Characterization of a gene encoding Trametes versicolor laccase A and improved heterologous expression in Saccharomyces cerevisiae by decreased cultivation temperature

Laccase can be used for enzymatic detoxification of lignocellulosic hydrolysates. A Saccharomyces cerevisiae strain with enhanced resistance to phenolic inhibitors and thereby improved ability to ferment lignocellulosic hydrolysates would presumably be obtained by heterologous expression of laccase. Sequencing of the cDNA for the novel laccase gene lcc2 from the lignin-degrading basidiomycete Trametes versicolor showed that it encodes an isoenzyme of 499 amino-acid residues preceded by a 21-residue signal peptide. By comparison with Edman degradation data, it was concluded that lcc2 encodes an isoenzyme corresponding to laccase A. The gene product of lcc2 displays 71% identity with the previously characterized T. versicolor lcc1 gene product. An alignment of laccase sequences revealed that the T. versicolor isoenzymes in general are more closely related to corresponding isoenzymes from other white-rot fungi than to the other T. versicolor isoenzymes. The multiplicity of laccase is thus a conserved feature of T. versicolor and related species of white-rot fungi. When the T. versicolor lcc2 cDNA was expressed in S. cerevisiae, the production of active enzyme was strongly dependent on the temperature. After 3 days of incubation, a 16-fold higher laccase activity was found when a positive transformant was kept at 19 °C instead of 28 °C. Similar experiments with Pichia pastoris expressing the T. versicolor laccase gene lcc1 also showed that the expression level was favoured considerably by lower cultivation temperature, indicating that the observation made for the S. cerevisiae expression system is of general significance. Received: 8 December 1998 / Received revision: 9 April 1999 / Accepted: 16 April 1999     

Expression of laccase IIIb from the white-rot fungus Trametes versicolor in the yeast Yarrowia lipolytica for environmental applications

Improvement of the catalytic properties of fungal laccases is a current challenge for the efficient bioremediation of natural media polluted by xenobiotics. We developed the heterologous expression of a laccase from the white-rot fungus Trametes versicolor in the yeast Yarrowia lipolytica as a first step for enzyme evolution. The full-length cDNA consisted of a 1,561-bp open reading frame encoding lacIIIb, a 499-amino-acid protein and a 21-amino-acid signal peptide. Native and yeast secretion signals were used to direct the secretion of the enzyme, with the native signal yielding higher enzyme activity in the culture medium. The level of laccase activity secreted by the transformed yeast was similar to that observed for the non-induced wild-type strain of T. versicolor. The identity of the recombinant enzyme was checked by Western blot and matrix-assisted laser desorption/ionization time-of-flight analysis. Electrophoresis separation in native conditions indicated a molecular mass of the recombinant protein slightly higher (5 kDa) than that of the mature T. versicolor laccase IIIb, suggesting a limited excess of glycosylation. The laccase production level reached 2.5 mg/l (0.23 units/ml), which is suitable for engineering purpose.The two first authors have contributed equally to this work.     

Increased production of laccase by <Emphasis Type="Italic">Cerrena unicolor</Emphasis> in submerged liquid cultures

The wood-degrading basidiomycete Cerrena unicolor C-139 has been suggested as a potential producer of the industrially important enzyme laccase. Basic culture parameters influencing the enzyme synthesis in shaken-flask and aerated bioreactor cultures were evaluated to improve the yields of the process. Production of extracellular laccase was considerably enhanced by the addition of Cu²⁺ in the micromolar range to a carbon-sufficient and nitrogen-sufficient culture medium (C/N = 16.69). When an optimised medium containing glucose (10 g/L) and l-asparagine (1.5 g/L) was used, and enzyme synthesis was stimulated by addition of 10 μM Cu²⁺ to the culture medium on days 3, 6 and 9, maximal laccase productivity obtained after 17 days’ cultivation in shaken flask cultures was above 100,000 nkat/L. In fermenter fungal cultures, the influence of stabilisation of medium pH on laccase activity was additionally studied. The use of a bioreactor with an automatic pH control set at pH 6.5 after 48-h incubation resulted in the enzyme activity of 65,000 nkat/L after 8 days’ cultivation.     

Molecular cloning of the promoter region of the glyceraldehyde-3-phosphate dehydrogenase gene that contributes to the construction of a new transformation system in <Emphasis Type="Italic">Coriolus versicolor</Emphasis>

The white-rot basidiomycete Coriolus versicolor secretes several enzymes that participate in the degradation of lignin and various persistent organic pollutants. In this study, we attempted to establish a genetic transformation system with a homogenous promoter sequence for driving the gene for antibiotic resistance. We succeeded in cloning the promoter sequence of the gene for glyceraldehyde-3-phosphate dehydrogenase (gpd), which is expressed at high levels in C. versicolor. The expression vector pT7GPTHPT was constructed, which included a gene for resistance to hygromycin B under control of the gpd promoter. The successful selection of transformants on medium that contained hygromycin B indicated that the system should be useful not only for the genetic transformation of C. versicolor, but also for the overproduction of useful fungal enzymes such as laccase and peroxidase.     

Cloning of a Laccase Gene from a Novel Basidiomycete <Emphasis Type="Italic">Trametes</Emphasis> sp. 420 and Its Heterologous Expression in <Emphasis Type="Italic">Pichia pastoris</Emphasis>

The laccase gene lacD, cloned from a novel laccase-producing basidiomycete Trametes sp. 420, contained 2,052 base pairs (bp) interrupted by 8 introns. lacD displayed a relatively high homology with laccase genes from other white rot fungi, whereas the homology between lacD and laccase genes from plants, insects, or bacteria was less than 25%. A 498–amino acid peptide encoded by the lacD cDNA was heterologously expressed in the Pichia pastoris strain GS115, resulting in the highest yield of laccase (8.3 × 10⁴ U/l) as determined with ABTS (2,2′-azinobis [3-ethylbenzothia-zoline-6-sulfonic acid]) as the substrate. Additionally, the enzyme activity of recombinant laccase on decolorization of some industrial dyes was assessed.     

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.     

Increased production of extracellular laccase by the white rot fungus Coriolus versicolor MTCC 138

Summary The white rot fungus Coriolus versicolor MTCC 138 has been identified as an excellent producer of the industrially important enzyme laccase. The basal medium containing glucose gave laccase activity of 155 U/ml. Screening of different media components and their effects on laccase production by Coriolus versicolor was studied using one factor at a time and L₉ (3⁴) orthogonal array method. A two-fold increase (305 U/ml) in laccase production was observed using a combination of glucose and starch as carbon source and yeast extract as nitrogen source. This activity is very high as compared to most of the reported strains. Hence this strain was explored for enhancement in laccase. The formation of extracellular laccase could be considerably stimulated by the addition of copper in the optimized medium. Addition of 1 mM copper enhanced laccase activity to 460 U/ml. Laccase production was further enhanced using different aromatic inducers. Among different inducers used 2,5-xylidine was found to be the best, and gave maximum laccase activity of 820 U/ml with 1 mM concentration. Thus, this strain could be an efficient and attractive source for laccase production.     

Effect of the regulation system of metabolic nitrogen exchange on biosynthesis of serine proteinases from <Emphasis Type="Italic">Bacillus intermedius</Emphasis>

The regulatory link between biosynthesis of Bacillus intermedius subtilisin-like serine proteinase and nitrogen metabolism in B. intermedius cells was determined. The level of the enzyme biosynthesis by the recombinant strain of Bacillus subtilis in the medium containing ammonium ions was three- to fivefold less than that in the medium with poorly utilized sodium nitrate. Accumulation of glutamyl endopeptidase in a culture liquid of this microorganism did not depend on the source of nitrogen present in the medium. During cultivation in the rich medium, the productivity of subtilisin-like proteinase in the recombinant B. subtilis strain carrying a mutation in the NrgB sensor protein was demonstrated to increase threefold compared to that of the control strain. In the minimal culture medium, mutation in the nrgB gene abolished the effect of a nitrogen source on the level of the subtilisin-like proteinase gene expression. At the same time, this mutation did not affect glutamyl endopeptidase biosynthesis. Thus, expression of the gene coding for subtilisin-like proteinase from B.intermedius is suggested to be positively regulated by the regulatory system of nitrogen metabolism.     

Overproduction of recombinant laccase using a homologous expression system in <Emphasis Type="Italic">Coriolus versicolor</Emphasis>

One of the major extracellular enzymes of the white-rot fungus Coriolus versicolor is laccase, which is involved in the degradation of lignin. We constructed a homologous system for the expression of a gene for laccase III (cvl3) in C. versicolor, using a chimeric laccase gene driven by the promoter of a gene for glyceraldehyde-3-phosphate dehydrogenase (gpd) from this fungus. We transformed C. versicolor successfully by introducing both a gene for hygromycin B phosphotransferase (hph) and the chimeric laccase gene. In three independent experiments, we recovered 47 hygromycin-resistant transformants at a transformation frequency of 13 transformants g^–1 of plasmid DNA. We confirmed the introduction of the chimeric laccase gene into the mycelia of transformants by a polymerase chain reaction in nine randomly selected transformants. Overproduction of extracellular laccase by the transformants was revealed by a colorimetric assay for laccase activity. We examined the transformant (T2) that had the highest laccase activity and found that its activity was significantly higher than that of the wild type, particularly in the presence of copper (II). Our transformation system should contribute to the efficient production of the extracellular proteins of C. versicolor for the accelerated degradation of lignin and aromatic pollutants.     

Optimisation of the expression of a Trametes versicolor laccase gene in Pichia pastoris

A cDNA encoding a laccase enzyme was isolated from a Trametes versicolor cDNA library. The gene was subcloned into the Pichia pastoris expression vector pPIC3.5 and transformed into the P. pastoris strains KM71 and GS115. Laccase-secreting transformants were selected by their ability to oxidise the substrate ABTS. No difference in laccase activity was observed between culture supernatants from GS115 (proteolytic) and KM71 (nonproteolytic) strains. The presence of at least 200 μM copper was necessary for optimal laccase activity in the culture supernatants. During growth of P. pastoris on minimal medium the pH of the medium was reduced to <3.0. If alanine was added to the medium the pH reduction was not as pronounced and at alanine concentrations >0.6% w/v the pH was kept constant for >7 days. Cultures in which the pH was maintained by alanine metabolism produced higher levels of laccase activity than those grown in the absence of alanine. This study describes the development of a medium that allows convenient pH control of P. pastoris without the need for continuous neutralisation. Journal of Industrial Microbiology & Biotechnology (2002) 29, 55–59 doi:10.1038/sj.jim.7000268 Received 08 August 2001/ Accepted in revised form 18 April 2002     

Molecular cloning of the cDNA encoding laccase from Trametes versicolor and heterologous expression in Pichia methanolica

A cDNA encoding for laccase was isolated from the ligninolytic fungus Trametes versicolor by RNA-PCR. The cDNA corresponds to the gene Lcc1, which encodes a laccase isoenzyme of 498 amino acid residues preceded by a 22-residue signal peptide. The Lcc1 cDNA was cloned into the vectors pMETA and pMETαA and expressed in Pichia methanolica. The laccase activity obtained with the Saccharomyces cerevisiae α-factor signal peptide was found to be twofold higher than that obtained with the native secretion signal peptide. The extracellular laccase activity in recombinants with the α-factor signal peptide was 9.79 U ml⁻¹. The presence of 0.2 mM copper was necessary for optimal activity of laccase. The expression level was favoured by lower cultivation temperature. The identity of the recombinant protein was further confirmed by immunodetection using Western blot analysis. As expected, the molecular mass of the mature laccase was 64.0 kDa, similar to that of the native form.     

Farnesol stimulates laccase production in Trametes versicolor

Farnesol, a quorum‐sensing molecule, was used successfully to improve laccase production in submerged cultures of Trametes versicolor. At the optimal farnesol concentration of 60 μM added at the beginning of the culture, the extracellular laccase activity reached 629.3 U L^?1 after 6 days of cultivation, which represented a 1.92‐fold increase relative to the control without farnesol treatment. The addition of farnesol resulted in an increase in the accumulation of H₂O₂ and an increased expression of the laccase (lac) gene and the RhoA gene. The RhoA gene correlated with hyperbranched mycelia, which facilitated the secretion of the intracellular laccase. This study provides a basis for understanding the induction mechanism of farnesol for enhancing laccase production.     

Enzymes produced by <Emphasis Type="Italic">Ganoderma australe</Emphasis> growing on wood and in submerged cultures

Enzymes produced by Ganoderma australe in solid-state fermentation and submerged cultures were evaluated. Strain A464 produced laccase activity in liquid medium and in solid-state cultures containing Drimys winteri or Eucalyptus globulus wood chips, while MnP and LiP activities were not detected. On the other hand, strain A272 cultured for 75 days on E. globulus presented MnP activity of 719 IU/kg of wood. The suitability of D. winteri wood as a substrate enabling MnP production was checked with a well-documented MnP-producing basidiomycete, Ceriporiopsis subvermispora, which produced MnP activity of 327 IU/kg of wood in 9-day-old cultures. Data from two different G. australe strains (A272 and A464) indicated that MnP secretion depended on strain origin as well as on culture conditions.     

Expression and characterization of a recombinant multi-copper oxidase: laccase IV from Trametes versicolor

A cDNA encoding LccIV, a previously uncharacterized laccase isozyme of the white-rot basidiomycete Trametes versicolor, was expressed in the methylotrophic yeast Pichia pastoris. The LccIV isozyme is not expressed by T. versicolor under normal culture conditions and the enzyme was, therefore, investigated to determine whether it had any unusual properties. The native signal peptide of LccIV directed efficient secretion and correct proteolytic processing of LccIV to the mature form, whereas, substitution with the Saccharomyces cerevisiae α-mating factor signal peptide led to retention of an additional tetrapeptide at the amino-terminus of the secreted enzyme and ∼25% lower specific activity in fermentor medium. Active LccIV was purified to homogeneity by sequential steps of ion-exchange, size-exclusion and hydrophobic interaction chromatography. The enzyme contains ∼25% N-linked glycans (∼40% total carbohydrate) and has an apparent molecular mass of ∼85 kDa by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and ∼100 kDa by size-exclusion chromatography, indicating a monomeric structure. A pH of 5.5 was optimal for oxidation of 2,2′-azinobis(3-ethylbenzothiazoline-6-sulfonic acid). Thus, the LccIV isozyme appears to be similar in these respects to the laccase isozymes constitutively expressed by T. versicolor.     

Influence of very low doses of mediators on fungal laccase activity - nonlinearity beyond imagination

Laccase, an enzyme responsible for aerobic transformations of natural phenolics, in industrial applications requires the presence of low-molecular substances known as mediators, which accelerate oxidation processes. However, the use of mediators is limited by their toxicity and the high costs of exploitation. The activation of extracellular laccase in growing fungal culture with highly diluted mediators, ABTS and HBT is described. Two high laccase-producing fungal strains, Trametes versicolor and Cerrena unicolor, were used in this study as a source of enzyme. Selected dilutions of the mediators significantly increased the activity of extracellular laccase during 14 days of cultivation what was distinctly visible in PAGE technique and in colorimetric tests. The same mediator dilutions increased demethylation properties of laccase, which was demonstrated during incubation of enzyme with veratric acid. It was established that the activation effect was assigned to specific dilutions of mediators. Our dose-response dilution process smoothly passes into the range of action of homeopathic dilutions and is of interest for homeopaths.     

Enhanced production of laccase activity by <Emphasis Type="Italic">Trametes versicolor </Emphasis>immobilized into alginate beads by the addition of different inducers

In the present paper the effect of adding veratryl alcohol and copper sulphate on laccase activity production by Trametes versicolor immobilized into alginate beads has been investigated. Employing copper sulphate as laccase inducer or supplementing the culture medium with veratryl alcohol, led to maximum values of laccase activity. However, the highest laccase activity (around 4,000 U l⁻¹) was obtained in cultures simultaneously supplemented with copper sulphate (3 mM) and veratryl alcohol (20 mM). These values implied a considerable enhancement in relation to␣control cultures without any inducer (around 200 U l⁻¹). The production of laccase by immobilized T. versicolor in a 2-l airlift bioreactor with the optimized inducer has been evaluated. Laccase activities around 1,500 U l⁻¹ were attained. The bioreactor operated for 44 days without operational problems and the bioparticles (fungus grows in alginate beads) maintained their shape throughout the fermentation. Moreover, the extracellular liquid obtained was studied in terms of pH and temperature activity and stability. On the other hand, anthracene was added in two-repeated batches in order to determine the efficiency of this process to degrade pollutants. Near complete degradation was reached in both batches. Moreover, in vitro degradation of several polycyclic aromatic hydrocarbons by crude laccase was also performed.     

Degradation of endocrine disrupting chemicals by genetic transformants with two lignin degrading enzymes in <Emphasis Type="Italic">Phlebia tremellosa</Emphasis>

A white rot fungus Phlebia tremellosa produced lignin degrading enzymes, which showed degrading activity against various recalcitrant compounds. However, manganese peroxidase (MnP) activity, one of lignin degrading enzymes, was very low in this fungus under various culture conditions. An expression vector that carried both the laccase and MnP genes was constructed using laccase genomic DNA of P. tremellosa and MnP cDNA from Polyporus brumalis. P. tremellosa was genetically transformed using the expression vector to obtain fungal transformants showing increased laccase and MnP activity. Many transformants showed highly increased laccase and MnP activity at the same time in liquid medium, and three of them were used to degrade endocrine disrupting chemicals. The transformant not only degraded bisphenol A and nonylphenol more rapidly but also removed the estrogenic activities of the chemicals faster than the wild type strain.