Research Keyword: carbohydrate-active enzymes

High-quality genome assembly and annotation of Porodaedalea mongolica and Porodaedalea schrenkiana provide insights into potential industrial and medical application

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Scientists sequenced the genomes of two medicinal wood-decay fungi species (Porodaedalea mongolica and P. schrenkiana) for the first time using advanced sequencing technology. These fungi produce beneficial compounds with anti-inflammatory and anticancer properties, and can degrade environmental pollutants. The detailed genetic information revealed how these fungi break down wood and create bioactive compounds, opening new possibilities for medical treatments and industrial applications like environmental cleanup.

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Biological and Genomic Insights into Fusarium acuminatum Causing Needle Blight in Pinus tabuliformis

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Researchers identified a fungus called Fusarium acuminatum as the cause of needle blight disease affecting Chinese pine trees in northern China. They studied how this fungus grows and sequenced its entire genome to understand how it damages the trees. The findings help explain the disease and provide tools to develop better ways to protect and treat infected pine trees.

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Genome Sequencing of Cladobotryum protrusum Provides Insights into the Evolution and Pathogenic Mechanisms of the Cobweb Disease Pathogen on Cultivated Mushroom

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Researchers sequenced the complete genome of Cladobotryum protrusum, a fungus that causes cobweb disease on cultivated mushrooms. This genome contains genes for producing toxins and enzymes that help the fungus attack and digest mushroom cells. Understanding this genetic blueprint could help farmers develop better strategies to control this disease and protect their mushroom crops from significant economic losses.

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