Ganoderma lingzhi – Page 2

Artificial Neural Network Prediction of Mechanical Properties in Mycelium-Based Biocomposites

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Researchers used artificial intelligence to predict how strong mushroom-based materials would be. These eco-friendly composites are made from wood particles held together by fungal networks instead of synthetic glue. The AI model successfully learned to predict the strength of these materials based on which type of fungus was used and what wood particles they were grown on, potentially reducing the need for expensive testing.

Heat Treatment of Reishi Medicinal Mushroom (Ganoderma lingzhi) Basidiocarp Enhanced Its β-glucan Solubility, Antioxidant Capacity and Lactogenic Properties

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This study shows that heating dried Reishi mushrooms at 150°C for 20 minutes improves their health benefits. The heat treatment increases antioxidant compounds, makes the beneficial β-glucans more available, and enhances prebiotic effects that feed good gut bacteria while suppressing harmful bacteria. These findings suggest that properly heated Reishi mushroom products could be more effective as functional food ingredients without losing their medicinal properties.

Fungal Innovations—Advancing Sustainable Materials, Genetics, and Applications for Industry

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Fungi can be engineered to create sustainable, eco-friendly materials for construction, textiles, and packaging. Using advanced genetic tools and controlled growing conditions, scientists can customize fungal materials to have specific properties like flexibility or rigidity. These mycelium-based materials are biodegradable, renewable, and offer promising alternatives to traditional synthetic and conventional materials, helping reduce our dependence on petroleum-based products.

Traditional uses, chemical components and pharmacological activities of the genus Ganoderma P. Karst.: a review

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Ganoderma, a medicinal fungus used in traditional medicine for over 2000 years, contains many beneficial compounds including triterpenes and polysaccharides. Scientific research has confirmed its effectiveness in treating various conditions including cancer, diabetes, infections, and inflammation. The fungus works by boosting the immune system, reducing oxidative stress, and directly inhibiting disease-causing organisms. Modern cultivation methods have made Ganoderma products widely available as supplements and medicines worldwide.

Mycofabrication of sustainable mycelium-based leather using Talaromyces sp. and irradiated eggplant peel waste

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Scientists developed a new type of eco-friendly leather made from fungal mycelium grown on eggplant peel waste. Using radiation to treat the eggplant peels made them stronger and more flexible, and optimizing the growing conditions improved the material’s quality. The resulting mycoleather has mechanical properties comparable to real leather but is completely biodegradable and sustainable, offering a promising alternative to traditional leather production.

Identifying the “Mushroom of Immortality”: Assessing the Ganoderma Species Composition in Commercial Reishi Products

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Researchers tested 37 reishi mushroom products and kits sold in the United States and found that most were mislabeled. While products claimed to contain Ganoderma lucidum, over 93% of manufactured products actually contained Ganoderma lingzhi, a different Asian species. The study discovered that 86% of products tested contained something other than what the label claimed, which matters because different Ganoderma species have different chemical compositions and potentially different health benefits.

Transcriptomic and metabolic profiling reveals adaptive mechanisms of Auricularia heimuer to temperature stress

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Researchers studied how a popular edible mushroom called black wood ear (Auricularia heimuer) adapts to different temperatures. They found that the mushroom grows best at 35°C but struggles at very cold (15°C) or extremely hot (45°C) temperatures. By analyzing the genes and chemicals produced by the mushroom at different temperatures, scientists discovered that the mushroom uses different survival strategies depending on how hot or cold it is, which could help farmers grow better mushrooms.

Mass Spectrometry-Based Untargeted Metabolomics and α-Glucosidase Inhibitory Activity of Lingzhi (Ganoderma lingzhi) During the Developmental Stages

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Scientists studied how the medicinal mushroom Lingzhi changes chemically as it grows from mycelium through various stages to mature fruiting bodies. They found that the mushroom contains many beneficial compounds, including special molecules called triterpenoids, that help block α-glucosidase, an enzyme involved in blood sugar control. Interestingly, the immature mushroom stage showed the strongest anti-diabetic activity, suggesting farmers should harvest at specific times depending on desired health benefits rather than always waiting for full maturity.

Fungal Innovations—Advancing Sustainable Materials, Genetics, and Applications for Industry

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Fungi can be engineered to create sustainable, eco-friendly materials that could replace traditional plastics and leather. Scientists are using advanced genetic tools to control how fungi grow and what they produce, enabling the creation of customized materials with specific properties. These fungal-based materials are biodegradable, require less water and energy to produce, and show promise for applications in packaging, clothing, and building materials. With improved manufacturing processes and genetic engineering, fungi could revolutionize how we make everyday products.

Molecular Identification, Mycelial Growth Kinetics, and Antimicrobial Potential of Newly Isolated Medicinal Mushroom Fomitopsis pinicola from Bulgaria

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Scientists isolated and studied a medicinal mushroom called Fomitopsis pinicola from Bulgaria. They confirmed its identity using DNA analysis and tested how well it grows on different nutrient media. The mushroom showed strong antimicrobial effects against disease-causing bacteria, especially when extracted with water, making it a promising candidate for developing new antibiotics to fight antibiotic-resistant infections.

Fungal Species: Ganoderma lingzhi