immunomodulatory effects – Page 2

Airlift bioreactor–based strategies for prolonged semi-continuous cultivation of edible Agaricomycetes

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Scientists studied how to grow medicinal mushrooms in liquid bioreactors to produce health-beneficial compounds called glucans more efficiently. By testing different feeding rates in specially designed fermentation systems, they found that Trametes versicolor (turkey tail mushroom) grows best at a moderate feeding rate, producing substantial amounts of glucans—compounds known to support immune function and reduce blood sugar levels. This research shows that growing medicinal mushrooms in controlled bioreactors could be much more efficient and faster than traditional farming methods.

Chemical Content and Cytotoxic Activity on Various Cancer Cell Lines of Chaga (Inonotus obliquus) Growing on Betula pendula and Betula pubescens

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This study examined chaga mushroom, a traditional medicine used against cancer, grown on two types of birch trees. Researchers tested chaga extracts on 31 different cancer cell types and found they were moderately effective at inhibiting cancer cell growth, particularly against liver and thyroid cancers. The chaga from silver birch (B. pendula) worked slightly better than that from downy birch (B. pubescens) due to higher levels of a compound called inotodiol.

Non-Targeted Metabolomics Analysis Reveals Metabolite Profiles Change During Whey Fermentation with Kluyveromyces marxianus

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Scientists fermented whey (a dairy byproduct) using a special yeast called Kluyveromyces marxianus to create a nutrient-rich food. Using advanced analysis, they found that fermentation breaks down large proteins and fats into smaller, more beneficial compounds including amino acids and omega-3 fatty acids. The fermented whey showed significant increases in health-promoting substances that could help reduce inflammation, prevent disease, and improve overall nutrition.

Enhancing the Yield of Pleurotus ostreatus Through the Addition of Nucleotides and Nucleosides

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Researchers discovered that adding nucleotides and nucleosides to oyster mushroom growing medium significantly increases mushroom yield and nutritional value. These compounds enhanced the dietary fiber and amino acid content while helping the mushrooms break down tough plant materials more efficiently. The study suggests that nucleosides are particularly effective and could provide a simpler, safer alternative to traditional mushroom cultivation methods that involve lengthy composting processes.

Research advances in fungal polysaccharides: production, extraction, characterization, properties, and their multifaceted applications

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This comprehensive review explores how mushrooms and fungi produce special carbohydrates called polysaccharides that have remarkable health benefits. These compounds can boost the immune system, fight cancer, reduce inflammation, and act as antioxidants. The article details various methods to produce and extract these valuable compounds from fungi and discusses their practical uses in medicine, food production, and agriculture.

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.

Astragalus Shiitake—A Novel Functional Food with High Polysaccharide Content and Anti-Proliferative Activity in a Colorectal Carcinoma Cell Line

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Scientists developed a new type of Shiitake mushroom by growing it on a special substrate enriched with Astragalus root. This novel mushroom contains significantly more beneficial polysaccharides than regular Shiitake. When tested against colorectal cancer cells, extracts from this mushroom showed strong cancer-fighting properties, with the ultrasound extraction method being most effective. This research suggests Astragalus Shiitake could become a powerful functional food for cancer prevention and treatment.

Burst agitation rate promotes sustained semicontinuous cultivation of filamentous fungi in stirred tank reactors

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Scientists improved the way shiitake mushrooms are grown in fermentation tanks by using a smart agitation strategy. Instead of constant stirring, they used periodic bursts of high-speed mixing to prevent clumping while maintaining healthy fungal growth. This approach increased the amount of usable biomass produced and allowed the fermentation to run longer without interruption, making mushroom cultivation more efficient and sustainable.

Unlocking Reishi’s secrets: nutritional and medicinal traits of Ganoderma lucidum isolated from tree bark in Egypt

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Reishi mushrooms (Ganoderma lucidum) from Egypt show promise as natural medicine. Researchers tested extracts and found they can fight bacteria, viruses, and cancer cells in laboratory tests. The mushrooms are rich in beneficial compounds like vitamins and antioxidants. While the extract was not as strong as conventional drugs, it showed good safety profiles and potential for development into new medicines.

Production of fungal hypocrellin photosensitizers: Exploiting bambusicolous fungi and elicitation strategies in mycelium cultures

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Hypocrellins are powerful compounds from fungi that can treat cancers and infections through light-activated therapy. Since wild sources are limited, scientists are growing these fungi in laboratory cultures and using special techniques to boost production. This review summarizes the best methods for producing hypocrellins, from choosing the right fungal strains to optimizing growing conditions and using natural stimulants to increase yields.

therapeutic action: immunomodulatory effects