Research Topic: food quality

The role of Micro-biome engineering in enhancing Food safety and quality

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Microbiome engineering uses advanced biotechnology to strategically modify helpful bacteria in food to make it safer and higher quality. By using tools like CRISPR gene editing and engineering beneficial probiotics, scientists can prevent food spoilage, reduce harmful bacteria, improve nutrition, and create better-tasting foods. These innovations could reduce reliance on synthetic preservatives and chemicals while addressing global food safety challenges and helping combat malnutrition.

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Edible Mushrooms as Functional Ingredients for Development of Healthier and More Sustainable Muscle Foods: A Flexitarian Approach

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This comprehensive review explains how edible mushrooms can be added to meat and fish products to make them healthier and more environmentally friendly. Mushrooms are rich in protein, fiber, vitamins, and natural compounds that fight disease and prevent spoilage. By replacing part of the meat with mushrooms, food makers can create products with better nutrition, longer shelf-life, and reduced salt content, while supporting those pursuing flexitarian diets.

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Quality Characteristics of Low-Fat Sausage Using Cultured Mushroom Mycelium

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Researchers tested using mushroom mycelium (the root structure of mushrooms) as a replacement for meat in sausages. They found that using up to 50% mushroom mycelium produced sausages with good quality, improved moisture retention, and enhanced umami flavor while reducing fat content. The sausages made with mushroom mycelium were also more tender and juicy, though higher replacement levels affected consumer preference. This research suggests mushroom mycelium is a promising sustainable alternative protein source for meat products.

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Application of ATR-FTIR and FT-NIR spectroscopy coupled with chemometrics for species identification and quality prediction of boletes

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Researchers developed a fast and non-destructive method to identify different types of edible boletes and assess their nutritional quality by analyzing their amino acid content. Using special spectroscopy techniques combined with computer analysis, they achieved perfect accuracy in identifying five bolete species and could predict the amino acid content that contributes to flavor and nutrition. This breakthrough provides consumers with better protection against accidentally purchasing toxic mushroom species that look similar to edible ones, while helping food producers quickly assess quality without lengthy lab testing.

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