heavy metal bioremediation

Copper biosorption by Serratia plymuthica: crucial role of tightly bound extracellular polymeric substances in planktonic and biofilm systems

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Researchers discovered that a bacterium called Serratia plymuthica can effectively remove copper from contaminated water using special protective layers of polymers it produces. These polymer layers, especially the protein components, act like tiny magnets that capture copper ions from solution. The study found that when these bacteria form biofilms on porous surfaces, they become even more effective at removing copper from industrial wastewater, achieving up to 97% removal efficiency even under harsh acidic conditions.

Multi-metal-resistant Staphylococcus warneri strain TWSL_1: revealing heavy metal-resistant genomic features by whole-genome sequencing and analysis

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Scientists discovered a special type of bacteria called Staphylococcus warneri TWSL_1 from textile factory wastewater that can survive and remove dangerous heavy metals like lead, cadmium, and copper from contaminated water. By analyzing the bacteria’s complete genetic code, researchers identified specific genes that help this bacteria resist and detoxify these toxic metals. This discovery suggests the bacteria could be used as a natural cleaning solution to remove heavy metal pollution from industrial wastewater, offering an eco-friendly alternative to current cleanup methods.

Editorial: Highlights of the 1st Fun-Ex Conference: evolution, biodiversity, taxonomy and genomics of extremophilic and extremotolerant fungi

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Fungi that live in extreme environments like deserts, frozen Antarctic valleys, and salt lakes have evolved remarkable survival strategies. Scientists gathered at the 1st Fun-Ex Conference to share discoveries about how these tough fungi handle stress, what makes them diverse, and how we might use them to clean up pollution or help crops grow in harsh conditions. This research shows that these extraordinary organisms could unlock new solutions for environmental and agricultural challenges.

therapeutic action: heavy metal bioremediation

Copper biosorption by Serratia plymuthica: crucial role of tightly bound extracellular polymeric substances in planktonic and biofilm systems

Multi-metal-resistant Staphylococcus warneri strain TWSL_1: revealing heavy metal-resistant genomic features by whole-genome sequencing and analysis

Editorial: Highlights of the 1st Fun-Ex Conference: evolution, biodiversity, taxonomy and genomics of extremophilic and extremotolerant fungi