Rapid identification of fungal laccases/oxidases with different pH-optimum

During the last decade the search for novel biotechnologically valuable laccases/oxidases with a high redox potential and concomitant activity under neutral-alkaline conditions is an attractive and at the same time complicated task due to their rare occurrence in nature. By means of the modified micromethod based on the chromogenic reaction with indicator substrates the successful identification of laccases/oxidases with different pH-optimum was carried out during submerged cultivation of 71 fungal strains of different taxonomic groups. Based on more sensitivity (detected laccase activity can be 4–6 time less as compared with the usual spectrophotometric assay of laccase activity), good productivity (measurements of numerous samples at once in small total volume – up to 150 μL), economy and rapidity, the presented modification of chromogenic reaction can be applied for identification of trace amount of laccase/oxidase activity in biological liquids, to determine the chemoselectivity of induced laccase/oxidase isoforms with respect to pH-value of medium, and to monitor the dynamics of expression of alkaliphilic and acidophilic laccases/oxidases during submerged cultivation of fungi.     

Novel laccase—producing ascomycetes

Screening of ascomycetes producing laccases during growth on agar medium or submerged cultivation in the presence of various natural sources of carbon and energy (grain crops and potato) was carried out. The conditions of submerged cultivation of the most active strains (Myrothecium roridum VKM F-3565, Stachybotrys cylindrospora VKM F-3049, and Ulocladium atrum VKM F-4302) were optimized for the purpose of increasing laccase activity. The pH-optima and substrate selectivity of laccases in the culture liquid of the strains in relation to ABTS and phenolic compounds (2,6-dimethoxyphenol, syringaldazine, ferulic acid, p-coumaryl alcohol, and coniferyl alcohol) were investigated. High laccase activity at neutral pH was shown for the culture liquids of M. roridum VKM F-3565 and S. cylindrospora VKM F-3049 strains that provides prospects for using laccases of these strains in various cell biotechnologies.     

Laccase induction in fungi and laccase/N-OH mediator systems applied in paper mill effluent

There has been increasing interest in extracellular enzymes from white rot fungi, such as lignin and manganese peroxidases, and laccases, due to their potential to degrade both highly toxic phenolic compounds and lignin. The optimum cultivation conditions for laccase production in semi-solid and liquid medium by Trametes versicolor, Trametes villosa, Lentinula edodes and Botrytis cinerea and the effects of laccase mediator system in E1 effluent were studied. The higher laccase activity (12756 U) was obtained in a liquid culture of T. versicolor in the presence of 1 mM of 2,5-xylidine and 0.4 mM copper salt as inducers. The effluent biotreatments were not efficient in decolorization with any fungal laccases studied. Maximum phenol reduction was approximately 23% in the absence of mediators from T. versicolor. The presence of 1-hydroxybenzotriazole did not increase phenol reduction. However, acetohydroxamic acid, which was not degraded by laccase, acted very efficiently on E1 effluent, reducing 70% and 73% of the total phenol and total organic carbon, respectively. Therefore, acetohydroxamic acid could be applied as a mediator for laccase bioremediation in E1 effluent.     

Laccase and Lectin Activities of Intracellular Proteins Produced in a Submerged Culture of the Xylotrophic Basidiomycete Lentinus edodes

The white-rot fungus Lentinus edodes produced D: -melibiose-specific lectins and two laccase forms in a lignin-containing medium. The maxima of laccase and lectin activities coincided, falling within the period of active mycelial growth. The enzymes and lectins were isolated and purified by gel filtration followed by anion-exchange chromatography. The L. edodes lectins were found to be able to stabilize the activity of the fungus's own laccases. Lectin activity during the formation of lectin-enzyme complexes remained unchanged.     

Influence of PAHs on ligninolytic enzymes of the fungus <Emphasis Type="Italic">Pleurotus ostreatus</Emphasis> D1

Polycyclic aromatic hydrocarbons (PAHs), their derivatives, and their degradation products were assayed for the ability to enhance activities of ligninolytic enzymes (laccase and versatile peroxidase) of the fungus Pleurotus ostreatus D1. The activities of both laccase and versatile peroxidase were induced by the PAHs, their derivatives, and their degradation products. Laccase was produced mostly in the first 7–10 days, whereas the production of versatile peroxidase began after 5–7 days of cultivation. Non-denaturing PAGE showed the presence of additional forms of laccase and versatile peroxidase in the presence of the xenobiotics in the cultivation medium. The difference in the production time for these enzymes may reflect that laccases are involved in the first stages of PAHs degradation and that versatile peroxidase can be necessary for oxidation of some degradation products. This is the first report on versatile peroxidase induction by PAHs and their derivatives.     

Changes in production of lignin degrading enzymes during interactions between mycelia of the tropical decomposer basidiomycetes Marasmiellus troyanus and Marasmius pallescens

During the interaction of two tropical agaric fungi, Marasmius pallescens and Marasmiellus troyanus, on agar media, initial deadlock between the two mycelia was ultimately followed by take-over by M. troyanus. When shaken liquid cultures of these two fungi were mixed, a rapid increase in laccase and manganese peroxidase activity, but no lignin peroxidase, was detected in the culture supernatant. Even more rapid and elevated induction of laccase occurred when filter-sterilized supernatant of Marasmius pallescens was added to Marasmiellus troyanus cultures, but the reciprocal experiment (addition of M. troyanus supernatant to M. pallescens cultures), did not lead to any increase in laccase activity. Addition of autoclaved supernatant of M. pallescens also induced laccase activity from M. troyanus cultures, but over a period of days rather than hours. Although both M. troyanus, and to a lesser extent M. pallescens, are able to produce laccases in shaken liquid culture following addition of the inducer 2,5-dimethylalanine, these experiments suggest that the presence of heat-stable and heat-labile laccase inducers secreted by M. pallescens mycelia lead to induction of laccases by M. troyanus.     

Production of laccases in submerged process by <Emphasis Type="Italic">Pleurotus sajor-caju</Emphasis> PS-2001 in relation to carbon and organic nitrogen sources,antifoams and Tween 80

Some conditions in media composition for laccases production, such as different sources of carbon and organic nitrogen, antifoams and a surfactant, were studied in liquid cultures of Pleurotus sajor-caju strain PS-2001. Cultivation with fructose or glucose as carbon sources produced maximum enzyme activities of 37 and 36 U mL⁻¹, respectively. When sucrose was present in the medium, the best results were obtained using 5 g L⁻¹ of this carbohydrate, on the 11th day of the process, attaining laccase titres of 13 U mL⁻¹. In a medium without casein, practically no enzyme was produced during the experiments; among the sources of nitrogen studied, pure casein led to the highest titres of laccase activity. Different concentrations of pure casein and sucrose were also tested. As to the different concentrations of casein, the addition of 1.5 g L⁻¹ resulted in the highest titres of laccase activity. Negligible levels of manganese peroxidase activity were also detected in the culture medium. In low concentrations, polypropylene glycol or silicon-based antifoams and the surfactant Tween 80 have no significant influence on the formation of laccases by P. sajor-caju. However, enhanced concentration of polypropylene glycol negatively affected the production of laccases but favored the titres in total peroxidases, lignin peroxidase and veratryl alcohol oxidase.     

Importance of Laccase in Vegetative Growth of Pleurotus florida

Mycelial culture of Pleurotus florida produced highest extracellular laccase in optimum growth medium. At least two laccases (L(inf1) and L(inf2)) were shown to be present in the culture filtrate. Low-laccase-yielding mutants with impaired L(inf2) activity had poor mycelial growth and could not form fruit body, whereas the revertants from the same mutants were similar to the parent in mycelial growth and fruit body formation.     

The phenoloxidases of the Ascomycete Podospora anserina

Summary In order to learn the internal conditions for the production of the various phenoloxidases produced by the Ascomycete Podospora anserina the wild strain has been grown under controlled conditions in a fermenter for a period of 34 days. Samples were withdrawn at regular intervals and assayed for mycelial yield and intra- and extracellular phenoloxidase production.Maximal yield was obtained at the following age of the culture: Mycelial production 9 d, tyrosinase 4 d, the high molecular weight laccase I between 9 and 19 d. The low molecular weight laccases II and III, initially present in medium concentrations, dropped to an early minimum after 4 days, followed by an increase with a maximum in the late autolytic phase.The changes in the phenoloxidase spectrum and the antiparallel production curve for the high molecular weight against the low molecular weight laccases are discussed in relation to the earlier observed genetical and physiological control of phenoloxidase synthesis and in relation to the possibility of laccase I being composed of active subunits of low molecular weight laccases.With support of the Deutsche Forschungsgemeinschaft, Bad Godesberg (Germany).     

A new role for veratryl alcohol: regulation of synthesis of lignocellulose-degrading enzymes in the ligninolytic ascomyceteous fungus, Botryosphaeria sp.; influence of carbon source

A new physiological role for veratryl alcohol in fungi important in the biodegradation of the lignified plant cell wall is presented. Botryosphaeria sp., grown on starch, pectin, cellulose or xylan produced amylase, pectinase, cellulase, xylanase and laccase, whereas glucose and xylose repressed the synthesis of cellulase and xylanase, but not laccase. When cultured on each of these substrates in the presence of veratryl alcohol, laccase activity increased but the activities of amylase, pectinase, cellulase and xylanase significantly decreased. Basal medium containing softwood kraft lignin in the presence of veratryl alcohol induced laccases above constitutive levels. Ethyl alcohol also stimulated laccase production.     

Production of laccases by Pleurotus ostreatus in submerged fermentation in co‐culture with Trichoderma viride

Aims: To evaluate the production and stability of laccases by Pleurotus ostreatus in liquid co‐cultures with Trichoderma viride as a function of infection time and agitation rate. Methods and Results: Pleurotus ostreatus cultures were infected with T. viride spores at 30 and 48 h. Maximal laccase volumetric activity was seen after 48 h (control cultures) or 72 h (co‐cultures) of cultivation time. Only the cultures infected at 30 h showed an increased laccase volumetric activity compared to control cultures. After maximal laccase volumetric activity value was reached, a sharp decrease in it was observed in control cultures. Co‐cultures exhibited a comparatively lower loss of activity. The influence of P. ostreatus and/or T. viride on the stability of laccase volumetric activity and isoenzyme pattern was evaluated. Trichoderma viride induced changes in the laccase isoenzyme pattern. Agitated cultures increased biomass growth and specific productivity threefold and sevenfold, respectively, to the static cultures. Conclusions: The laccase volumetric activity is very likely the result of the balance between biosynthesis and degradation/biotransformation rates occurring during the cultures. The individual presence of P. ostreatus or T. viride in the culture negatively affected the volumetric laccase activity. Significance and Impact of the Study: The evaluation of culture parameters that could influence Trichoderma–basidomycetes interaction and laccase production during submerged fermentation has not been reported. This study showed how laccase production in co‐cultures of P. ostreatus and T. viride was influenced by the infection time and agitation/oxygenation conditions.     

Selection of Trichoderma strains capable of increasing laccase production by Pleurotus ostreatus and Agaricus bisporus in dual cultures

Aims:  To select Trichoderma strains for enhanced laccase production in Pleurotus ostreatus or Agaricus bisporus cultures.
Methods and Results:  Laccase production by P. ostreatus and A. bisporus was evaluated in liquid (axenic) and solid (dual cultures) malt extract medium. Oxidation of ABTS, DMP and syringaldazine was evaluated in order to assess the potential of Trichoderma strains to enhance laccase production by basidiomycetes. Selected Pleurotus–Trichoderma interactions yielded higher increases in laccase volumetric activity and an additional laccase isoform was produced. By contrast, Agaricus–Trichoderma interactions lead to smaller increases on laccase volumetric activity, probably as result of repression (or degradation) towards one of the laccases isoforms.
Conclusions:  The strains of P. ostreatus and A. bisporus assessed in this work showed good potential as laccase producers. The Trichoderma -mediated biological stimulation of laccase production by P. ostreatus and A. bisporus is relevant in order to develop highly productive processes.
Significance and Impact of the Study:  Extracellular laccases from basidiomycetes are produced only in small amounts. It is therefore important to increase process productivity for potential industrial applications. The results from this study enable the selection Trichoderma strains capable of increasing laccase production by P. ostreatus or A. bisporus in dual cultures.     

Optimization of laccase production by Botryosphaeria sp. in the presence of veratryl alcohol by the response-surface method

Botryosphaeria sp. produced two laccases (PPO-I and PPO-II) constitutively, whose titers were enhanced by veratryl alcohol. The effect of veratryl alcohol and yeast extract concentration, time of cultivation and agitation speed were evaluated by factorial analysis to select variables for optimizing the production of laccases. Maximal laccase production was determined using a second-order central-composite design and analyzed by the response-surface method. Veratryl alcohol concentration and time of cultivation were the main factors increasing laccase production, while yeast extract had no influence within the range 0.2–2.0% w/v. Response-surface analysis showed that 30.4 mM veratryl alcohol, for 4.5 days at 28°C and 180 rpm, were the optimal conditions to maximize PPO-I production, while conditions for maximal PPO-II production occurred within a range of 28–35 mM veratryl alcohol over a growth period of 4–5.5 days. The model predicted 5.6 U ml⁻¹ for PPO-I, and 0.6–1.0 U ml⁻¹ for PPO-II, which agreed with the experimentally observed results.     

Purification, characterization, molecular cloning, and expression of two laccase genes from the white rot basidiomycete Trametes villosa.

Two laccases have been purified to apparent electrophoretic homogeneity from the extracellular medium of a 2,5-xylidine-induced culture of the white rot basidiomycete Trametes villosa (Polyporus pinsitus or Coriolus pinsitus). These proteins are dimeric, consisting of two subunits of 63 kDa as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and have typical blue laccase spectral properties. Under nondenaturing conditions, the two purified laccases have different pIs; purified laccase forms 1 and 3 have pIs of 3.5 and 6 to 6.5, respectively. A third purified laccase form 2 has the same N terminus as that of laccase form 3, but its pI is in the range of 5 to 6. The laccases have optimal activity at pH 5 to 5.5 and pH < or = 2.7 with syringaldazine and ABTS [2,2'-azinobis-(3-ethylbenzthiazoline-6-sulfonic acid)] as substrates, respectively. The genes lcc1 and lcc2 coding for the two purified laccases (forms 1 and 3) have been cloned, and their nucleotide sequences have been determined. The genes for lcc1 and lcc2 have 8 and 10 introns, respectively. The predicted proteins are 79% identical at the amino acid level. From Northern (RNA) blots containing total RNA from both induced and uninduced cultures, expression of lcc1 is highly induced, while the expression of lcc2 appears to be constitutive. Lcc1 has been expressed in Aspergillus oryzae, and the purified recombinant protein has the same pI, spectral properties, stability, and pH profiles as the purified native protein.     

Production of two novel laccase isoforms by a thermotolerant strain of Pycnoporus sanguineus isolated from an oil-polluted tropical habitat

A thermotolerant and halotolerant strain of Pycnoporus sanguineus was isolated from an oil-polluted site in a tropical area located in Veracruz, Mexico. This strain was able to grow at 47 degrees C and in culture medium containing 500 mM NaCl. The strain was also tolerant to the presence of 30,000 ppm of crude Maya oil. A 68-kDa protein purified from submerged cultures exhibited laccase activity towards 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) (ABTS), guaiacol, syringaldazine, and o-dianisidine, for which it presented the highest affinity (Km = 43 microM). Two-dimensional gel electrophoresis analysis showed that, unusual for laccases, the enzyme has two active isoforms, with isoelectric points of 7.00 and 7.08. The purified enzyme showed high thermostability, retaining 40% of its original activity after 3 h at 60 degrees C. This property seems to correlate with a long "shelf-life," given that at 40 degrees C enzyme activity was only gradually lost over a 5-day period incubation. Both the fungus and its laccase are likely to have high potential for biotechnological applications.     

Purification of a novel extracellular laccase from solid-state culture of the edible mushroom <Emphasis Type="Italic">Lentinula edodes</Emphasis>

The laccases (EC 1.10.3.2) secreted into solid-state culture by Lentinula edodes were analyzed. The fungus secreted at least two laccases in the solid-state culture. One laccase was purified to a homogeneous preparation using anion-exchange, hydrophobic, and size-exclusion chromatography. SDS-PAGE analysis showed that the purified laccase, Lcc6, was a monomeric protein of 58.5 kDa. The optimum pH for enzyme activity was about 3.5, and the laccase was most active at 40°C. The N-terminal amino acid sequence of Lcc6 did not correspond to the sequence of Lcc1, which was previously purified from L. edodes. Lcc6 had decolorization activity to some chemical dyes.     

Extra- and Intracellular Laccases of the Chestnut Blight Fungus, Cryphonectria parasitica

A double-stranded RNA virus of the chestnut blight pathogen, Cryphonectria parasitica, has been shown previously to reduce accumulation of mRNAs of extracellular laccase (laccase A) produced by this fungus. Both extra- and intracellular laccases have been detected after growth of the fungus in liquid culture. In addition to cellular localization, the two laccases are distinguishable by time of appearance during growth and electrophoretic mobility. Laccase A was purified from the culture filtrate by standard protein purification procedures. The enzyme was characterized as a glycoprotein with a molecular mass of approximately 77 kDa. Both laccase A and laccase B activities were significantly reduced in the hypovirulent (double-stranded RNA-infected) strain UEP1 compared with the isogenic virulent (double-stranded RNA-free) strain EP155/2.     

Efficient secretion of three fungal laccases from Saccharomyces cerevisiae and their potential for decolorization of textile industry effluent—A comparative study

Laccases are enzymes with a broad range of biotechnological applications and have, for example, the ability to oxidize many xenobiotics including synthetic dyes. In order to obtain an efficient laccase for the decolorization of dyes which spoil wastewater from the textile industry, genes encoding three various laccase enzymes were expressed in Saccharomyces cerevisiae. The expression of laccases from ascomycete Myceliophthora thermophila (MtL), and two basidiomycetes Trametes versicolor (TvL) and Trametes trogii (TtL) was optimized via selection of plasmids, promoters, media composition, and cultivation conditions. For the first time, the activity of the three secreted laccases was directly compared with the use of various substrates, including different dyes and a wastewater sample. A strong constitutive ADH1 promoter, minimal growth medium, optimized combination of copper and organic nitrogen source, and low cultivation temperature were shown to significantly increase the yields and relative activities of secreted laccases. Heterologous expression of three fungal laccases was successfully achieved in S. cerevisiae being the highest for MtL and the lowest for TvL. MtL, and particularly TtL, showed the decolorization capacity. This is the first report which compared decolorization of synthetic dyes and wastewater by several recombinant laccases and suggested MtL and TtL to be applicable in the ecofriendly enzymatic treatment of colored industry effluent. © 2017 American Institute of Chemical Engineers Biotechnol. Prog., 34:69–80, 2018     

Comparative Studies of Extracellular Fungal Laccases

Various basidiomycetes, ascomycetes, and deuteromycetes, grown in a sugar-rich liquid medium, were compared for laccase-producing ability and for the inducing effect of 2,5-xylidine on laccase production. Clear stimulation of the extracellular enzyme formation by xylidine was obtained in the cultures of Fomes annosus, Pholiota mutabilis, Pleurotus ostreatus, and Trametes versicolor, whereas Rhizoctonia praticola and Botrytis cinerea were not affected by the xylidine, and in the case of Podospora anserina a decrease in laccase activity was observed. The laccases were purified, and electrophoresis on polyacrylamide gels indicated a particular pattern for each laccase. The bands of the induced forms appeared only with basidiomycetes. The optimal pH of R. praticola laccase was in the neutral region, whereas the optima of all the other exolaccases were significantly lower (between pH 3.0 and 5.7). All laccases oxidized the methoxyphenolic acids under investigation, but there existed quantitative differences in oxidation efficiencies which depended on pH and on the nature (noninduced or induced) of the enzyme. The sensitivity of all enzymes to inhibitors did not differ considerably.