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FMNH2-dependent monooxygenases initiate catabolism of sulfonamides in <i>Microbacterium</i> sp strain BR1 subsisting on sulfonamide antibiotics
Ricken, B., Kolvenbach, B. A., Bergesch, C., Benndorf, D., Kroll, K., Strnad, H., … Corvini, P. F. X. (2017). FMNH2-dependent monooxygenases initiate catabolism of sulfonamides in Microbacterium sp strain BR1 subsisting on sulfonamide antibiotics. Scientific Reports, 7, 15783 (11 pp.). https://doi.org/10.1038/s41598-017-16132-8
Degradation of sulfonamide antibiotics by <I>Microbacterium</I> sp. strain BR1 - elucidating the downstream pathway
Ricken, B., Fellmann, O., Kohler, H. P. E., Schäffer, A., Corvini, P. F. X., & Kolvenbach, B. A. (2015). Degradation of sulfonamide antibiotics by Microbacterium sp. strain BR1 - elucidating the downstream pathway. New Biotechnology, 32(6), 710-715. https://doi.org/10.1016/j.nbt.2015.03.005
Emerging chemicals and the evolution of biodegradation capacities and pathways in bacteria
Kolvenbach, B. A., Helbling, D. E., Kohler, H. P. E., & Corvini, P. F. X. (2014). Emerging chemicals and the evolution of biodegradation capacities and pathways in bacteria. Current Opinion in Biotechnology, 27, 8-14. https://doi.org/10.1016/j.copbio.2013.08.017
<em>ipso</em>-hydroxylation and subsequent fragmentation: a novel microbial strategy to eliminate sulfonamide antibiotics
Ricken, B., Corvini, P. F. X., Cichocka, D., Parisi, M., Lenz, M., Wyss, D., … Kolvenbach, B. A. (2013). ipso-hydroxylation and subsequent fragmentation: a novel microbial strategy to eliminate sulfonamide antibiotics. Applied and Environmental Microbiology, 79(18), 5550-5558. https://doi.org/10.1128/AEM.00911-13