Research Keyword: fungal transformation

Providing a toolbox for genomic engineering of Trichoderma aggressivum

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Scientists have created a set of tools to genetically engineer Trichoderma aggressivum, a fungus that causes green mold disease in cultivated mushrooms but can also be used beneficially. The study provides step-by-step methods for transforming this fungus using both traditional plasmid methods and modern CRISPR gene-editing technology. These tools will help researchers understand how the fungus works and potentially harness its beneficial properties for agriculture.

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Development of Green Fluorescent Protein-Tagged Strains of Fusarium acuminatum via PEG-Mediated Genetic Transformation

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Scientists developed a method to genetically modify a harmful fungus called Fusarium acuminatum that causes root rot in plants like carnations. Using a technique that breaks down the fungal cell wall and uses a special chemical (PEG) to insert genes, they successfully added a green-glowing protein (GFP) marker to the fungus. This allows researchers to track where and how the fungus infects plants. The modified fungus still behaves normally, making it a useful tool for identifying which genes make the fungus dangerous, potentially leading to better disease control methods.

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Esterase and Peroxidase Are Involved in the Transformation of Chitosan Films by the Fungus Fusarium oxysporum Schltdl. IBPPM 543

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Scientists discovered that a common fungus called Fusarium oxysporum can modify chitosan films (made from a natural polymer related to shellfish shells) without destroying them. The fungus produces special enzymes that change the structure of the films, making them stronger and less soluble in acidic solutions. These modified films could be useful for creating new medical devices, drug carriers, and other materials.

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