Chloramphenicol biodegradation by enriched bacterial consortia and isolated strain Sphingomonas sp. CL5. 1: the reconstruction of a novel biodegradation pathway J Zhang, W Gan, R Zhao, K Yu, H Lei, R Li, X Li, B Li Water Research 187, 116397, 2020 | 44 | 2020 |
New insights into thiamphenicol biodegradation mechanism by Sphingomonas sp. CL5. 1 deciphered through metabolic and proteomic analysis J Zhang, X Li, H Lei, R Zhao, W Gan, K Zhou, B Li Journal of Hazardous Materials 426, 128101, 2022 | 18 | 2022 |
Catalytic activity enhancement by P and S co-doping of a single-atom Fe catalyst for peroxymonosulfate-based oxidation Y Li, J Hu, Y Zou, L Lin, H Liang, H Lei, B Li, X Li Chemical Engineering Journal 453, 139890, 2023 | 17 | 2023 |
New insights into lincomycin biodegradation by Conexibacter sp. LD01: Genomics characterization, biodegradation kinetics and pathways H Lei, J Zhang, J Huang, D Shen, Y Li, R Jiao, R Zhao, X Li, L Lin, B Li Journal of Hazardous Materials 441, 129824, 2023 | 8 | 2023 |
Deciphering chloramphenicol biotransformation mechanisms and microbial interactions via integrated multi-omics and cultivation-dependent approaches J Zhang, X Li, U Klümper, H Lei, TU Berendonk, F Guo, K Yu, C Yang, B Li Microbiome 10 (1), 180, 2022 | 8 | 2022 |
The development of variation-based rifampicin resistance in Staphylococcus aureus deciphered through genomic and transcriptomic study J Zhang, J Xu, H Lei, H Liang, X Li, B Li Journal of Hazardous Materials 442, 130112, 2023 | 7 | 2023 |
The Successional Pattern of Microbial Communities and Critical Genes of Consortia Subsisting on Chloramphenicol and Its Metabolites Through Long-Term Domestication J Zhang, K Zhou, F Guo, H Lei, R Zhao, L Lin, X Li, B Li Engineering, 2023 | 1 | 2023 |
A panoramic view of the virosphere in three wastewater treatment plants by integrating viral‐like particle‐concentrated and traditional non‐concentrated metagenomic approaches J Zhang, A Tang, T Jin, D Sun, F Guo, H Lei, L Lin, W Shu, P Yu, X Li, B Li iMeta, e188, 2024 | | 2024 |
Novel pathway points to ways of harnessing microbes to degrade antibiotic chloramphenicol J Zhang, X Li, U Klümper, H Lei, TU Berendonk, F Guo, K Yu, C Yang, B Li | | 2023 |