AI Article Synopsis
- The widespread use of triazole fungicides, particularly tebuconazole, can lead to long-term adverse effects on various organisms and increased resistance, including in humans.
- Research has identified only a few microbial strains capable of biotransforming tebuconazole, which is not easily biodegradable, indicating a need for better methods of bioremediation and risk assessment.
- A specific bacterial strain, Bacillus sp. 3B6, was found to efficiently convert tebuconazole enantioselectively into two metabolites, highlighting the need for regulatory authorities to assess racemic pesticides as mixtures due to differing environmental impacts based on their chiral nature.
Article Abstract
The use of triazole fungicides in various fields ranging from agriculture to therapy, can cause long-term undesirable effects on different organisms from various environmental compartments and lead to resistance phenomena (even in humans) due to their extensive use and persistence. Their occurrence in various water bodies has increased and tebuconazole, in particular, is often detected, sometimes in high concentration. Only a few bacterial and fungal strains have been isolated and found to biotransform this fungicide, described as not easily biodegradable. Nevertheless, the knowledge of efficient degrading-strains and metabolites potentially formed could improve bioremediation process and global overview of risk assessment. Therefore, a broad screening of microorganisms, isolated from various environmental compartments or from commercially-available strain collections, allowed us to find six bacterial strains able to biotransform tebuconazole. The most efficient one was studied further: this environmental strain Bacillus sp. 3B6 biotransforms the fungicide enantioselectively (ee = 18%) into two hydroxylated metabolites, one of them being transformed in its turn to alkene by a biotic dehydration reaction. This original enantioselective pathway shows that racemic pesticides should be treated by the environmental risk assessment authorities as a mixture of two compounds because persistence, biodegradation, bioaccumulation and toxicity often show chiral dependence.
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| http://dx.doi.org/10.1016/j.jhazmat.2018.02.048 | DOI Listing |
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