gene co-expression networks

A conserved fungal Knr4/Smi1 protein is crucial for maintaining cell wall stress tolerance and host plant pathogenesis

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Researchers discovered a fungal protein called Knr4 that is essential for fungal diseases in wheat crops. This protein helps fungi survive stress and cause disease. Importantly, this protein is found in many fungal pathogens but not in other organisms, making it an ideal target for developing new disease control strategies. When this protein is removed from fungal pathogens, they lose their ability to survive stress and infect plants, suggesting it could be used to combat fungal crop diseases.

Uncovering the transcriptional landscape of Fomes fomentarius during fungal-based material production through gene co-expression network analysis

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Scientists studied how the mushroom Fomes fomentarius decomposes plant materials and grows as a biomaterial for making sustainable products. Using advanced gene analysis, they discovered which genes control the fungus’s ability to break down wood and form composites, and identified key genetic switches that could be used to improve material production. This research provides a blueprint for engineering better fungal-based alternatives to conventional construction and packaging materials.

Research Topic: gene co-expression networks

A conserved fungal Knr4/Smi1 protein is crucial for maintaining cell wall stress tolerance and host plant pathogenesis

Uncovering the transcriptional landscape of Fomes fomentarius during fungal-based material production through gene co-expression network analysis