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Lignin-modifying enzymes benefit industry as they can break down lignin; a common waste product of the paper and pulp industry. These enzymes have been used in the refinement of poplar as lignin inhibits the enzymatic hydrolysis of treated poplar and Lignin-modifying enzymes can efficiently degrade the lignin thus fixing this problem. [4 ...
Lignin is found to be degraded by enzyme lignin peroxidases produced by some fungi like Phanerochaete chrysosporium. The mechanism by which lignin peroxidase (LiP) interacts with the lignin polymer involves veratrole alcohol , which is a secondary metabolite of white rot fungi that acts as a cofactor for the enzyme.
Production of lignin-peroxidase and manganese-peroxidase is the hallmark of basidiomycetes and is often used to assess basidiomycete activity, especially in biotechnology applications. [38] Most white-rot species also produce laccase, a copper-containing enzyme that degrades polymeric lignin and humic substances. [39]
Aside from wine, laccases are of interest in the food industry, [21] [22] [23] including food packaging. [24] The ability of laccases to modify complex organic molecules has attracted attention in the area of organic synthesis. [25] Laccases have been also been studied as catalysts in bioremediation to degrade emerging pollutants and ...
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Lignin is a complex polymeric chemical compound that is a major constituent of wood. Resistant to biological decomposition, its presence in paper makes it weaker and more liable to discolor when exposed to light. The species C. bulleri contains three lignin-degrading enzymes: lignin peroxidase, manganese peroxidase, and laccase. [58]
The first way white-rot fungi can break down lignin involves a high-redox-potential catalyzed peroxidase attack on the heme pocket, thus reducing the stability of lignin. The process starts with creation of extracellular hydrogen peroxide (H 2 O 2 ), a process completed via glyoxal oxidase (GLX).
The enzymes responsible, laccase and manganese peroxidase, also have industrial applications for lignin degradation and removal in the pulp and paper industry. [26] Liquid cultures of C. stercoreus have also been shown to biodegrade the explosive compound 2,4,6-trinitrotoluene . [27]