Effect of nutrient nitrogen and manganese on manganese peroxidase and laccase production by Lentinula (Lentinus) edodes

Abstract Lentinula (Lentinus) edodes , strain LS4, produces manganese-dependent peroxidase (MnP) and laccase, but not lignin peroxidase, when grown on a defined medium with glucose as sole carbon source. MnP production is suppressed by nitrogen whereas highest levels of laccase were observed when the fungus was grown under high nitrogen (26 mM) conditions. Both the titre and time of appearance of MnP were affected by the concentration of Mn in the culture medium with highest enzyme levels recorded in cultures supplemented with 1.1 ppm Mn. Purified MnP from L. edodes LS4 has an apparent M _r of 59000 and a p I of 5.6, and differs in several respects from a MnP isolated from L. edodes grown on a commercial wood substrate.     

Effect of culture conditions on manganese peroxidase production and activity by some white rot fungi

The ligninolytic system of white rot fungi is primarily composed of lignin peroxidase, manganese peroxidase (MnP) and laccase. The present work was carried out to determine the best culture conditions for production of MnP and its activity in the relatively little-explored cultures of Dichomitus squalens, Irpex flavus and Polyporus sanguineus, as compared with conditions for Phanerochaete chrysosporium and Coriolus versicolor. Studies on enzyme production under different nutritional conditions revealed veratryl alcohol, guaiacol, Reax 80 and Polyfon H to be excellent MnP inducers. Electronic Publication     

Optimization of manganese peroxidase production by the white rot fungus Bjerkandera sp. strain BOS55

Manganese dependent peroxidase (MnP) is the most ubiquitous peroxidase produced by white rot fungi. MnP is known to be involved in lignin degradation, biobleaching and in the oxidation of hazardous organopollutants. Bjerkandera sp. strain BOS55 is a nitrogen-unregulated white rot fungus which produces high amounts of MnP in the excess of N-nutrients due to increased biomass yield. Therefore, the strain is a good candidate for use in large scale production of this enzyme. The objective of this study was to optimize the MnP production in N-sufficient cultures by varying different physiological factors such as Mn concentration, culture pH, incubation temperature and the addition of organic acids. The fungus produced the highest level of MnP (up to 900 U 1⁻¹) when the Mn concentration was 0.2 to 1 mM, the pH value was 5.2, and the incubation temperature was 30°C. A noteworthy finding was that MnP was also produced at lower levels in the complete absence of Mn. The addition of organic acids like glycolate, malonate, glucuronate, gluconate, 2-hydroxybutyrate to the culture medium increased the peak titres of MnP up to 1250 U 1⁻¹. FPLC profiles indicated that the organic acids stimulated the production of all MnP isoenzymes present in the extracellular fluid of the fungus.     

New and different lignocellulosic materials from Turkey for laccase and manganese peroxidase production by Trametes versicolor

In the present study, the production of laccase (Lac) and manganese‐dependent peroxidase (MnP) by the white‐rot fungus Trametes versicolor grown in submerged cultures with different agricultural residues was investigated. The lignocellulosic materials studied were almond shells, hazelnut husks, sunflower stems, clover straw and hazelnut cobs, because they are common agricultural wastes in Turkey. Among the different lignocellulosic materials studied, hazelnut cobs provided the highest Lac and MnP activities (47.09 and 109.21 U/L, respectively). The optimum conditions were determined for Lac and MnP production in submerged cultures of T. versicolor by using hazelnut cobs as substrate. For Lac production, the optimum incubation time, hazelnut cob concentration, pH, and shaking rate were found as 4 days, 2% w/v, 6.0 and 130 rpm, respectively. For MnP production, the optimum incubation time, hazelnut cob concentration, pH and shaking rate were found as 5 days, 2% w/v, 6.0 and 90 rpm, respectively.     

Phenol degradation and colour removal in submerged culture of Pleurotus sajor-caju with paper mill effluents

The fungus Pleurotus sajor-caju secretes phenol-oxidases that enable the use of recalcitrant compounds as substrates. The residues of paper manufacture contain high lignin levels, which gives the effluents a characteristic brownish colour. To test the potential of P. sajor-caju cultures on reducing these parameters, we used 90% of raw effluents from medium consistency oxygen delignification and bleaching stages plus 10% of mineral solution and different levels of glucose (5–15 g L^?1) as substrate. We observed a greater fungal biomass in cultures using effluent than in controls. Cultures containing 10 to 15 g L^?1 of glucose resulted in about 42% colour reduction. The polyphenol content was also reduced by 58.9% by the 13th day of culture. In addition, we observed the secretion of laccases (211.44 U mL^?1 and 45.98 U mL^?1 using ABTS and syringaldazine, respectively) and peroxidases (6.11 U mL^?1-ABTS) both peaking at the 7th day of culture and with similar kinetics of production in different glucose concentrations.     

Phenol degradation and colour removal in submerged culture of Pleurotus sajor-caju with paper mill effluents

The fungus Pleurotus sajor-caju secretes phenol-oxidases that enable the use of recalcitrant compounds as substrates. The residues of paper manufacture contain high lignin levels, which gives the effluents a characteristic brownish colour. To test the potential of P. sajor-caju cultures on reducing these parameters, we used 90% of raw effluents from medium consistency oxygen delignification and bleaching stages plus 10% of mineral solution and different levels of glucose (5-15 g L^-1) as substrate. We observed a greater fungal biomass in cultures using effluent than in controls. Cultures containing 10 to 15 g L^-1 of glucose resulted in about 42% colour reduction. The polyphenol content was also reduced by 58.9% by the 13th day of culture. In addition, we observed the secretion of laccases (211.44 U mL^-1 and 45.98 U mL^-1 using ABTS and syringaldazine, respectively) and peroxidases (6.11 U mL^-1-ABTS) both peaking at the 7th day of culture and with similar kinetics of production in different glucose concentrations.     

凤尾菇和桃红平菇种间原生质体电融合获杂种菌株

以有自然标记的双核风尾菇(Pleurotus sajor-caju)和桃红平菇(P．Rhodophyllus)为出发菌株,以它们携带营养缺陷型标记的单孢菌株为直接亲本,采用BAEKON 2 000基因转移仪进行侧耳属种间原生质体电融合,成功地获得若干株融合体,其中有一株编号为F57的融台体已培育出子实体。比较了融合体F57与亲本的形态、生理、生化和遗传等性状,结果证实,融合体F57是一株新的种间杂种菌株。     

The effect of manganese on the production of Phanerochaete flavido-alba ligninolytic peroxidases in nitrogen limited cultures

Manganese supplementation of culture medium affected Phanerochaete flavido-alba FPL 106507 growth, glucose consumption and extracellular protein accumulation. Both the titre and time of detection of lignin peroxidase (LiP) were affected by manganese concentration in the medium, whereas with manganese peroxidase (MnP) only the titre was affected. In high Mn(II) containing cultures highest manganese peroxidase levels and a decrease in extracellular veratryl alcohol accumulation were observed. After FPLC a number of haemprotein peaks showing manganese peroxidase activity were detected in Mn(II) supplemented cultures. On the contrary, only haemprotein peaks of lignin peroxidase were detected in culture medium not supplemented with Mn(II).     

Extracellular enzyme production during anamorphic growth in the edible mushroom,Pleurotus sajor-caju

Cultivation of mushrooms on lignocellulosic wastes represents a cost-effective organic recycling process. Pleurotus sajor-caju grown on cotton-waste produced relatively low levels of three components of the cellulase complex namely cellobiohydrolase (EC 3.2.1.91), CMCase (EC 3.2.1.4) and -glucosidase (EC 3.2.1.21) with specific activity values of 10.0, 71.4 and 21.6U (mg protein)–1 respectively after 15days. Higher specific activity was registered in alkali-treated cotton with 15.6, 83.4 and 56.1U (mg protein)–1 respectively after 20days. Lower levels were noted on rubber-tree sawdust substrate with specific activity values of 0.28, 0.62 and 0.75U (mg protein)–1 for the respective enzymes after 28–35days growth. The maximum production of xylanase (EC 3.2.1.8) of 0.63U (mg protein)–1 occurred after 20days while a relatively higher level of the phenoloxidase enzyme, laccase (EC 1.14.18.1) of 27.4U (mg protein)–1 (maximum) was found after 35days. Laccase, the activity of which is associated with morphogenesis, increased with mycelial growth, peaked at maximum growth and thereafter decreased rapidly. This could prove important commercially in timing the end of spawn-run in preparation for initiation of fruiting.     

Purification and Characterization of Extracellular Laccase Secreted by Pleurotus sajor-caju MTCC 141

The effect of lignin containing natural substrates corn-cob, coir-dust, saw-dust, wheat straw and bagasse particles on the extracellular secretion of laccase in the liquid culture growth medium of Pleurotus sajor-caju MTCC 141 has been studied. The culture conditions for maximum secretion of laccase by Pleurotus sajor-caju MTCC 141 have been optimized. Homogeneous preparation of laccase from the culture filtrate of the fungus has been achieved using ammonium sulphate precipitation, anion exchange chromatography on DEAE and gel filtration chromatography on Sephadex G-100. The purified enzyme preparation gave a single protein band in SDS-PAGE analysis indicating a molecular weight of 90 kD. The enzymatic characteristics Km, kcat, pH and temperature optima of the purified laccase have been determined using 2, 6-dimethoxyphenol as the substrate and have been found to be 35μmol/L, 0.30 min-1, 4.5 and 37℃ respectively. The Km values for the other substrate like catechol, m-cresol, pyrogallol and syringaldazine have also been determined which were found to be 216 μmol/L, 380 μmol/L, 370 μmol/L and 260 μmol/L respectively.     

Lignin-modifying enzymes from selected white-rot fungi: production and role from in lignin degradation

Abstract: White-rot fungi produce extracellular lignin-modifying enzymes, the best characterized of which are laccase (EC 1.10.3.2), lignin peroxidases (EC 1.11.1.7) and manganese peroxidases (EC 1.11.1.7). Lignin biodegradation studies have been carried out mostly using the white-rot fungus Phanerochaete chrysosporium which produces multiple isoenzymes of lignin peroxidase and manganese peroxidase but does not produce laccase. Many other white-rot fungi produce laccase in addition to lignin and manganese peroxidases and in varying combinations. Based on the enzyme production patterns of an array of white-rot fungi, three categories of fungi are suggested: (i) lignin-manganese peroxidase group (e.g. P. chrysosporium and Phlebia radiata ), (ii) manganese peroxidase-laccase group (e.g. Dichomitus squalens and Rigidoporus lignosus ), and (iii) lignin peroxidase-laccase group (e.g. Phlebia ochraceofulva and Junghuhnia separabilima ). The most efficient lignin degraders, estimated by ¹⁴CO₂ evolution from ¹⁴C-[Ring]-labelled synthetic lignin (DHP), belong to the first group, whereas many of the most selective lignin-degrading fungi belong to the second, although only moderate to good [¹⁴C]DHP mineralization is obtained using fungi from this group. The lignin peroxidase-laccase fungi only poorly degrade [¹⁴C]DHP.     

Evaluation of lignocellulosic biomass from coconut palm as substrate for cultivation of Pleurotus sajor-caju (Fr.) Singer

The lignocellulosic biomass from coconut palm (Cocos nucifera Linn.) such as bunch waste (spathe+spadices), leafstalk (petiole), leaflets and coir pith (by-product from coir processing industry) were evaluated as substrates for cultivation of oyster mushroom, Pleurotus sajor-caju (Fr.) Singer. A low-cost mushroom shed built exclusively of coconut materials such as coconut wood and plaited coconut leaves inside a coconut plantation was used for spawn run and cropping. Leafstalk and bunch waste were superior to leaflets and coir pith in producing significantly more edible biomass of mushrooms. Biological efficiency of 58.9% was obtained in leafstalk, followed by bunch waste (56.9%), coir pith (39.7%) and leaflets (38.2%). The yield of sporophore was positively related to cellulose content and the cellulose : lignin ratio of the substrates.     

白腐真菌Pleurotus sajor-caju预处理对红麻秸秆发酵乙醇的影响

为研究微生物法预处理对红麻秸秆中木质素的降解及后续的红麻纤维素酶促糖化和发酵效率的影响,将白腐真菌Pleurotus sajor-caju接种在红麻秸秆培养基上固态培养,对红麻秸秆进行预处理。经P. sajor-caju培养25~35 d后,有效转化红麻秸秆中的木质素,转化率最高可达50.20％,并提高红麻纤维素的酶促水解效率,糖化率达69.33％~78.64％,与对照组相比提高了3.5~4.1倍。以微生物法预处理后的红麻秸秆样品为底物的同步糖化发酵实验表明,发酵72 h,发酵液中乙醇浓度达到18.35~     

Effect of growth substrate,method of fermentation,and nitrogen source on lignocellulose-degrading enzymes production by white-rot basidiomycetes

The exploration of seven physiologically different white rot fungi potential to produce cellulase, xylanase, laccase, and manganese peroxidase (MnP) showed that the enzyme yield and their ratio in enzyme preparations significantly depends on the fungus species, lignocellulosic growth substrate, and cultivation method. The fruit residues were appropriate growth substrates for the production of hydrolytic enzymes and laccase. The highest endoglucanase (111 U ml⁻¹) and xylanase (135 U ml⁻¹) activities were revealed in submerged fermentation (SF) of banana peels by Pycnoporus coccineus. In the same cultivation conditions Cerrena maxima accumulated the highest level of laccase activity (7,620 U l⁻¹). The lignified materials (wheat straw and tree leaves) appeared to be appropriate for the MnP secretion by majority basidiomycetes. With few exceptions, SF favored to hydrolases and laccase production by fungi tested whereas SSF was appropriate for the MnP accumulation. Thus, the Coriolopsis polyzona hydrolases activity increased more than threefold, while laccase yield increased 15-fold when tree leaves were undergone to SF instead SSF. The supplementation of nitrogen to the control medium seemed to have a negative effect on all enzyme production in SSF of wheat straw and tree leaves by Pleurotus ostreatus. In SF peptone and ammonium containing salts significantly increased C. polyzona and Trametes versicolor hydrolases and laccase yields. However, in most cases the supplementation of media with additional nitrogen lowered the fungi specific enzyme activities. Especially strong repression of T. versicolor MnP production was revealed.     

Role of laccase in lignin degradation by white-rot fungi

Abstract Laccase is commonly found in white-rot fungi and catalyses the abstraction of one electron from the phenolic hydroxyl group to polymerize or depolymerize lignin model compounds. Laccase degrades both β-1 and β-O-4 dimers via C _α - C _β cleavage, C _α oxidation and alkyl-aryl cleavage. Also, aromatic ring cleavage may be detected following the action of laccase. Laccase can also oxidize non-phenolic compounds when primary mediators, such as 2,2'-azinobis(3-ethylbenzthiazoline-6-sulfonate), are co-present. Laccase produces Mn(III) chelates which allow wood-decaying enzymes to penetrate wood cell walls. Laccase is considered to be capable of degrading lignin together with lignin peroxidase and manganese peroxidase.     

Evaluating biopulping as an alternative application on oil palm trunk using the white-rot fungus Trametes versicolor

The objective of the research was to investigate the suitability of the white-rot fungus Trametes versicolor for biopulping using oil palm biomass as the substrate. Fungi are grown on solid-state cultures Kirk's enrichment media to determine the lignocellulolytic activities. Samples subjected to fungal pretreatment for periods of 1, 2, 3, and 4 weeks were investigated and compared to the untreated control. The crude enzyme extracts were assayed using specific substrates and enzyme activities were calculated. The highest level of laccase activity was 218.66 U/L; the peak activity of manganese peroxidase was 162.10 U/L, and lignin peroxidase is 42.56 U/L. The activity levels of cellulase and hemicellulase were insignificant in all extracts (53.30 and 1.50 U/L, respectively). When the chips were pulped mechanically the Kappa number, pulp yield, and screened pulp yield decreased significantly and paper strength increased marginally with the exposure time. Hand sheet properties were also improved significantly by fungal treatment. Weight loss, lignin loss, cellulose, and holocellulose loss were 8.45%, 9.35%, 4.58%, and 7.2%, respectively. Images from SEM seem to indicate a simultaneous type of decay pattern involving cell wall breakdown combined with lignin modification. Considering all its pulping and papermaking properties, the performance of T. versicolor is good and has potential for use in large-scale biotechnological processes.     

Lignin peroxidase is involved in the biobleaching of manganese-less oxygen-delignified hardwood kraft pulp by white-rot fungi in the solid-fermentation system

Biobleaching of manganese-less oxygen-delignified hardwood kraft pulp (E-OKP) by the white-rot fungi Phanerochaete sordida YK-624 and P. chrysosporium was examined in the solid-state fermentation system. P. sordida YK-624 possessed a higher brightening activity than P. chrysosporium, increasing pulp brightness by 13.4 points after seven days of treatment. In these fermentation systems, lignin peroxidase (LiP) activity was detected as the principle ligninolytic enzyme, and manganese peroxidase and laccase activities were scarcely detected over the course of treatment of E-OKP by either fungus. Moreover, a linear relationship between brightness increase and cumulative LiP activity was observed under all tested culture conditions with P. sordida YK-624 and P. chrysosporium. These results indicated that LiP is involved in the brightening of E-OKP by both white-rot fungi.     

Comparative evaluation of manganese peroxidase- and Mn(III)-initiated peroxidation of C18 unsaturated fatty acids by different methods

The peroxidation of C18 unsaturated fatty acids by fungal manganese peroxidase (MnP)/Mn(II) and by chelated Mn(III) was studied with application of three different methods: by monitoring oxygen consumption, by measuring conjugated dienes and by thiobarbituric acid-reactive substances (TBARS) formation. All tested polyunsaturated fatty acids (PUFAs) were oxidized by MnP in the presence of Mn(II) ions but the rate of their oxidation was not directly related to degree of their unsaturation. As it has been shown by monitoring oxygen consumption and conjugated dienes formation the linoleic acid was the most easily oxidizable fatty acid for MnP/Mn(II) and chelated Mn(III). However, when the lipid peroxidation (LPO) activity was monitored by TBARS formation the linolenic acid gave the highest results. High accumulation of TBARS was also recorded during peroxidation of linoleic acid initiated by MnP/Mn(II). Action of Mn(III)-tartrate on the PUFAs mimics action of MnP in the presence of Mn(II) indicating that Mn(III) ions are involved in LPO initiation. Although in our experiments Mn(III) tartrate gave faster than MnP/Mn(II) initial oxidation of the unsaturated fatty acids with consumption of O₂ and formation of conjugated dienes the process was not productive and did not support further development of LPO. The higher effectiveness of MnP/Mn(II)-initiated LPO system depends on the turnover of manganese provided by MnP. It is proposed that the oxygen consumption assay is the best express method for evaluation of MnP- and Mn(III)-initiated peroxidation of C18 unsaturated fatty acids.