Disease: MRSA infections

An Overview of Microorganisms Immobilized in a Gel Structure for the Production of Precursors, Antibiotics, and Valuable Products

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Scientists have developed methods to trap bacteria and fungi inside gel structures, similar to tiny capsules. These immobilized microorganisms can produce antibiotics and other useful medicines more efficiently and continuously than free-floating cells. The gel structures protect the cells, allow them to be reused multiple times, and reduce production costs, making medicine manufacturing faster and cheaper.

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Endophytic fungi isolated from Vietnamese nut grass (Cyperus rotundus L. Cyperaceae) – A promising solution to mitigate the prime phenomenon of antibiotic resistance

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Scientists discovered seven types of fungi living inside nut grass plants that can fight dangerous bacteria, including those resistant to current antibiotics. These fungi showed strong ability to kill drug-resistant staph bacteria and other serious pathogens. The findings suggest that these naturally-occurring fungi could be developed into new antibiotics to treat infections that currently have limited treatment options.

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Biosynthesis of bimetallic silver–copper oxide nanoparticles using endophytic Clonostachys rosea ZMS36 and their biomedical applications

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Scientists discovered a special fungus living inside a medicinal plant that can create tiny silver-copper nanoparticles with powerful antibacterial and anti-cancer properties. These nanoparticles successfully fought dangerous bacteria like MRSA and slowed the growth of cancer cells while being safe to healthy cells. This green manufacturing method is much more environmentally friendly than traditional chemical approaches and could lead to new treatments for infections and cancer.

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Strategies and materials for the prevention and treatment of biofilms

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Biofilms are sticky communities of bacteria that form on medical devices and surfaces, making infections very difficult to treat with antibiotics. This review explains how biofilms develop in stages and describes different ways to stop them from forming or to destroy them once they exist. Solutions include special coatings on medical implants, natural plant extracts like essential oils, and engineered proteins called antimicrobial peptides that fight bacteria without creating antibiotic resistance.

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