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 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.Vrste roda Ganoderma su producenti mnogih biološki aktivnih supstanci pa su objekti proučavanja mnogih medicinskih i farmaceutskih studija. U novije vreme se sve više pažnje poklanja upoznavanju njihovog ligninolitičkog enzimskog sistema, u cilju uspešne primene u različitim biotehnološkim procesima. Za razliku od G. lucidum, čiji je ligninolitički sistem intenzivno proučavan, ostale vrste ovog roda su retko bile objekti istraživanja. G. carnosum se teško morfološki razlikuje od G. lucidum. i još uvek nije biohemijski proučena, pa je cilj našeg istraživanja bio analiza produkcije Mn-oksidujućih peroksidaza i lakaza u uslovima čvrste kultivacije, na različitim biljnim ostacima (pšenična slama, stabljike kukuruza, piljevina hrasta i vinove loze) u prisustvu azota u obliku NH4NO3 i u koncentracijama od 10 mM, odnosno 20 mM. Maksimum produkcije Mn-zavisne peroksidaze dobijen je na pšeničnoj slami pri koncentraciji azota od 10 mM (56.82 U/l). Piljevina vinove loze i koncentracija azota od 10 mM bili su optimalni za sintezu verzatil peroksidaze (80.80 U/l). Dobijena aktivnost lakaza je bila izuzetno niska u medijumu sa pšeničnom slamom (1.80 U/l), dok na ostalim biljnim ostacima nije zabeležena. Maksimalni sadržaj ukupnih proteina je bio najveći u medijumu sa piljevinom hrasta kao izvorom ugljenika i koncentracijom azota od 10 mM.Projekat ministarstva br. 14304

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 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.Vrste roda Ganoderma su producenti mnogih biološki aktivnih supstanci pa su objekti proučavanja mnogih medicinskih i farmaceutskih studija. U novije vreme se sve više pažnje poklanja upoznavanju njihovog ligninolitičkog enzimskog sistema, u cilju uspešne primene u različitim biotehnološkim procesima. Za razliku od G. lucidum, čiji je ligninolitički sistem intenzivno proučavan, ostale vrste ovog roda su retko bile objekti istraživanja. G. carnosum se teško morfološki razlikuje od G. lucidum. i još uvek nije biohemijski proučena, pa je cilj našeg istraživanja bio analiza produkcije Mn-oksidujućih peroksidaza i lakaza u uslovima čvrste kultivacije, na različitim biljnim ostacima (pšenična slama, stabljike kukuruza, piljevina hrasta i vinove loze) u prisustvu azota u obliku NH4NO3 i u koncentracijama od 10 mM, odnosno 20 mM. Maksimum produkcije Mn-zavisne peroksidaze dobijen je na pšeničnoj slami pri koncentraciji azota od 10 mM (56.82 U/l). Piljevina vinove loze i koncentracija azota od 10 mM bili su optimalni za sintezu verzatil peroksidaze (80.80 U/l). Dobijena aktivnost lakaza je bila izuzetno niska u medijumu sa pšeničnom slamom (1.80 U/l), dok na ostalim biljnim ostacima nije zabeležena. Maksimalni sadržaj ukupnih proteina je bio najveći u medijumu sa piljevinom hrasta kao izvorom ugljenika i koncentracijom azota od 10 mM.Projekat ministarstva br. 14304

WHEAT STRAW CONVERSION BY ENZYMATIC SYSTEM OF GANODERMA LUCIDUM

The purpose of this study was to resolve the question of whether various nitrogen sources and concentrations affect characteristics of selected G. lucidum ligninolytic enzymes participating in wheat straw fermentation. This is the first study reporting the presence of versatile peroxidase activity in crude extract of G. lucidum culture, as well as isoforms profile of Mn-oxidizing peroxidases. NH4NO3 was the optimum nitrogen source for laccase and Mn-dependent peroxidase activity, while peptone was the optimum one for versatile peroxidase activity. Four bands with laccase activity were obtained by native PAGE and IEF separations from medium enriched with inorganic nitrogen source, and only two bands from medium containing organic source. Medium composition was not shown to affect isoenzyme patterns of Mn-oxidizing peroxidases. Four isoforms of Mn-dependent peroxidase and three of versatile peroxidase were obtained on native PAGE. By IEF separation, five isoforms of Mn-dependent peroxidase and only two of versatile peroxidase were observed. The results demonstrated that G. lucidum has potential for mineralization and transformation of various agricultural residues and should take more significant participation in large-scale biotechnological processes

Intraspecific Diversity within Ganoderma lucidum in the Production of Laccase and Mn-Oxidizing Peroxidases During Plant Residues Fermentation

Comparison of the potential for laccase and Mn-oxidizing peroxidases synthesis by ten strains of Ganoderma lucidum, originating from different worldwide areas, during solid-state fermentation of selected plant raw materials was the aim of this study. The great intraspecific variability in the production of analyzed enzymes as well as the dependence of the enzyme activity on plant raw materials were reported. The strain HAI 957 was the best laccase producer in the presence of corn stem, as a unique carbon source (129.46 U/L). The highest level of Mn-dependent peroxidase activity was noted after wheat straw fermentation by G. lucidum HAI 246 (78.64 U/L), while the maximal versatile peroxidase production (59.72 U/L) was observed in strain HAI 957 in the medium with oak sawdust.Ministry of Science and Technological Development of Serbia [143041

Intraspecific Diversity within Ganoderma lucidum in the Production of Laccase and Mn-Oxidizing Peroxidases During Plant Residues Fermentation

Comparison of the potential for laccase and Mn-oxidizing peroxidases synthesis by ten strains of Ganoderma lucidum, originating from different worldwide areas, during solid-state fermentation of selected plant raw materials was the aim of this study. The great intraspecific variability in the production of analyzed enzymes as well as the dependence of the enzyme activity on plant raw materials were reported. The strain HAI 957 was the best laccase producer in the presence of corn stem, as a unique carbon source (129.46 U/L). The highest level of Mn-dependent peroxidase activity was noted after wheat straw fermentation by G. lucidum HAI 246 (78.64 U/L), while the maximal versatile peroxidase production (59.72 U/L) was observed in strain HAI 957 in the medium with oak sawdust.Ministry of Science and Technological Development of Serbia [143041

Effect of medium pH and cultivation period on mycelial biomass, polysaccharide, and ligninolytic enzyme production by Ganoderma lucidum from Montenegro

The effect of initial medium pH on biomass, extracellular and intracellular polysaccharide, and ligninolytic enzyme production by Ganoderma lucidum was investigated at different pH values after 7 and 14 days of cultivation. Maximal production of biomass was recorded at pH 4.5 and 5.0; maximal production of extracellular polysaccharides at pH 7.0 and 3.0; and maximal production of intracellular polysaccharides at pH 7.0 and 5.5. Ligninolytic enzymes were not produced at any pH of the medium. Maximal biomass production was obtained on the 11th day of cultivation; maximal extracellular polysaccharide production on the 7th day; and maximal intracellular polysaccharide production on the 6th and 10th day of cultivation.

A Comparative Assessment of the Potential of Polysaccharide Production and Intracellular Sugar Composition within Lingzhi or Reishi Medicinal Mushroom, Ganoderma lucidum (W.Curt.:Fr.)P. Karst. (Aphyllophoromycetideae)

Ganoderma lucidum is a well-known medicinal mushroom species in which polysaccharides are one of the major sources of biological activity. The species was considered as a species-complex due to significant variations in morphological, biochemical, and genetic features among populations with a worldwide distribution. This fact was the basis for setting the aim of this research: to study intraspecific diversity in polysaccharide production and intracellular sugar composition among selected G. lucidum strains. The presence of intraspecific diversity among 10 G. lucidum strains, from different areas worldwide, was noted. Values of produced mycelia biomass and intracellular polysaccharides were found in wide ranges (3.1-28.2 g L-1 and 20.0-53.3 mg g(-1), respectively), while differences in extracellular polysaccharide amounts were minor (0.2-1.5 mg mL(-1)). The significant quantitative and qualitative differences in intracellular sugar composition were noted. Glucose was the predominant sugar in almost all strains except one (HAI 447), where sucrose was dominant. The potential of polysaccharide production and intracellular sugar composition could be one more taxonomic criterion for strain characterization within G. lucidum. The differences in intracellular sugar composition and proportions could be reflected in features of produced polysaccharides and also in their biological activities.Ministry for Science and Technological Development of Serbia [173032, 173040

EFFECT OF MEDIUM pH AND CULTIVATION PERIOD ON MYCELIAL BIOMASS, POLYSACCHARIDE, AND LIGNINOLYTIC ENZYME PRODUCTION BY GANODERMA LUCIDUM FROM MONTENEGRO

Abstract- The effect of initial medium pH on biomass, extracellular and intracellular polysaccharide, and ligninolytic enzyme production by Ganoderma lucidum was investigated at different pH values after 7 and 14 days of cultivation. Maximal production of biomass was recorded at pH 4.5 and 5.0; maximal production of extracellular polysaccharides at pH 7.0 and 3.0; and maximal production of intracellular polysaccharides at pH 7.0 and 5.5. Ligninolytic enzymes were not produced at any pH of the medium. Maximal biomass production was obtained on the 11 th day of cultivation; maximal extracellular polysaccharide production on the 7 th day; and maximal intracellular polysaccharide production on the 6 th and 10 th day of cultivation

Optimization of Submerged Cultivation Conditions for Extra- and Intracellular Polysaccharide Production by Medicinal Ling Zhi or Reishi Mushroom Ganoderma lucidum (W. Curt.: Fr.) P. Karst. (Aphyllophoromycetideae)

This study showed that cultivation conditions (medium composition, initial medium pH, aeration rate, inoculum density) affect biomass and polysaccharide production in Ganoderma lucidum strain HAI 447. The synthetic medium (pH 5.5) with maltose at the concentration of 65.0 g L-1, peptone of 0.2%, as well as in the presence of K, Na, and Mg at concentrations of 6.0, 3.0, and 2.0 mM, respectively, presented the best conditions for biomass (29.2 g L-1) and extra- and intracellular polysaccharide (2.9 mg mL(-1) and 73.3 mg g(-1), respectively) production in the analyzed strain. Constant aeration was optimal for biomass and extracellular polysaccharide production, whereas cultivation under stationary conditions was the best for intracellular polysaccharide production. A peak in biomass and polysaccharide production was observed at an inoculum density of 20.0 mL.Ministry of Science of Serbia [143041

Optimization of Submerged Cultivation Conditions for Extra- and Intracellular Polysaccharide Production by Medicinal Ling Zhi or Reishi Mushroom Ganoderma lucidum (W. Curt.: Fr.) P. Karst. (Aphyllophoromycetideae)

This study showed that cultivation conditions (medium composition, initial medium pH, aeration rate, inoculum density) affect biomass and polysaccharide production in Ganoderma lucidum strain HAI 447. The synthetic medium (pH 5.5) with maltose at the concentration of 65.0 g L-1, peptone of 0.2%, as well as in the presence of K, Na, and Mg at concentrations of 6.0, 3.0, and 2.0 mM, respectively, presented the best conditions for biomass (29.2 g L-1) and extra- and intracellular polysaccharide (2.9 mg mL(-1) and 73.3 mg g(-1), respectively) production in the analyzed strain. Constant aeration was optimal for biomass and extracellular polysaccharide production, whereas cultivation under stationary conditions was the best for intracellular polysaccharide production. A peak in biomass and polysaccharide production was observed at an inoculum density of 20.0 mL.Ministry of Science of Serbia [143041