Research Keyword: biopreservation

Physiological Insights into Enhanced Epsilon-Poly-l-Lysine Production Induced by Extract Supplement from Heterogeneous Streptomyces Strain

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Researchers discovered that exposing bacteria that produce epsilon-poly-l-lysine (a natural antimicrobial compound) to extracts from another closely related bacterium dramatically increases production by 2.6-fold. Using advanced analysis techniques, they found that this boost occurs because the extract triggers the bacteria to activate defense mechanisms, rerouting its metabolism to produce more of this antimicrobial compound. This finding could significantly reduce the cost of producing this useful natural preservative for foods and medicines, making it more commercially viable.

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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.

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Biocontrol of Cheese Spoilage Moulds Using Native Yeasts

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This research explores using naturally occurring yeasts found in cheese to prevent mould spoilage, offering a chemical-free alternative to current preservatives. Scientists tested 84 yeast strains and identified the most promising ones that can inhibit growth of three common spoilage moulds through different mechanisms like enzyme production and nutrient competition. Two yeast strains, Geotrichum candidum GC663 and Pichia jadinii PJ433, showed particularly strong potential for protecting cheese quality and extending shelf life when tested in actual cheese.

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Lactic acid bacteria: beyond fermentation to bio-protection against fungal spoilage and mycotoxins in food systems

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Mold and fungal toxins spoil food and threaten human health, costing billions globally. While chemical preservatives work, many consumers want natural alternatives. Lactic acid bacteria (the same organisms used in yogurt production) produce natural antimicrobial compounds that can prevent mold growth and neutralize harmful toxins, offering a safer, more natural way to keep food fresh longer.

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Biopreservation of Hericium erinaceus By-Products via Lactic Acid Fermentation: Effects on Functional and Technological Properties

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This study shows how a natural fermentation process using beneficial bacteria can transform lion’s mane mushroom waste into a healthier food ingredient. The fermentation makes the mushrooms safer by eliminating spoilage organisms, increases their antioxidant power by up to 31%, and prevents the buildup of potentially harmful compounds. This approach offers a sustainable solution for mushroom producers to reduce waste while creating valuable functional food ingredients.

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Biocontrol of Aflatoxigenic Maize Molds Using Lactobacillus spp.-Based Formulations

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This study shows that beneficial bacteria called Lactobacillus, found in traditional fermented foods like fura and gapal, can effectively reduce dangerous mold toxins (aflatoxins) in maize. Researchers tested these bacteria on contaminated maize samples and found they could reduce fungal contamination by up to 68% and completely eliminate some toxins. This natural approach offers a safer, cheaper alternative to chemical treatments while preserving food quality and safety.

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