Research Keyword: fungal pigments

Antioxidant, Antibacterial and Dyeing Potential of Crude Pigment Extract of Gonatophragmium triuniae and Its Chemical Characterization

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Scientists discovered a rare orange-pigment-producing fungus called Gonatophragmium triuniae that has useful medicinal and practical applications. The fungus produces a natural pigment that can kill bacteria, protect against oxidative damage, and effectively dye cotton fabrics without toxic chemicals. The main active compound was identified as a phenoxazine derivative, suggesting potential uses in textiles, pharmaceuticals, and natural cosmetics as a safe alternative to synthetic pigments and antibiotics.

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Optimized production and characterization of red dye from Talaromyces purpureogenus PH7 for application as a textile dye

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Researchers optimized conditions to produce natural red dye from a fungus called Talaromyces purpureogenus, which could replace harmful synthetic dyes in the textile industry. The dye successfully colored cotton fabrics and resisted fading from washing and sunlight exposure. The fungus also produces beneficial compounds that could improve soil health, making this an environmentally friendly alternative to petroleum-based chemical dyes.

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Biotechnological production of natural pigments for textile dyeing

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Scientists have successfully produced natural pigments from a fungus called Penicillium brevicompactum using leftover materials from food and agriculture industries, like cheese whey and corn byproducts. These pigments were used to dye cotton and linen fabrics, creating colors comparable to those from synthetic dyes but without the environmental and health concerns. This sustainable approach could help the textile industry move away from artificial dyes while reducing waste and supporting a circular economy.

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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.

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Identification of a Biosynthetic Gene Cluster for the Production of the Blue-Green Pigment Xylindein by the Fungus Chlorociboria aeruginascens

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Scientists discovered the genetic instructions that allow certain fungi to produce xylindein, a beautiful blue-green pigment found in stained wood. By analyzing fungal genomes and studying gene activity, they identified nine genes working together to create this valuable compound, which has uses in textiles and electronics. While attempts to produce xylindein in laboratory yeasts were unsuccessful, their work successfully produced a related pigment and opens new pathways for understanding xylindein production.

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