anticoagulant – mycolab.ai

Structural Elucidation, Modification, and Structure-Activity Relationship of Polysaccharides in Chinese Herbs: A Review

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This comprehensive review explains how the structure of plant polysaccharides from Chinese herbs determines their healing properties. The authors discuss various laboratory methods to identify polysaccharide structures and explain how chemical modifications can enhance their beneficial effects like boosting immunity and fighting tumors. The review provides guidance for researchers developing new polysaccharide-based medicines and shows that finding the right molecular size and chemical composition is key to maximizing therapeutic benefits.

Prebiotic and Functional Fibers from Micro- and Macroalgae: Gut Microbiota Modulation, Health Benefits, and Food Applications

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Seaweed and other algae contain special fibers called polysaccharides that act like fertilizer for beneficial bacteria in your gut. When these good bacteria ferment these algal fibers, they produce substances called short-chain fatty acids that support digestive health, boost immunity, and help control blood sugar and weight. These algae-based fibers are sustainable alternatives to synthetic prebiotics and can be added to foods and supplements.

Health benefits of fish and fish by-products—a nutritional and functional perspective

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Fish is an excellent food that provides many important nutrients like protein, omega-3 fatty acids, and vitamins that help protect our hearts, brains, and overall health. Different fish species offer various health benefits including protecting against heart disease, diabetes, obesity, and brain disorders. However, some fish can contain harmful contaminants like mercury, so choosing safer options like salmon and cod is important for children and pregnant women.

Innovative Bioactive Nanofibrous Materials Combining Medicinal and Aromatic Plant Extracts and Electrospinning Method

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This research explains how scientists use a technique called electrospinning to create tiny, beneficial fibers from medicinal plants. By combining plant extracts like turmeric with biodegradable polymers, researchers create advanced materials that can deliver medicine, promote wound healing, and fight bacteria. These innovative fibers represent a natural approach to healthcare, bringing ancient plant wisdom into modern nanotechnology for practical medical applications.

Sodium Alginate Modifications: A Critical Review of Current Strategies and Emerging Applications

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Sodium alginate is a natural substance from seaweed that is safe to eat and widely used in foods, medicines, and environmental cleanup. Scientists have developed various ways to modify sodium alginate to make it stronger, more stable, and better at specific jobs like delivering medicines or creating edible packaging. This review explains both the gentle, food-safe ways to modify alginate for food products and stronger chemical methods used for medical and environmental applications. The modifications allow alginate to work better in areas like wound healing, removing pollutants from water, and protecting food freshness.

Haplotype-resolved genomes of Phlebopus portentosus reveal nuclear differentiation, TE-mediated variation, and saprotrophic potential

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Scientists sequenced the complete genomes of two compatible strains of the king bolete mushroom (Phlebopus portentosus), an important edible and medicinal species. The study found that mobile DNA elements called transposons play a major role in creating genetic differences between the two fungal nuclei and in generating the diversity of compounds that give mushrooms their health benefits. The research shows this mushroom can both partner with trees and break down organic material on its own, making it uniquely adaptable.

Research on the Action and Mechanism of Pharmacological Components of Omphalia lapidescens

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Omphalia lapidescens, a medicinal fungus used in traditional Chinese medicine, contains multiple bioactive compounds with promising health benefits. These compounds can fight parasitic infections, inhibit cancer cell growth, reduce inflammation, and provide antioxidant protection. While clinical use shows benefits especially for gastric cancer when combined with chemotherapy, more research is needed to understand how these compounds work and to improve cultivation and production methods.

Haplotype-resolved genomes of Phlebopus portentosus reveal nuclear differentiation, TE-mediated variation, and saprotrophic potential

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Researchers sequenced the complete genomes of two compatible versions of the black truffle fungus Phlebopus portentosus, the only Boletales species grown commercially. They discovered that jumping genes called transposable elements cause significant differences between the two fungal nuclei, affecting the production of beneficial compounds. The study shows this mushroom can both partner with tree roots and break down organic matter independently, making it versatile in nature and valuable for both food and medicine.

therapeutic action: anticoagulant