anti-tumor effects – mycolab.ai

Therapeutic Effects of Natural Products on Liver Cancer and Their Potential Mechanisms

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This review examines how natural products from plants, fungi, and marine organisms can help treat liver cancer more safely and effectively than current drugs. These natural compounds work through multiple pathways such as triggering cancer cell death, stopping cell growth, and boosting the immune system. The research found that seven categories of natural products show promise, with sources ranging from ginseng and turmeric to mushrooms and seaweed, offering potential new treatment options that could reduce side effects and drug resistance.

Harnessing mushrooms for poultry nutrition: Boosting health, immunity, and productivity

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Mushrooms and mushroom stems are emerging as natural feed additives that can significantly improve poultry health, growth, and egg/meat quality while reducing the need for antibiotics. These fungi contain beneficial compounds that boost immune function, reduce harmful bacteria, and protect against cellular damage. By using mushroom byproducts that are typically discarded, farmers can create more sustainable and environmentally friendly poultry production systems while improving overall bird health and productivity.

Lentinan inhibits melanoma development by regulating the AKT/Nur77/Bcl-2 signaling axis

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This research demonstrates that lentinan, a compound from shiitake mushrooms, can effectively inhibit melanoma (a dangerous skin cancer) in laboratory studies. The compound works by triggering cancer cells to self-destruct through a specific cellular pathway involving three key proteins: AKT, Nur77, and Bcl-2. Importantly, the treatment showed no significant toxic side effects in animal models, suggesting it could be developed as a new cancer therapy option.

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.

Effects and molecular mechanism of endophytic elicitors on the accumulation of secondary metabolites in medicinal plants

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This review explains how beneficial fungi living inside medicinal plants can boost the production of healing compounds. These endophytic fungi act as natural triggers that activate the plant’s own defense systems, causing it to produce more of the valuable medicinal substances used in traditional and modern medicine. By understanding how this process works, scientists can develop better methods to grow medicinal plants and produce natural drugs more sustainably without depleting wild plant populations.

Telomere-to-Telomere Assembly of the Cordyceps militaris CH1 Genome and Integrated Transcriptomic and Metabolomic Analyses Provide New Insights into Cordycepin Biosynthesis Under Light Stress

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Researchers successfully sequenced the complete genome of Cordyceps militaris CH1, a medicinal fungus used in traditional Chinese medicine. By exposing the fungus to light and analyzing gene expression and metabolite changes, they discovered that light stress activates key genes involved in producing cordycepin, the main active medicinal compound. This breakthrough provides a foundation for improving cordycepin production in artificial cultivation, making this valuable medicine more affordable and accessible.

Effects of Drying Methods on Taste Components and Flavor Characterization of Cordyceps militaris

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This research compared four different ways to dry Cordyceps militaris mushrooms to determine which method best preserves their delicious taste and aroma. The study found that microwave combined with hot air drying created the strongest umami or savory taste, while vacuum freeze drying best preserved the mushroom’s natural aroma and flavor compounds. These findings help food manufacturers choose the best drying method to maintain the quality and desirable characteristics of Cordyceps militaris products for consumers.

Effect of Antibacterial Peptide Microsphere Coating on the Microbial and Physicochemical Characteristics of Tricholoma matsutake during Cold Storage

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This research demonstrates that coating expensive wild matsutake mushrooms with special antimicrobial peptides wrapped in tiny polymer microspheres can keep them fresh for up to 20 days instead of just 1-3 days. The coating works by protecting mushrooms from water loss, microbial spoilage, and browning while preserving their texture and nutritional quality. This edible coating technology could help mushroom producers sell their products over longer distances and extend availability of these prized wild mushrooms.

Identification and functional analysis of the SET domain-containing gene family in Cordyceps militaris

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Researchers identified 22 genes in the medicinal fungus Cordyceps militaris that control how genetic information is accessed through histone modifications. By studying how these genes respond to salt and amino acid treatments, they found that two specific genes (CmSET14 and CmSET16) are linked to cordycepin production, a compound with potential anti-cancer properties. When these genes were enhanced in the fungus, cordycepin production increased significantly, offering a new strategy to boost production of this valuable medicinal compound.

Transcriptomic profiling revealed important roles of amino acid metabolism in fruiting body formation at different ripening times in Hypsizygus marmoreus

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Researchers studied why the marbled puffball mushroom takes such a long time to produce fruit bodies by analyzing gene expression at different growth stages. They found that genes involved in amino acid processing and lignin breakdown are particularly important during fruiting body formation. By understanding these molecular processes, scientists can potentially develop ways to shorten cultivation time and improve mushroom farming efficiency.

therapeutic action: anti-tumor effects