bioactive peptides – mycolab.ai

Seaweed Protein Hydrolyzates: A Valuable Source of Short- and Medium-Chain Peptides with Multifunctional Properties

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Scientists found that an invasive seaweed species can be converted into health-promoting peptides (small protein fragments) that may help control blood pressure and blood sugar levels. The study identified hundreds of these peptides and tested their effectiveness against enzymes involved in hypertension and diabetes. The peptides showed promise as natural ingredients for functional foods designed to prevent metabolic diseases while also addressing the environmental problem of harmful seaweed blooms.

Bioactive Peptides from Quinoa (Chenopodium quinoa Willd.) as Modulators of the Gut Microbiome: A Scoping Review of Preclinical Evidence

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This review examines how quinoa and its protein-derived peptides can improve gut health by changing the balance of bacteria in the digestive system. Research shows that quinoa helps boost beneficial bacteria, increases diversity of microbial communities, and promotes production of butyrate, a beneficial compound that supports intestinal health. Different disease conditions show specific improvements, such as reduced harmful bacteria in colitis and better metabolic balance in obesity, suggesting quinoa could be tailored for personalized health interventions.

Whey Proteins and Bioactive Peptides: Advances in Production, Selection and Bioactivity Profiling

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Whey, a liquid byproduct from cheese-making that was once considered waste, contains valuable proteins that can be broken down into smaller bioactive peptides. These peptides have numerous health benefits including antimicrobial, anti-inflammatory, and antioxidant properties, and can be used in functional foods and medicines. Researchers are developing advanced techniques to extract and produce these peptides more efficiently, and using computer models to predict which peptides will have specific health benefits.

Koumiss (Fermented Mare’s Milk) as a Functional Food: Bioactive Proteins, Peptides, and Future Perspectives

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Koumiss is a fermented mare’s milk beverage consumed for centuries in Central Asia that offers unique health benefits. Unlike cow’s milk, mare’s milk is easier to digest, contains natural antimicrobial proteins, and when fermented develops thousands of bioactive peptides and beneficial bacteria. These compounds may help with cardiovascular health, gut function, and immune support, making koumiss a promising functional food for modern nutrition.

Eastern European Fermented Foods: Nutritional Value, Functional Potential, and Cultural Heritage

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Eastern European fermented foods like sauerkraut, kefir, and kvass have been part of traditional diets for centuries and contain special compounds created during fermentation that may support heart health, digestion, and immunity. These foods provide beneficial bacteria and other active molecules that research suggests could help reduce inflammation and improve metabolic health, though more human studies are needed to fully understand their effects.

Impact of Packaging Variations on the Amino Acid Profile, Proximate Content, and Antinutritional Components of Tempeh from Jack Bean Sprouts

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This study examines how wrapping tempeh made from jack bean sprouts in different materials affects its nutritional value. Researchers tested three packaging types—plastic, banana leaves, and teak leaves—over various fermentation periods. Results show that teak leaf packaging at 48 hours of fermentation produces tempeh with the highest protein and amino acid content while reducing harmful compounds like hydrogen cyanide to safe levels.

Valorisation of fish scales and bones: a sustainable source of bioactive proteins and collagen for nutraceuticals

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Fish scales and bones, usually thrown away as waste, contain valuable collagen and proteins that can improve skin, joints, and overall health. New extraction methods can recover these beneficial compounds efficiently while being environmentally friendly. Studies show that taking fish collagen supplements daily can improve skin appearance, reduce joint pain, and lower blood pressure, making them a sustainable and natural health solution.

Non-Targeted Metabolomics Analysis Reveals Metabolite Profiles Change During Whey Fermentation with Kluyveromyces marxianus

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Scientists fermented whey (a dairy byproduct) using a special yeast called Kluyveromyces marxianus to create a nutrient-rich food. Using advanced analysis, they found that fermentation breaks down large proteins and fats into smaller, more beneficial compounds including amino acids and omega-3 fatty acids. The fermented whey showed significant increases in health-promoting substances that could help reduce inflammation, prevent disease, and improve overall nutrition.

Novel tyrosinase-inhibitory peptides derived from Locusta migratoria protein hydrolysates: Preparation, identification and molecular docking analysis

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Scientists have discovered that peptides from locusts can effectively inhibit tyrosinase, an enzyme responsible for skin pigmentation. These peptide extracts showed strong ability to prevent melanin production, comparable to existing skin-whitening agents but with much lower toxicity to normal cells. The research identified over 1100 different peptide sequences that could be useful in cosmetic and pharmaceutical products for treating age spots, freckles, and other pigmentation issues.

Optimisation and Characterisation of Novel Angiotensin-Converting Enzyme Inhibitory Peptides Prepared by Double Enzymatic Hydrolysis from Agaricus bisporus Scraps

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Scientists discovered three new peptides in common button mushroom scraps that can lower blood pressure by blocking an enzyme called ACE. Using special enzymes to break down mushroom proteins and then purifying the result, they created peptides with strong blood pressure-lowering activity that survive stomach digestion well. This finding turns mushroom waste into a valuable source for making natural blood pressure medications that are safer than synthetic alternatives.

Research Keyword: bioactive peptides