Research Keyword: transformation

Saprotrophic Arachnopeziza Species as New Resources to Study the Obligate Biotrophic Lifestyle of Powdery Mildew Fungi

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Scientists studied two species of fungi called Arachnopeziza that are closely related to powdery mildew fungi but can grow independently on simple lab media. By analyzing their complete genomes and developing techniques to genetically modify these fungi, researchers created a new tool for understanding how powdery mildew fungi became dependent on plants. This breakthrough allows scientists to study these harmful plant pathogens more effectively without having to work directly with the difficult-to-cultivate powdery mildew fungi.

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Development of a molecular genetics and cell biology toolbox for the filamentous fungus Diplodia sapinea

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Scientists have developed new tools to study a fungus called Diplodia sapinea that damages pine trees around the world. They created a method to genetically modify this fungus and tag its cell nuclei with a red fluorescent marker so they can track the infection process. They also developed a simple way to test infections using young pine seedlings in the laboratory instead of large greenhouse setups. Using these new tools together, researchers can now watch in real-time how the fungus grows inside infected pine plants, which will help develop better ways to protect forests.

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Selective Homologous Expression of Recombinant Manganese Peroxidase Isozyme of Salt-Tolerant White-Rot Fungus Phlebia sp. MG-60, and Its Salt-Tolerance and Thermostability

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Scientists studied a special fungus from mangrove forests that can break down tough plant materials in salty environments. They created engineered versions that produce three different types of a cleanup enzyme called manganese peroxidase. One version of this enzyme was found to actually work better in salty conditions and remain stable at high temperatures, making it potentially useful for industrial applications in harsh environments.

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