submerged fermentation – Page 2

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

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This review examines how growing conditions affect the medicinal compounds produced by Cordyceps militaris mushrooms. The research shows that factors like light exposure, specific nutrient combinations, and growing on insect-based substrates can significantly boost production of beneficial compounds like cordycepin. These findings suggest ways to produce more effective and affordable medicinal mushroom products for use in supplements and pharmaceuticals.

Optimization of triterpenoids biosynthesis in Athelia termitophila as a source of natural products

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Researchers optimized growing conditions for a fungus found in termite nests to dramatically increase production of triterpenoids, naturally-occurring compounds with potent health benefits. Using statistical methods to test different nutrients and conditions, they nearly doubled triterpenoid production and mycelial biomass. These findings could make triterpenoid-based medicines and supplements more affordable and widely available by improving natural production methods.

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.

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.

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.

Cunninghamella echinulata DSM1905 biofilm-based L-asparaginase production in pneumatically-driven bioreactors

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Scientists tested different types of bioreactors to grow a fungus called Cunninghamella echinulata that produces L-asparaginase, an enzyme used to treat leukemia and lymphoma. They found that a special hybrid bioreactor with a mesh scaffold allowed the fungus to form a biofilm, which produced significantly more of the therapeutic enzyme than other reactor types. This discovery could improve the production of cancer-fighting medications.

Submerged Fermentation of Rhizopus sp. for l-asparaginase Production in Lymphoma Therapy

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Researchers developed a new way to produce an anti-cancer enzyme called L-asparaginase using a fungus called Rhizopus, which could offer a safer alternative to current bacterial sources. They designed and tested a special bioreactor system that allows the fungus to grow as a biofilm, significantly increasing enzyme production. The system achieved enzyme activity levels much higher than previous laboratory methods, suggesting it could be scaled up for industrial pharmaceutical production.

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

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Cordyceps militaris is a medicinal fungus used traditionally for treating fatigue, boosting immunity, and managing various health conditions. This comprehensive review explains how different growing methods, nutrients, light, temperature, and substrate materials affect the production of beneficial compounds in the fungus. The findings show that mixing grains with insect materials and using specific light conditions can significantly increase production of cordycepin, the most promising compound for cancer and immune health. The review identifies that more standardized growing methods and better understanding of the fungus’s metabolism are needed to make large-scale production practical and affordable.

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.

Conversion of Soluble Compounds in Distillery Wastewater into Fungal Biomass and Metabolites Using Australian Ganoderma Isolates

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Researchers discovered that Ganoderma mushroom mycelium can clean up rum distillery wastewater while producing edible, protein-rich fungal biomass. The mycelium successfully removed harmful compounds from the wastewater and accumulated bioactive compounds with health benefits. This dual-benefit approach transforms an environmental waste problem into a valuable food ingredient, offering a sustainable and economical solution for the distillery industry.

Research Keyword: submerged fermentation