nutrient bioavailability enhancement

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.

The Application of Fungi and Their Secondary Metabolites in Aquaculture

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Fungi can help solve several problems in fish farming. They can make plant-based fish feed more nutritious and easier to digest, boost fish immune systems and disease resistance without antibiotics, help fish feed float better in water, and clean up polluted water from fish farms. This makes aquaculture more sustainable and environmentally friendly while reducing costs for farmers.

Nocardia mangyaensis NH1: A Biofertilizer Candidate with Tolerance to Pesticides, Heavy Metals and Antibiotics

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Scientists studied a soil bacterium called Nocardia mangyaensis NH1 as a potential natural fertilizer for farms. The bacteria can survive exposure to common pesticides and heavy metals in contaminated soils, making it useful for sustainable agriculture. It has few antibiotic resistance genes, which is important for preventing the spread of resistant bacteria, and its genome is relatively stable and lacks harmful genes, making it safe for agricultural use.

Acid Phosphatase Produced by Trichoderma harzianum in Solid Fermentation Using Millet

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Researchers used a fungus called Trichoderma harzianum grown on millet grain to produce phosphatase enzymes, which help convert unavailable phosphorus in soil into forms that plants can use. By carefully controlling the amount of millet, moisture, and fungal starter culture, they achieved significantly higher enzyme production than previous methods. This inexpensive, sustainable approach could improve soil fertility and plant growth in agriculture.

Biocontrol of Cercospora leaf spot in sugar beet by a novel Bacillus velezensis KT27 strain: Enhanced antifungal activity and growth promotion in laboratory and field conditions

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This research demonstrates that a beneficial bacteria called Bacillus velezensis KT27 can effectively control a common fungal disease in sugar beet crops. The bacteria fights the disease by producing natural antifungal compounds and can be further enhanced by exposure to inactivated fungal pathogens. Field trials showed the bacterial treatment provided disease protection almost as good as chemical fungicides while also promoting plant growth and increasing sugar beet yield by up to 15%.

Efficient conversion of tea residue nutrients: Screening and proliferation of edible fungi

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Tea waste from instant tea production is typically discarded, but researchers discovered that edible fungi can efficiently convert this waste into nutritious fungal protein. By testing six different mushroom species, they found that Monascus kaoliang B6 was the most effective, using special enzymes to break down the tough plant fibers and convert nutrients into fungal biomass. This process offers an eco-friendly solution to tea industry waste while producing valuable food ingredients.

Native Fungi as a Nature-Based Solution to Mitigate Toxic Metal(loid) Accumulation in Rice

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Rice farmers dealing with contaminated soils now have a natural solution: specially selected fungi can be added to the soil to help reduce toxic metal accumulation in rice plants. In a greenhouse study, native fungi reduced arsenic uptake by up to 75% when combined with specific water management practices. This approach offers an environmentally friendly alternative to traditional remediation methods while promoting sustainable agriculture in metal-contaminated areas.

therapeutic action: nutrient bioavailability enhancement

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

The Application of Fungi and Their Secondary Metabolites in Aquaculture

Nocardia mangyaensis NH1: A Biofertilizer Candidate with Tolerance to Pesticides, Heavy Metals and Antibiotics

Acid Phosphatase Produced by Trichoderma harzianum in Solid Fermentation Using Millet

Biocontrol of Cercospora leaf spot in sugar beet by a novel Bacillus velezensis KT27 strain: Enhanced antifungal activity and growth promotion in laboratory and field conditions

Efficient conversion of tea residue nutrients: Screening and proliferation of edible fungi

Native Fungi as a Nature-Based Solution to Mitigate Toxic Metal(loid) Accumulation in Rice