solid-state fermentation – Page 4

Microcycle Conidia Production in an Entomopathogenic Fungus Beauveria bassiana: The Role of Chitin Deacetylase in the Conidiation and the Contribution of Nanocoating in Conidial Stability

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This study explores how to produce more fungal spores from Beauveria bassiana, a natural pest control organism, through a process called microcycle conidiation. Scientists found that a specific enzyme, chitin deacetylase, plays a crucial role in this process. They also discovered that coating these spores with nanoparticles made them more resistant to heat and UV light, making them more effective for field application against insect pests like leaf caterpillars. The nanocoated spores maintained their ability to kill pests while being more stable in harsh environmental conditions.

Microcycle Conidia Production in an Entomopathogenic Fungus Beauveria bassiana: The Role of Chitin Deacetylase in the Conidiation and the Contribution of Nanocoating in Conidial Stability

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Scientists studied how a fungus called Beauveria bassiana can produce spores more efficiently for pest control. They found that creating spores directly from other spores (microcycle conidiation) produces five times more spores in less time. Coating these spores with special nano-sized particles made them more stable in heat and sunlight while keeping them deadly to pest insects like the tobacco armyworm.

Biotechnological production of natural pigments for textile dyeing

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Scientists developed a new way to create natural pigments from a common fungus that could replace synthetic dyes in textiles. They used leftover materials from cheese and corn processing as cheap nutrients, and even used corncob as a growing surface. The resulting pigments successfully dyed cotton and linen fabrics, offering a more environmentally friendly and cost-effective alternative to traditional chemical dyes.

Influence of Culture Conditions on Bioactive Compounds in Cordyceps militaris: A Comprehensive Review

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Cordyceps militaris is a medicinal fungus that produces powerful health-promoting compounds used to boost energy, strengthen immunity, and fight cancer. This review explains how different growing conditions—like the type of food the fungus is grown on, light exposure, and temperature—affect which beneficial compounds it produces and how much. By optimizing these conditions, producers can create more effective products for health supplements and medicines, though more research is needed to standardize production methods.

Insights into the special physiology of Mortierella alpina cultured by agar supported solid state fermentation in enhancing arachidonic acid enriched lipid production

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Researchers developed a new eco-friendly method to produce arachidonic acid (ARA), an important nutrient used in supplements, pharmaceuticals, and baby formula. Using a solid fermentation technique with the fungus Mortierella alpina, they achieved 1.6 times higher yields compared to traditional methods while reducing wastewater. By understanding how the fungus grows in different conditions and optimizing nutrients, they created a more sustainable and efficient production process.

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.

Effects of Rhizopus oligosporus-Mediated Solid-State Fermentation on the Protein Profile and α-Glucosidase Inhibitory Activity of Selenium-Biofortified Soybean Tempeh

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Researchers used a fungus called Rhizopus oligosporus to make selenium-enriched tempeh, a traditional soybean food. The selenium-enriched tempeh had better protein breakdown, higher amino acid levels, and was better at controlling blood sugar than regular tempeh. This research suggests that selenium-biofortified tempeh could be a healthy functional food for people looking to manage blood sugar levels naturally.

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.

Statistical methodologies for enhancing lipase production from Aspergillus Niger and using biologically treated cottonseed waste in animal nutrition

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This study shows how scientists can grow an enzyme called lipase on cottonseed waste using a fungus called Aspergillus niger. The leftover treated material becomes excellent animal feed with high protein and important amino acids. This approach solves two problems at once: producing valuable enzymes for industry while creating nutritious feed for livestock from agricultural waste.

Innovative applications and therapeutic potential of oilseeds and their by-products: An eco-friendly and sustainable approach

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This review explains how leftover materials from oilseed processing, which are usually discarded as waste, contain valuable nutrients and healing compounds. These by-products can be used to make healthier foods like bread, burgers, and drinks, or turned into supplements and medicines. By using these materials instead of wasting them, we can reduce environmental problems, provide better nutrition, and create sustainable food products that help prevent diseases like diabetes and heart problems.

Research Keyword: solid-state fermentation