therapeutic action: antitumor

The Transformation and Protein Expression of the Edible Mushroom Stropharia rugosoannulata Protoplasts by Agrobacterium-tumefaciens-Mediated Transformation

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Researchers successfully developed a method to genetically modify the edible mushroom Stropharia rugosoannulata using Agrobacterium tumefaciens bacteria. This technique allows scientists to insert and express foreign genes in the mushroom, providing tools to study how specific genes control mushroom growth and the production of health-promoting compounds. The study demonstrates that both artificial and natural resistance markers can be used to identify successfully transformed mushrooms, offering a foundation for improving mushroom cultivation and breeding.

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Design and Evaluation of a Inonotus obliquus–AgNP–Maltodextrin Delivery System: Antioxidant, Antimicrobial, Acetylcholinesterase Inhibitory and Cytotoxic Potential

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Researchers studied Chaga mushroom from Romania and developed new ways to package and deliver its beneficial compounds using silver nanoparticles and a food-safe ingredient called maltodextrin. These new delivery systems were designed to work better in the body by improving how well the mushroom’s active ingredients dissolve and stay stable. Testing showed these enhanced formulations were very effective at fighting bacteria, protecting cells from damage, and killing cancer cells.

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

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Two species of medicinal fungi were studied to understand why one was better at fighting cancer cells. Researchers analyzed the chemicals, genes, and proteins in both fungi and found that Phylloporia crataegi had much higher levels of cancer-fighting compounds and activated special cellular defense pathways that harm cancer cells. This research shows that medicinal fungi could be promising sources for developing new cancer treatments.

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The First Whole Genome Sequence and Methylation Profile of Gerronema lapidescens QL01

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Scientists have sequenced the complete genetic code of Lei Wan (Gerronema lapidescens), a medicinal mushroom used in traditional Chinese medicine for treating parasitic infections and digestive problems. The research revealed how this mushroom produces beneficial compounds and how its genes are regulated through a process called methylation. This information could help develop better ways to cultivate this increasingly rare mushroom sustainably rather than harvesting it from the wild, making it available for future medical research and treatment.

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Mushroom Bioactive Molecules as Anticancerous Agents: An Overview

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Mushrooms contain natural compounds that show promise in fighting cancer by triggering cancer cell death and boosting immune function. Different mushroom species like oyster, shiitake, and button mushrooms contain substances such as beta-glucans and other polysaccharides that have demonstrated anticancer properties in laboratory and animal studies. While these mushroom compounds work through multiple mechanisms including preventing new blood vessel formation to tumors and stopping cancer cell division, more human clinical trials are needed to confirm their effectiveness as cancer treatments.

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Microbial communities inhabiting the surface and gleba of white (Tuber magnatum) and black (Tuber macrosporum) truffles from Russia

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This research identifies the various microorganisms living inside truffles, particularly Tuber magnatum (white truffle) and Tuber macrosporum (black truffle). The study found that a yeast-like fungus called Geotrichum consistently lives in both truffle types and likely helps with spore dispersal through smell-producing compounds. The researchers discovered that different parts of the truffle have different microbial communities, which explains why truffles have such unique flavors and aromas.

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