hepatoprotective – mycolab.ai

Ganoapplanilactone C from Ganoderma applanatum Ameliorates Metabolic Dysfunction-Associated Steatotic Liver Disease via AMPK/mTOR-Mediated Lipid Regulation in Zebrafish

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Researchers found that a compound called ganoapplanilactone C from the medicinal mushroom Ganoderma applanatum can protect the liver from fat accumulation and damage caused by high-fat diets. In zebrafish studies, this compound worked better than a common cholesterol drug at reducing liver fat and improving liver health. The compound appears to work by activating a protein called AMPK that helps regulate how the body processes fats and reduces inflammation.

A Systematic Review on Important Risk Factors and Possible Involved Mechanisms of Medicinal Plants on Nonalcoholic Fatty Liver Disease

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This comprehensive review examined 43 medicinal plants that can help prevent and treat fatty liver disease (NAFLD), which is increasingly common in developed countries. Most of these plants work by reducing cholesterol and triglycerides, helping with weight management, improving blood sugar control, and lowering blood pressure. The plants contain natural compounds like flavonoids and polyphenols that reduce inflammation and oxidative stress in the liver. Using these herbal supplements alongside other lifestyle changes may offer a promising natural approach to managing NAFLD and its related conditions.

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.

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.

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

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This study examined how different growing methods affect the medicinal compounds found in Taiwanofungus gaoligongensis, a rare Chinese medicinal fungus. Researchers discovered that growing this fungus on wood substrates from specific trees significantly increased production of beneficial compounds like antcins and antrodin C, which have anti-cancer and anti-inflammatory properties. By analyzing gene expression patterns, they identified key genes and regulatory mechanisms that control the production of these medicinal compounds, suggesting ways to improve cultivation methods for better medicinal value.

Whole-Genome Sequencing and Comparative Genomics Analysis of the Wild Edible Mushroom (Gomphus purpuraceus) Provide Insights into Its Potential Food Application and Artificial Domestication

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Scientists sequenced the complete genetic code of Gomphus purpuraceus, a wild mushroom eaten in southwest China for hundreds of years. By comparing its genes to other edible mushrooms, researchers discovered it likely forms beneficial partnerships with trees and can break down some plant material. The study shows this mushroom can efficiently use simple sugars like sucrose and maltose for growth, which could help farmers grow it commercially while preserving this rare species.

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.

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.

The complete mitochondrial genome of medicinal fungus Taiwanofungus camphoratus reveals gene rearrangements and intron dynamics of Polyporales

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Scientists have decoded the complete genetic blueprint of the mitochondria in Taiwanofungus camphoratus, a highly valued medicinal mushroom from Taiwan. This fungus has been used in traditional medicine for treating inflammation, cancer, and liver diseases. By comparing its mitochondrial DNA with related fungal species, researchers discovered that this mushroom has a unique genetic arrangement and uncovered how genes have been rearranged during evolution. This discovery helps scientists better understand how this important medicinal fungus evolved and can improve its classification and medical applications.

Research Keyword: hepatoprotective