Effect of cultivation conditions on ligninolytic enzyme production by Ganoderma carnosum

Effect of cultivation conditions on ligninolytic enzyme production by Ganoderma carnosum

Ganoderma carnosum has been found in Europe only, at coniferous trees and it is difficult to distinguish it morphologically from G. lucidum. Since G. carnosum has not been studied biochemically yet, the aim of this study was to analyse its ability to produce Mn-dependent peroxidase (MnP), versatile...

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Bibliographic Details
Published in:Zbornik Matice Srpske za Prirodne Nauke Vol. 2009; no. 116; pp. 289 - 295
Main Authors: Simonić Jasmina Lj, Vukojević Jelena B., Stajić Mirjana M., Glamočlija Jasmina M.
Format: Journal Article
Language:English
Published: Matica srpska 01-01-2009
Subjects:
Ganoderma carnosum
laccase
Mn-dependent peroxidase
nitrogenconcentration
plant raw materials
versatile peroxidase
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Summary:Ganoderma carnosum has been found in Europe only, at coniferous trees and it is difficult to distinguish it morphologically from G. lucidum. Since G. carnosum has not been studied biochemically yet, the aim of this study was to analyse its ability to produce Mn-dependent peroxidase (MnP), versatile peroxidase (VP) and laccase (Lac) under conditions of solid-state fermentation of selected plant raw materials as carbon sources, in the presence of different nitrogen concentrations in the medium. Wheat straw, corn stem, oak and grapevine sawdust were the analysed plant raw materials. Nitrogen source in synthetic medium was NH4NO3 and its concentrations were: 10mM N and 20 mM N. Enzyme activity was determined spectrophotometrically, using ABTS and phenol red, as the substrates for Lac and Mn-oxidizing peroxidases, respectively. Maximum level of MnP activity (56.82 U/l) was obtained in the medium with wheat straw and nitrogen concentration of 10 mM. Best carbon source for VP production was grapevine sawdust at nitrogen concentration of 10 mM (80.80 U/l). The obtained Lac activity was very low in the medium with wheat straw (1.80 U/l), while it was not detected in the presence of other three analyzed plant raw materials. Maximum of total protein content (0.06 mgml-1) was noted in the medium where oak sawdust was carbon source and nitrogen concentration was 20 mM.
ISSN:0352-4906
DOI:10.2298/ZMSPN0916289S