Biotransformation mechanism of Vibrio diabolicus to sulfamethoxazole at transcriptional level
Sulfamethoxazole (SMX) has attracted much attention due to its high probability of detection in the environment. Marine bacteria Vibrio diabolicus strain L2–2 has been proven to be able to transform SMX. In this study, the potential resistance and biotransformation mechanism of strain L2–2 to SMX, a...
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Veröffentlicht in: | Journal of hazardous materials 2021-06, Vol.411, p.125023-125023, Article 125023 |
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Sprache: | eng |
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Zusammenfassung: | Sulfamethoxazole (SMX) has attracted much attention due to its high probability of detection in the environment. Marine bacteria Vibrio diabolicus strain L2–2 has been proven to be able to transform SMX. In this study, the potential resistance and biotransformation mechanism of strain L2–2 to SMX, and key genes responses to SMX at environmental concentrations were researched. KEGG pathways were enriched by down-regulated genes including degradation of L-Leucine, L-Isoleucine, and fatty acid metabolism. Resistance mechanism could be concluded as the enhancement of membrane transport, antioxidation, response regulator, repair proteins, and ribosome protection. Biotransformation genes might involve in arylamine N-acetyltransferases (nat), cytochrome c553 (cyc-553) and acyl-CoA synthetase (acs). At the environmental concentration of SMX (0.1–10 μg/L), nat was not be activated, which meant the acetylation of SMX might not occur in the environment; however, cyc-553 was up-regulated under SMX stress of 1 μg/L, which indicated the hydroxylation of SMX could occur in the environment. Besides, the membrane transport and antioxidation of strain L2–2 could be activated under SMX stress of 10 μg/L. The results provided a better understanding of resistance and biotransformation of bacteria to SMX and would support related researches about the impacts of environmental antibiotics.
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•The transcriptomic analysis of sulfonamides biotransformation bacteria Vibrio diabolicus strain L2–2 were reported.•The potential SMX resistance and biotransformation mechanism was revealed.•The responses of key genes were studied at environmental concentration of SMX (0.1–10 μg/L). |
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ISSN: | 0304-3894 1873-3336 |
DOI: | 10.1016/j.jhazmat.2020.125023 |