Research Keyword: FTIR

Isolation and Identification of Pigment-Producing Endophytic Fungi from the Amazonian Species Fridericia chica

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Scientists discovered nine types of fungi living inside an Amazonian plant called crajiru that produce colorful pigments. One fungus called Hypoxylon investiens stood out for producing a red pigment with strong antioxidant and antimicrobial properties. This discovery could help replace synthetic dyes in food and cosmetics with natural alternatives from fungi, which are easier and cheaper to produce than extracting pigments from plants.

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Beeswax-poly(vinyl alcohol) composite films for bread packaging

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Scientists developed an eco-friendly plastic alternative made from polyvinyl alcohol and beeswax that can replace traditional petroleum-based plastics for wrapping bread. Through heat treatment and careful formulation, they created a material that keeps bread fresh nearly as well as regular plastic but is completely biodegradable. This innovation addresses environmental concerns about plastic waste while maintaining the freshness and quality of packaged foods.

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Biosorption of cesium and strontium from aqueous solution by Aspergillus flavus biomass

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This research demonstrates that dead fungal biomass from Aspergillus flavus can effectively remove radioactive cesium and strontium from contaminated water, offering an affordable and environmentally friendly alternative to traditional treatment methods. The fungus shows excellent ability to capture strontium ions (90% removal) and can be reused multiple times by treating it with nitric acid. This finding is particularly relevant following nuclear accidents like Fukushima and provides a sustainable solution for treating radioactive wastewater from nuclear facilities.

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Physicochemical Characterization and Antimicrobial Analysis of Vegetal Chitosan Extracted from Distinct Forest Fungi Species

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Researchers extracted and tested chitosan from five different mushroom species as an alternative to traditional crab-derived chitosan for allergic individuals. Using various scientific techniques, they found that chitosan from lion’s mane mushroom (H. erinaceus) had the best ability to dissolve in solution and kill bacteria, making it promising for food preservation. The study shows that mushroom-based chitosan can work as well as or better than shellfish-derived chitosan while avoiding allergen risks, offering a sustainable solution for food packaging and preservation.

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Solid-state NMR spectroscopy reveals unique properties of Trichoderma harzianum cell wall components

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Scientists used advanced spectroscopy techniques to examine the cell wall structure of Trichoderma harzianum, a beneficial fungus used to protect crops from harmful fungi. They discovered that this fungus has a uniquely organized cell wall composed of tough chitin layers inside and flexible sugar polymers outside. This special arrangement helps protect the fungus from dissolving itself with its own powerful enzymes while allowing it to attack pest fungi effectively.

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Optimizing and Characterization of Soybean Oil Seed Cake Protein Hydrolysis: In Vitro Analysis

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Researchers successfully created a high-protein powder from soybean processing waste by breaking down proteins using special enzymes. The resulting powder contains 60% protein and shows promising health benefits including antioxidant properties and the ability to slow glucose absorption, making it potentially useful for managing diabetes and obesity. This converts a low-value agricultural byproduct into a valuable ingredient for food and pharmaceutical applications.

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