protoplast regeneration

Establishment of a genetic transformation system for cordycipitoid fungus Cordyceps chanhua

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Scientists have successfully developed a method to genetically modify Cordyceps chanhua, an important medicinal mushroom used in traditional Chinese medicine for over 1,600 years. By optimizing how they prepare fungal cells and introduce foreign genes, they created a reliable genetic transformation system that can be used to study which genes produce beneficial compounds in this mushroom. This breakthrough will help researchers understand and potentially enhance the medicinal properties of C. chanhua.

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.

Research Keyword: protoplast regeneration

Establishment of a genetic transformation system for cordycipitoid fungus Cordyceps chanhua

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