enzyme activity – mycolab.ai

A Combination of Transcriptome and Enzyme Activity Analysis Unveils Key Genes and Patterns of Corncob Lignocellulose Degradation by Auricularia heimuer under Cultivation Conditions

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Researchers investigated using corncob, a corn industry byproduct, as a growing medium for Auricularia heimuer mushrooms instead of expensive sawdust. By analyzing which genes the mushroom activates at different growth stages, they identified key enzymes responsible for breaking down corncob’s tough cellulose structure. The findings show the mushroom can effectively adapt to use corncob as a substrate, offering a sustainable and economical alternative for mushroom farming while reducing agricultural waste.

Ganoapplanilactone C from Ganoderma applanatum Ameliorates Metabolic Dysfunction-Associated Steatotic Liver Disease via AMPK/mTOR-Mediated Lipid Regulation in Zebrafish

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Researchers found that a compound called ganoapplanilactone C from the medicinal mushroom Ganoderma applanatum can protect the liver from fat accumulation and damage caused by high-fat diets. In zebrafish studies, this compound worked better than a common cholesterol drug at reducing liver fat and improving liver health. The compound appears to work by activating a protein called AMPK that helps regulate how the body processes fats and reduces inflammation.

Production, optimization and characterization of esterase isolated from a new endophytic Trichoderma afroharzianum strain AUMC 16,433 and its applications in dye decolorization

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Scientists discovered a new type of fungus that produces an enzyme capable of breaking down synthetic dyes used in the textile industry. Using statistical optimization techniques, they enhanced the enzyme’s production and purified it to study its properties. The enzyme successfully removed various industrial dyes from solutions, with the highest effectiveness on malachite green dye. This discovery offers a promising natural solution to reduce environmental pollution caused by textile dye wastewater.

Application of Fungus Enzymes in Spent Mushroom Composts from Edible Mushroom Cultivation for Phthalate Removal

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This research shows that leftover mushroom growing material (spent compost) can be used to clean phthalates from wastewater. Phthalates are harmful chemicals found in plastics that can damage human health. Scientists tested four types of mushroom composts and found they all worked, with the best results removing 99% of certain phthalates. This provides an affordable, eco-friendly way to treat polluted water.

The impact of continuous cultivation of Ganoderma lucidum on soil nutrients, enzyme activity, and fruiting body metabolites

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This study examined how growing Ganoderma lucidum (a medicinal mushroom) on the same land for two consecutive years affects the soil and the mushroom’s beneficial compounds. Researchers found that continuous cultivation depleted soil nutrients and reduced enzyme activity, particularly in the top layer of soil. The mushrooms grown in the first year had more beneficial compounds than those grown in the second year, with differences linked to changes in soil quality and microbial activity.

Metagenomic Analysis: Alterations of Soil Microbial Community and Function due to the Disturbance of Collecting Cordyceps sinensis

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This research examines how harvesting Cordyceps sinensis (a valuable medicinal fungus) affects the soil’s microscopic organisms on the Tibetan Plateau. While collection doesn’t reduce the total number of microbes, it significantly changes which types live in the soil and how they function. The study found that collection alters important soil processes related to carbon, nitrogen, and phosphorus cycling, suggesting that harvesting practices need to balance economic benefits with environmental health.

Evaluation of the Influence of Varied Juncao Grass Substrates on Physiological and Enzymatic Reactions of Pleurotus ostreatus

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This study tested three types of Juncao grass as growing materials for oyster mushrooms as an eco-friendly alternative to using wood. Researchers measured how well the mushrooms grew, their nutritional value, and the enzymes produced during cultivation. The grass called Cenchrus fungigraminus produced the best results with the highest yield and quality, making it a promising sustainable solution for mushroom farming that helps reduce deforestation.

Breaking Down Linear Low-Density Polyethylene (LLDPE) Using Fungal Mycelium (Part A): A Path Towards Sustainable Waste Management and Its Possible Economic Impacts

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Researchers discovered that certain fungi, especially Schizophyllum commune, can effectively break down plastic waste called LLDPE through their natural enzymes. In laboratory tests, this fungus degraded plastic about 20 times faster than samples without fungal treatment over 30 days. This fungal approach is cheaper and more environmentally friendly than traditional methods like incineration or landfilling, and could help solve plastic pollution while creating jobs and using agricultural waste productively.

Fungus-mediated bacterial survival and migration enhance wood lignin degradation

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Researchers discovered that certain bacteria living in decaying wood can travel along fungal threads and help fungi break down tough lignin more efficiently. The bacteria consume sugar and aromatic compounds produced by the fungi, which removes substances that would otherwise slow down the fungal degradation process. This mutualistic partnership between bacteria and fungi shows how nature optimizes wood decomposition in forests, with potential applications for improving biomass conversion in industrial settings.

Dynamic succession of microbial compost communities and functions during Pleurotus ostreatus mushroom cropping on a short composting substrate

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Researchers studied how bacteria and fungi work together when growing oyster mushrooms on composted materials. They found that certain bacteria, particularly Actinomycetales, increase in abundance as mushrooms grow and help break down tough plant materials like cellulose. These bacteria actually help the mushroom grow better, suggesting a cooperative relationship rather than competition. This knowledge could help improve mushroom production efficiency.

Research Keyword: enzyme activity