Research Keyword: pesticide degradation

Actinomycetes in the spotlight: biodiversity and their role in bioremediation

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Actinomycetes are bacteria that naturally occur in soil and marine environments and have unique abilities to break down harmful pollutants like heavy metals, oil, pesticides, and dyes. These microorganisms use specialized enzymes and mechanisms to remove or transform toxic substances, making them promising candidates for cleaning up contaminated environments. Combining multiple strains together and using modern genetic engineering could make these bacteria even more effective for large-scale environmental cleanup projects.

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Immobilization of Acinetobacter sp. A-1 and Applicability in Removal of Difenoconazole from Water–Sediment Systems

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Scientists discovered a bacterium that can break down difenoconazole, a fungicide widely used in agriculture. They trapped these bacteria in tiny gel beads to make them more stable and effective at cleaning up contaminated water and soil. The immobilized bacteria were more resilient and broke down the pesticide more efficiently than free bacteria, offering a promising natural solution for cleaning up fungicide pollution in the environment.

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In Vitro and Computational Response of Differential Catalysis by Phlebia brevispora BAFC 633 Laccase in Interaction with 2,4-D and Chlorpyrifos

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Scientists studied how two common pesticides (2,4-D and chlorpyrifos) interact with an enzyme called laccase produced by a white rot fungus. Using laboratory tests and computer simulations, they found that the fungus can survive exposure to these pesticides while still producing active laccase. Importantly, chlorpyrifos actually increased the enzyme’s activity, suggesting it could be useful for breaking down pesticide-contaminated soil and water.

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