antitumor – Page 2

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

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Scientists have created the most detailed genetic map of the yellow mushroom (Floccularia luteovirens), a highly valued medicinal and edible fungus from the Tibetan Plateau. Using advanced sequencing technology, they mapped its 13 chromosomes and identified 15 pathways that the mushroom uses to make potentially useful healing compounds. The research also solved a long-standing mystery about the mushroom’s family tree, proving it is not actually related to Armillaria mushrooms as previously thought. This genetic blueprint opens new possibilities for developing medicines from this special fungus.

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.

Evidence-Based Nutraceuticals Derived from Antrodia cinnamomea

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Antrodia cinnamomea, a mushroom from Taiwan traditionally used for health, contains many beneficial compounds that fight inflammation, tumors, and oxidative stress. Research shows it can help with cancer, liver disease, diabetes, and high blood pressure. The mushroom can be grown in laboratories and its active compounds extracted using various modern techniques, making it promising for health supplements and medicines.

Assessment of the Antitumor Activity of Green Biosynthesized Zinc Nanoparticles as Therapeutic Agent Against Renal Cancer in Rats

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Researchers created tiny zinc nanoparticles using an edible white mushroom through an environmentally friendly process. When tested in rats with kidney cancer, these nanoparticles significantly reduced tumor markers, protected kidney cells from oxidative damage, and triggered cancer cell death. The treatment improved kidney function and showed no toxic effects, suggesting it could be a promising new therapy for kidney cancer.

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

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Scientists studied a medicinal mushroom species to understand how different growing methods affect its beneficial compounds. They found that growing the mushroom on specific wood substrates (from cinnamon trees) produced much higher levels of therapeutic compounds compared to rice-based cultivation. Using advanced molecular techniques, they identified the genes responsible for producing these medicinal compounds and how they are controlled, providing insights to improve mushroom cultivation for better health benefits.

A Chromosome-Scale Genome of Trametes versicolor and Transcriptome-Based Screening for Light-Induced Genes That Promote Triterpene Biosynthesis

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Scientists created a detailed map of the Trametes versicolor mushroom’s genetic code using advanced sequencing technologies. This medicinal mushroom is known for cancer-fighting and immune-boosting properties. The research discovered that light exposure increases the production of beneficial compounds called triterpenes, which may explain how this mushroom’s medicinal qualities work and could help scientists grow it more effectively.

Fungal β-Glucans: Biological Properties, Immunomodulatory Effects, Diagnostic and Therapeutic Applications

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β-glucans are natural substances found in yeast and fungi that help boost the immune system and fight cancer. They can be measured in blood to diagnose serious fungal infections and may help prevent common illnesses like colds and respiratory infections. Recent research suggests they could be useful additions to vaccines and may help patients recovering from COVID-19.

Comparative Multi-Omics Analysis and Antitumor Activity of Phylloporia crataegi and Phylloporia fontanesiae

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Researchers compared two types of medicinal fungi (Phylloporia crataegi and Phylloporia fontanesiae) to understand why one is better at fighting cancer. They used advanced techniques to examine the fungi’s chemicals, genes, and proteins, discovering that P. crataegi contains special compounds like trans-cinnamic acid that help kill cancer cells. This study provides important information for developing new cancer treatments from these fungi.

Research Keyword: antitumor