Fungi naturally produce many compounds that kill harmful bacteria, fungi, and viruses. This review explores how these fungal compounds could replace antibiotics that no longer work due to drug resistance. These natural substances could be used not only as medicines but also in cosmetic products to prevent bacterial growth and improve skin health.
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.
Trichoderma is a beneficial fungus that can protect crops from diseases and pests while promoting healthier plant growth, without harmful chemical pesticides. It works through multiple strategies: competing with harmful fungi for nutrients, producing natural toxins that kill pathogens, directly parasitizing disease-causing organisms, and strengthening the plant’s own immune system. This eco-friendly approach reduces chemical pollution while improving crop quality and yields, making it an ideal solution for sustainable farming.
This research study examined how Lyophyllum decastes mushrooms develop and accumulate their valuable nutrients and flavor compounds. Scientists found that amino acids and polysaccharides reach their highest levels when the mushroom is mature, ready for harvesting. By analyzing the genes and chemical changes during mushroom growth, researchers identified the specific pathways responsible for producing these beneficial compounds. This knowledge helps improve mushroom cultivation and confirms its value as a healthy functional food.
Microbiome engineering uses advanced biotechnology to strategically modify helpful bacteria in food to make it safer and higher quality. By using tools like CRISPR gene editing and engineering beneficial probiotics, scientists can prevent food spoilage, reduce harmful bacteria, improve nutrition, and create better-tasting foods. These innovations could reduce reliance on synthetic preservatives and chemicals while addressing global food safety challenges and helping combat malnutrition.
This collection of studies explores how compounds from ocean sources like seaweed, fish, shrimp, and microalgae can help protect heart health and prevent cardiovascular diseases. Researchers examined various marine ingredients and found they can reduce inflammation, lower cholesterol, reduce blood pressure, and prevent blood clots. The findings suggest that marine-derived products could become safer, more affordable alternatives or complements to current heart disease medications while supporting sustainable ocean resource use.
This research shows that a fungus called Paraisaria dubia can effectively clean up zinc pollution by removing 60% of zinc from contaminated environments. The fungus uses multiple survival strategies when exposed to zinc stress, including producing more protective slime-like substances on its surface and generating spores that are more resistant to harmful conditions. By studying the fungus at the molecular level, scientists discovered which genes and chemical compounds activate these protective responses, paving the way for using fungi as natural cleaners for heavy metal-contaminated soil and water.
Sargassum is a type of ocean seaweed that has been used in traditional medicine for centuries and contains compounds that may help fight inflammation, oxidative stress, viruses, and bacteria. Scientists have discovered that different Sargassum species produce nearly 200 different bioactive compounds with potential health benefits ranging from reducing arthritis symptoms to supporting immune function. While Sargassum can accumulate harmful heavy metals like arsenic from seawater, researchers have developed effective cleaning methods to remove these contaminants while preserving the beneficial compounds. This makes Sargassum a promising sustainable source of natural medicines and health supplements.
This study compared white and brown varieties of beech mushrooms, which are popular edible mushrooms in South Korea. Brown beech mushrooms were found to have higher levels of beneficial compounds called phenolics, which give them a more bitter taste and brown color. The research showed that brown mushrooms have stronger health-promoting properties, including better abilities to fight bacteria, reduce inflammation, and combat oxidative stress, making them potentially more valuable as functional foods for health and nutrition.
Poria cocos is a medicinal mushroom commonly used in Asian cuisine and traditional medicine. This study found that its polysaccharides act as prebiotics by feeding beneficial gut bacteria like Lactobacillus and Bifidobacterium while reducing harmful bacteria. The fermentation produces beneficial compounds called short-chain fatty acids that support digestive health and may help prevent diseases like obesity and inflammation.