Fermentation – Page 4

Impact of Air-Drying Temperature on Antioxidant Properties and ACE-Inhibiting Activity of Fungal Fermented Lentil Flour

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Researchers fermented lentils with oyster mushrooms to create nutritious flour with health benefits. Two lentil varieties responded differently to fermentation, with one showing four times more mushroom growth and nearly complete removal of phytic acid (an antinutrient). The fermented flour was dried at different temperatures and tested for antioxidant and blood pressure-lowering properties. Results show the fermented flours have promising cardiovascular benefits and could be used as healthy food ingredients.

Research advances in fungal polysaccharides: production, extraction, characterization, properties, and their multifaceted applications

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This comprehensive review examines fungal polysaccharides, which are complex sugar molecules found in mushrooms and fungi that have powerful health benefits. Researchers describe how to grow and extract these compounds from various fungi, and explain their uses in treating diseases like cancer, reducing inflammation, and boosting immunity. The review covers different growing and extraction methods used worldwide and discusses future directions for using these natural compounds in medicine and industry.

Antagonistic Potential of Agro-Industrial Byproduct–Derived Lactic Acid Bacteria Against Mycotoxigenic Aspergillus flavus and Fusarium verticillioides

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Researchers discovered that certain lactic acid bacteria found in food waste products can effectively prevent the growth of harmful fungi and block the production of dangerous mycotoxins. These bacteria work through multiple mechanisms including acidification and production of protective compounds. The findings suggest these natural bacteria could be used as safe, sustainable alternatives to chemical fungicides in food preservation and safety.

Sustainable Recycling of Mushroom Residue as an Effective Substitute for Cotton Hull Waste in Volvariella volvacea Cultivation: Evidence from Physicochemical and Microbiome Analyses

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This research shows that mushroom waste left over from growing one type of mushroom can be recycled to grow another type of mushroom, called straw mushroom. The recycled mushroom waste works just as well as the traditional cotton hull material currently used, but costs much less money. By analyzing the bacteria and chemical changes during the composting process, scientists found that beneficial bacteria break down the organic matter effectively, making this recycling method both environmentally friendly and economically practical.

Energy Metabolism Enhance Perylenequinone Biosynthesis in Shiraia sp. Slf14 through Promoting Mitochondrial ROS Accumulation

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Scientists studied two similar fungi to understand how one produces more of a beneficial compound called perylenequinones (PQs), which have medical uses against infections and cancer. They discovered that the high-producing strain uses energy more efficiently, which causes tiny structures in the cells called mitochondria to produce reactive molecules (ROS). These reactive molecules trigger the fungus to make more PQs as a protective response. By controlling these processes, researchers can potentially improve the production of this valuable medicine.

Fungal Innovations—Advancing Sustainable Materials, Genetics, and Applications for Industry

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Fungi can be engineered to create sustainable, eco-friendly materials that could replace traditional plastics and leather. Scientists are using advanced genetic tools to control how fungi grow and what they produce, enabling the creation of customized materials with specific properties. These fungal-based materials are biodegradable, require less water and energy to produce, and show promise for applications in packaging, clothing, and building materials. With improved manufacturing processes and genetic engineering, fungi could revolutionize how we make everyday products.

Multiomics Provides a New Understanding of the Effect of Temperature Change on the Fermentation Quality of Ophiocordyceps sinensis

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This research studied how temperature affects the growth and quality of Ophiocordyceps sinensis, a valuable medicinal fungus. Scientists found that the fungus grows best between 18-23°C, and that temperatures above 28°C damage the fungus by triggering cell death processes. The study identified which genes and metabolites are affected by temperature changes, helping optimize large-scale production of this medicinal fungus.

Filamentous fungal pellets as versatile platforms for cell immobilization: developments to date and future perspectives

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Filamentous fungi, commonly known as molds, can be grown into small spherical structures called pellets that act as excellent platforms for attaching and growing various types of cells. These fungal pellets are sustainable, biodegradable alternatives to synthetic materials and can support different cell types for applications ranging from producing cultivated meat to treating wastewater. The porous structure of fungal pellets allows cells to attach and grow while maintaining the ability to transfer nutrients and oxygen efficiently.

Fermentation With Pleurotus Ostreatus Enhances the Prebiotic Properties of Germinated Riceberry Rice

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This research shows that black-purple Riceberry rice can be made healthier by sprouting it and then fermenting it with oyster mushroom mycelium. The resulting product contains beneficial compounds called GABA and β-glucan that help healthy gut bacteria grow while preventing harmful bacteria like E. coli. This improved rice product could be used in foods for elderly people to support digestive and overall health.

Antimicrobial and Antifungal Activities of Proline-Based 2,5-Diketopiperazines Occurring in Food and Beverages and Their Synergism with Lactic Acid

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Researchers synthesized special cyclic peptides called 2,5-diketopiperazines (found naturally in fermented foods like bread and cheese) and tested their ability to kill harmful molds and bacteria. When combined with lactic acid (a natural preservative), these compounds worked extremely well together, achieving nearly complete mold inhibition. This research suggests that using special starter cultures that naturally produce these compounds could help keep food fresh longer without artificial preservatives.

Research Topic: Fermentation