Research Topic: laccase production

Techno-economic analysis of a novel laccase production process utilizing perennial biomass and the aqueous phase of bio-oil

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Researchers developed a new method to produce laccase, a useful enzyme with many industrial applications, by growing oyster mushrooms on prairie plants and waste materials from bio-oil production. Through optimization experiments and economic modeling, they found that this process could produce laccase at prices significantly lower than current commercial enzyme products, making it economically viable at small to moderate production scales. The method has the added benefit of providing farmers with a financial incentive to grow perennial prairie plants instead of traditional crops, supporting ecological and soil health improvements.

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Modulation of Abortiporus biennis Response to Oxidative Stress by Light as a New Eco-Friendly Approach with a Biotechnological Perspective

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Researchers studied how different colored lights and a chemical called menadione affect a white rot fungus called Abortiporus biennis. They found that combining red light with menadione significantly increased the fungus’s metabolic activity and production of useful compounds like laccase, an enzyme with industrial and medical applications. The study shows that using simple, eco-friendly stressors like colored light could help boost the fungus’s beneficial properties for practical use.

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Enhanced extracellular production of laccase in Coprinopsis cinerea by silencing chitinase gene

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Scientists improved the production of laccase, an enzyme with industrial uses in detoxification and food processing, by genetically engineering mushroom cells to have stronger cell walls. By reducing the activity of genes that break down chitin in the cell wall, they created mushroom strains that could better withstand the stirring forces during fermentation, resulting in over twice as much enzyme production. This breakthrough could lead to cheaper, more efficient production of this useful green catalyst on an industrial scale.

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Modulation of Abortiporus biennis Response to Oxidative Stress by Light as a New Eco-Friendly Approach with a Biotechnological Perspective

mycolabadmin

Researchers studied how a type of fungus called Abortiporus biennis responds to stress created by a chemical compound (menadione) and different colors of light. They found that combining white light with menadione dramatically increased the production of laccase, an important enzyme used in industrial applications. This discovery offers an inexpensive, non-toxic way to boost enzyme production without using expensive chemical additives, potentially improving medical and industrial uses of this fungus.

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