Anti-Therapeutic Action: anemia

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.

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Efficient Copper Biosorption by Rossellomorea sp. ZC255: Strain Characterization, Kinetic–Equilibrium Analysis, and Genomic Perspectives

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Scientists found that a bacterium called Rossellomorea sp. ZC255 can efficiently remove copper pollution from water. The strain works best at neutral pH and room temperature, achieving a removal capacity of 253.4 mg of copper per gram of bacterial biomass. By studying the bacteria’s structure and genes, researchers discovered that the removal happens through both surface binding and internal accumulation mechanisms, making it a promising eco-friendly solution for treating polluted water.

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Methods for Overcoming Chemoresistance in Head and Neck Squamous Cell Carcinoma: Keeping the Focus on Cancer Stem Cells, a Systematic Review

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Head and neck cancer is often resistant to chemotherapy because of cancer stem cells that survive treatment and cause recurrence. This review examined 31 studies on methods to overcome this resistance, finding that natural products like mushrooms (Ganoderma lucidum), plants (sulforaphane from broccoli, curcumin from turmeric), and synthetic compounds can enhance chemotherapy effectiveness when combined with traditional drugs. These approaches work by targeting the specific pathways that allow cancer stem cells to survive, potentially improving treatment outcomes while reducing required drug doses and side effects.

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