esterase – mycolab.ai

Production, optimization and characterization of esterase isolated from a new endophytic Trichoderma afroharzianum strain AUMC 16,433 and its applications in dye decolorization

mycolabadmin

Scientists discovered a new type of fungus that produces an enzyme capable of breaking down synthetic dyes used in the textile industry. Using statistical optimization techniques, they enhanced the enzyme’s production and purified it to study its properties. The enzyme successfully removed various industrial dyes from solutions, with the highest effectiveness on malachite green dye. This discovery offers a promising natural solution to reduce environmental pollution caused by textile dye wastewater.

Screening, identification, metabolic pathway of di-n-butyl phthalate degrading Priestia megaterium P-7 isolated from long-term film mulched cotton field soil in Xinjiang

mycolabadmin

This research identifies a special bacterium called Priestia megaterium P-7 that can efficiently break down di-n-butyl phthalate (DBP), a harmful plastic chemical that accumulates in cotton field soils. Scientists found that this bacterium can completely remove DBP from contaminated soil within 20 hours under optimal conditions. By studying the bacterium’s genes and metabolism, they discovered the specific enzymes and pathways it uses to degrade DBP into harmless compounds. This finding offers a practical biological solution for cleaning up contaminated agricultural soils, particularly in Xinjiang where plastic film mulching is widely used in cotton farming.

Esterase and Peroxidase Are Involved in the Transformation of Chitosan Films by the Fungus Fusarium oxysporum Schltdl. IBPPM 543

mycolabadmin

Scientists discovered that a fungus called Fusarium oxysporum can safely modify chitosan films (a material made from shellfish shells) without breaking them apart. Instead of using destructive enzymes, the fungus produces special enzymes called esterase and peroxidase that reorganize the chitosan’s structure, making it stronger and more resistant. This discovery could lead to new medical materials, drug delivery systems, and water purification products with customized properties.

Esterase and Peroxidase Are Involved in the Transformation of Chitosan Films by the Fungus Fusarium oxysporum Schltdl. IBPPM 543

mycolabadmin

Scientists discovered that a common fungus called Fusarium oxysporum can modify chitosan films (made from a natural polymer related to shellfish shells) without destroying them. The fungus produces special enzymes that change the structure of the films, making them stronger and less soluble in acidic solutions. These modified films could be useful for creating new medical devices, drug carriers, and other materials.

Research Keyword: esterase

Production, optimization and characterization of esterase isolated from a new endophytic Trichoderma afroharzianum strain AUMC 16,433 and its applications in dye decolorization

Screening, identification, metabolic pathway of di-n-butyl phthalate degrading Priestia megaterium P-7 isolated from long-term film mulched cotton field soil in Xinjiang

Esterase and Peroxidase Are Involved in the Transformation of Chitosan Films by the Fungus Fusarium oxysporum Schltdl. IBPPM 543

Esterase and Peroxidase Are Involved in the Transformation of Chitosan Films by the Fungus Fusarium oxysporum Schltdl. IBPPM 543