Research Keyword: cell wall

Functional analysis of a novel endo-β-1,6-glucanase MoGlu16 and its application in detecting cell wall β-1,6-glucan of Magnaporthe oryzae

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Scientists discovered and studied a special enzyme called MoGlu16 from rice blast fungus that breaks down a key component of fungal cell walls called β-1,6-glucan. This enzyme can be used to visualize where this cell wall component is located in the fungus at different stages of its life cycle. When applied to fungus spores, the enzyme prevents them from sprouting and forming infection structures, making it a promising candidate for developing new ways to control rice blast disease.

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Cell wall remodeling in a fungal pathogen is required for hyphal growth into microspaces

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Researchers discovered how fungi squeeze through tiny spaces inside plant tissues to cause disease. They found that fungi need to soften and remodel their cell walls to reduce their width and fit through spaces that are much narrower than normal fungal filaments. This ability to change shape is critical for the fungus to invade and colonize plants, ultimately causing wilting diseases in crops like tomatoes.

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Functions of the Three Common Fungal Extracellular Membrane (CFEM) Domain-Containing Genes of Arthrobotrys flagrans in the Process of Nematode Trapping

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Researchers studied three genes (CFEM1-3) in a fungus called Arthrobotrys flagrans that traps and kills parasitic worms. By deleting or increasing these genes, scientists found they control how the fungus makes sticky trap networks and how thick the trap walls are. This knowledge could help develop natural pest control products to protect plants and animals from harmful parasitic nematodes.

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You Are What You Eat: How Fungal Adaptation Can Be Leveraged toward Myco-Material Properties

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Fungi can be grown to create eco-friendly materials that could replace plastics and petroleum-based products. By controlling what fungi eat and where they grow, scientists can engineer the properties of these materials to be stronger, more flexible, or water-resistant. This approach leverages the natural ability of fungi to break down organic matter and adapt to their environment. Companies like IKEA and Dell are already using these fungal materials in product packaging.

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