Mycobiology.  2018 Dec;46(4):396-406. 10.1080/12298093.2018.1537586.

Morphological Characteristic Regulation of Ligninolytic Enzyme Produced by Trametes polyzona

Affiliations
  • 1Department of Microbiology, Faculty of Science, Kasetsart University, Bangkok, Thailand. lerluckc@yahoo.com

Abstract

A newly isolated white rot fungal strain KU-RNW027 was identified as Trametes polyzona, based on an analysis of its morphological characteristics and phylogenetic data. Aeration and fungal morphology were important factors which drove strain KU-RNW027 to secrete two different ligninolytic enzymes as manganese peroxidase (MnP) and laccase. Highest activities of MnP and laccase were obtained in a continuous shaking culture at 8 and 47 times higher, respectively, than under static conditions. Strain KU-RNW027 existed as pellets and free form mycelial clumps in submerged cultivation with the pellet form producing more enzymes. Fungal biomass increased with increasing amounts of pellet inoculum while pellet diameter decreased. Strain KU-RNW027 formed terminal chlamydospore-like structures in cultures inoculated with 0.05"‰g/L as optimal pellet inoculum which resulted in highest enzyme production. Enzyme production efficiency of T. polyzona KU-RNW027 depended on fungal pellet morphology as size, porosity, and formation of chlamydospore-like structures.

Keyword

Chlamydospore-like structures; fungal pellet; ligninolytic enzymes; porosity; Trametes polyzona

MeSH Terms

Biomass
Laccase
Manganese
Peroxidase
Porosity
Trametes*
Laccase
Manganese
Peroxidase
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