inflammation – Page 5

Insights into the special physiology of Mortierella alpina cultured by agar supported solid state fermentation in enhancing arachidonic acid enriched lipid production

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Researchers developed a new fermentation method using agar plates to grow a fungus called Mortierella alpina that produces arachidonic acid, an important nutrient used in medicines and supplements. This method produced significantly more arachidonic acid than traditional liquid fermentation while being more environmentally friendly. By understanding how the fungus grows differently on agar plates, they optimized the production process to achieve even higher yields, making this approach promising for commercial production.

Haplotype-Phased Chromosome-Level Genome Assembly of Floccularia luteovirens Provides Insights into Its Taxonomy, Adaptive Evolution, and Biosynthetic Potential

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Scientists successfully decoded the complete genetic blueprint of the yellow mushroom (Floccularia luteovirens), a valuable medicinal fungus found on the Tibetan Plateau. The high-quality genome assembly revealed the mushroom produces many different beneficial compounds like antitumor and anti-inflammatory molecules. The study also corrected previous scientific confusion about the mushroom’s evolutionary classification, showing it’s more closely related to other fungi than previously thought, and revealed how it adapted to harsh alpine conditions.

Inonotus obliquus aqueous extract prevents histopathological alterations in liver induced by environmental toxicant Microcystin

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This research shows that Chaga mushroom extract can protect the liver from damage caused by microcystin, a toxic chemical produced by cyanobacteria in water. When mice were exposed to microcystin, their livers became damaged, but treating them with Chaga mushroom extract restored normal liver function and prevented cell death. The study suggests Chaga mushroom could be used as a natural supplement to prevent liver toxicity from environmental pollutants.

Valorization of various lignocellulosic wastes to Ganoderma lucidum (Curtis) P. Karst (Reishi Mushroom) cultivation and their FT-IR assessments

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This research demonstrates how agricultural and forestry waste materials can be effectively converted into nutritious Reishi mushrooms through sustainable cultivation practices. Oak wood substrates produced the highest mushroom yields, while various agricultural wastes showed promising results for producing medicinal mushrooms. Using specialized spectroscopy techniques, scientists confirmed that the Reishi mushroom effectively breaks down and utilizes the complex plant materials in these waste substrates. This approach offers an environmentally friendly solution to waste management while producing valuable medicinal mushrooms.

Multi-omics analysis of Taiwanofungus gaoligongensis: effects of different cultivation methods on secondary metabolites

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Researchers studied how different growing methods affect the medicinal compounds produced by Taiwanofungus gaoligongensis, a rare fungus. By growing the fungus on different substrates including wood from specific trees, they found that certain growing methods produced much higher levels of beneficial compounds like antcins that have anti-cancer and anti-inflammatory properties. They also identified which genes control the production of these compounds, which could help improve cultivation methods to make the fungus more medicinally valuable.

Insights into microbiome-triterpenoid correlation in Poria cocos via comparative analysis of sclerotial and soil microenvironments

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Researchers discovered that the medicinal fungus Poria cocos creates its own specialized microbial environment in its underground structure that is closely linked to the production of pachymic acid, a compound with anti-cancer and immune-boosting properties. By comparing the microbes living in the fungus versus surrounding soil, they found specific beneficial bacteria and fungi that thrive in the fungus but are rare in soil. This discovery could help improve cultivation techniques to produce higher quality medicinal fungi with more therapeutic compounds.

Innovative applications of medicinal mushrooms in functional foods and nutraceuticals: a focus on health-boosting beverages

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This comprehensive review explores how medicinal mushrooms are being transformed into health-boosting beverages like coffees, teas, and energy drinks. Mushrooms contain powerful compounds that support immunity, reduce inflammation, protect the liver, and enhance brain function. As consumers increasingly seek natural health alternatives, mushroom beverages are emerging as a major market trend, combining ancient wellness traditions with modern science to create convenient, tasty drinks that genuinely benefit health.

Impact of Interactions Between Zn(II) and Selenites in an Aquatic Environment on the Accumulation of Se and Zn in a Fungal Cell

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Researchers studied how Shiitake mushrooms accumulate selenium and zinc from growth media, finding that these two elements form chemical complexes that interfere with absorption. When both elements are present together in the culture medium, they bind to each other instead of being taken up by the mushroom cells, reducing the final content of both nutrients. Understanding this interaction is important for developing enhanced mushroom-based dietary supplements containing both selenium and zinc.

Multi-omics analysis of Taiwanofungus gaoligongensis: effects of different cultivation methods on secondary metabolites

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Scientists studied a medicinal mushroom called Taiwanofungus gaoligongensis to understand how different growing methods affect the production of beneficial compounds. They found that growing the mushroom in special bags with certain wood substrates produced far more of the valuable compounds (up to 12-fold more) compared to growing it on rice medium. By examining which genes were active in different growing conditions, they discovered how the mushroom’s cells control the production of these medicinal compounds, which could help farmers grow more potent medicinal mushrooms.

Research Progress on Nutritional Components, Functional Active Components, and Pharmacological Properties of Floccularia luteovirens

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Floccularia luteovirens is a special mushroom from the Qinghai-Tibet Plateau that has been used in traditional Tibetan medicine for centuries. It is extremely nutritious, containing as much protein as meat and numerous beneficial compounds. Scientific research shows it can help fight disease, boost immunity, and even preserve food naturally, making it promising for development as a health supplement and functional food.

Disease: inflammation