Research Keyword: fungal screening

Large-scale phenotyping of 1,000 fungal strains for the degradation of non-natural, industrial compounds

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Scientists tested over 1,000 different fungi to see which ones could break down human-made pollutants like industrial dyes, plastics, and paper waste. They found that different types of fungi are good at degrading different pollutants, with wood-decaying fungi being particularly useful. This research suggests that fungi could be engineered to help clean up environmental pollution caused by industry and human activities.

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Fungal Ligninolytic Enzymes and Their Application in Biomass Lignin Pretreatment

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Scientists tested ten different types of fungi to see which ones could best break down lignin, a tough natural material found in plants. Four fungi species showed exceptional ability to produce special enzymes that decompose lignin. These findings could help develop new eco-friendly industrial processes for converting plant waste into useful products, potentially reducing reliance on chemical treatments and fossil fuels.

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Isolation and screening of wood-decaying fungi for lignocellulolytic enzyme production and bioremediation processes

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Researchers isolated wood-decaying fungi from forests in Latvia to identify species that produce powerful enzymes capable of breaking down complex plant materials. These enzymes have practical applications in cleaning contaminated water, treating textile industry waste, and converting plant biomass into useful products. The study found that certain environmental fungi, particularly Trametes pubescens, produced enzymes at levels exceeding those of commercially used strains, suggesting they could be valuable tools for environmental cleanup and industrial processes.

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Automatic classification of fungal-fungal interactions using deep learning models

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Researchers developed a computer artificial intelligence system that can automatically analyze images of fungal interactions to identify strains that could help control harmful crop diseases. Instead of having humans manually examine thousands of fungal culture plates—a slow and subjective process—the AI system can now classify the interactions between beneficial fungi and plant pathogens with 95% accuracy. This breakthrough significantly speeds up the search for natural alternatives to synthetic pesticides, supporting sustainable agriculture and food security.

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Exploration of Mangrove Endophytes as Novel Sources of Tannase Producing Fungi

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Scientists discovered that fungi living inside mangrove plant tissues can produce tannase, an enzyme that breaks down tannins into a useful compound called gallic acid. Two fungal species, Phyllosticta capitalensis and Aspergillus chevalieri, were found to be particularly good at producing this enzyme. This discovery is significant because tannase has many industrial applications in making medicines, processing food, and cleaning up the environment. The researchers also figured out the best conditions (temperature, pH level, and time) for these fungi to produce the most enzyme.

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