pathogenic bacteria inhibition

The release patterns and potential prebiotic characteristics of soluble and insoluble dietary fiber-bound polyphenols from pinot noir grape pomace in vitro digestion and fermentation

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This study examined how grape pomace dietary fiber and its bound polyphenols are broken down in the digestive system and colon. Researchers found that soluble fiber was particularly effective at releasing beneficial compounds that feed healthy gut bacteria and produce short-chain fatty acids important for health. The fiber types promoted beneficial bacteria like Bifidobacterium while reducing harmful bacteria, suggesting grape pomace could be a valuable ingredient in functional foods to support digestive and overall health.

Enhancing Viability of Lactobacillus rhamnosus GG and Total Polyphenol Content in Fermented Black Goji Berry Beverage Through Calcium–Alginate Encapsulation with Hydrocolloids

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Researchers developed a special technique to protect beneficial bacteria (Lactobacillus rhamnosus GG) in black goji berry juice so they survive the harsh conditions of the stomach and intestines. They used a coating made from alginate combined with ingredients like carrageenan or gelatin, which created a protective shield around the bacteria and helpful plant compounds. When this coated juice was taken with milk, the bacteria survived even better, making it a promising new way to deliver probiotics through plant-based beverages instead of traditional dairy products.

Antiviral effects of Pediococcus acidilactici isolated from Tibetan mushroom and comparative genomic analysis

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Researchers found that bacteria from Tibetan mushrooms, particularly Pediococcus acidilactici, can effectively prevent rotavirus infection that causes diarrhea in children and animals. When tested in laboratory cells and in mice, this beneficial bacteria reduced virus levels significantly and protected the intestines from damage. Genetic analysis shows this probiotic strain has the right combination of genes to fight viral infections, making it a promising natural treatment option.

Advancing Food Preservation: Sustainable Green-AgNPs Bionanocomposites in Paper-Starch Flexible Packaging for Prolonged Shelf Life

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Researchers developed an eco-friendly food packaging material by coating paper with corn starch and tiny silver particles created through green chemistry methods. This innovative packaging significantly improved food durability, reducing weight loss in fresh produce like tomatoes and grapes by 6-8% over six days. The material is completely biodegradable and poses no safety concerns, making it a sustainable alternative to traditional plastic packaging.

therapeutic action: pathogenic bacteria inhibition

The release patterns and potential prebiotic characteristics of soluble and insoluble dietary fiber-bound polyphenols from pinot noir grape pomace in vitro digestion and fermentation

Enhancing Viability of Lactobacillus rhamnosus GG and Total Polyphenol Content in Fermented Black Goji Berry Beverage Through Calcium–Alginate Encapsulation with Hydrocolloids

Antiviral effects of Pediococcus acidilactici isolated from Tibetan mushroom and comparative genomic analysis

Advancing Food Preservation: Sustainable Green-AgNPs Bionanocomposites in Paper-Starch Flexible Packaging for Prolonged Shelf Life