排泵。作为主要MGE的tnpA - 02与ARGs(sul2、floR等)密切相互作用。梯度增加暴露模式对细菌/古菌的结构和组成影响更大。细菌是特定ARGs和tnpA - 02的主要宿主,而古菌携带多种ARGs(cmx(A)、adeA等),并且细菌(24.24%)对ARGs变化的贡献比古菌(19.29%)更大。本研究阐明了铜对ARGs增殖和传播的影响。
