[PDF][PDF] Enzymatic combustion by ligninolytic enzymes of lignicolous fungi
PK Nagadesi, A Arya - Kathmandu University Journal of Science …, 2013 - academia.edu
Kathmandu University Journal of Science, Engineering and Technology, 2013•academia.edu
Lignicolous fungi are wood degrading organisms, which were able to decompose all wood
polymers; lignin, cellulose and hemicellulose etc. by producing ligninolytic, cellulolytic and
hemicellulolytic enzymes respectively. The complex plant polymer like lignin was
biodegraded by a unique “enzymatic combustion,” ie a nonspecific enzyme-catalyzed
burning. Enzymatic combustion, involves oxidative extracellular enzymes. The selective
lignicolous fungi that decompose preferentially wood lignin by lignin peroxidase …
polymers; lignin, cellulose and hemicellulose etc. by producing ligninolytic, cellulolytic and
hemicellulolytic enzymes respectively. The complex plant polymer like lignin was
biodegraded by a unique “enzymatic combustion,” ie a nonspecific enzyme-catalyzed
burning. Enzymatic combustion, involves oxidative extracellular enzymes. The selective
lignicolous fungi that decompose preferentially wood lignin by lignin peroxidase …
Abstract
Lignicolous fungi are wood degrading organisms, which were able to decompose all wood polymers; lignin, cellulose and hemicellulose etc. by producing ligninolytic, cellulolytic and hemicellulolytic enzymes respectively. The complex plant polymer like lignin was biodegraded by a unique “enzymatic combustion,” ie a nonspecific enzyme-catalyzed burning. Enzymatic combustion, involves oxidative extracellular enzymes. The selective lignicolous fungi that decompose preferentially wood lignin by lignin peroxidase, Manganese peroxidase, and laccases in wood polysaccharides leaving cellulose were Lenzites sterioides1,
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