漆酶高产菌株的诱变选育及其产酶条件

以粗毛栓菌Trametesgallica为出发菌,通过紫外诱变处理其担孢子、PDA-RBBR平板变色法初筛、ABTS法测定培养液漆酶酶活力复筛,获得1株漆酶高产诱变菌株SAH-12。用高氮低碳无机盐培养液(LM3)培养时,其峰值酶活力比出发菌株高出4倍,达到5002.6U/L,且产酶稳定。对SAH-12液体培养产酶条件的研究表明:以纤维二糖和蔗糖为碳源明显优于麦麸、淀粉和葡萄糖,其最高酶活分别达18526U/L和13436U/L;有机氮源较无机氮源更有利于SAH-12漆酶的分泌,以蛋白胨、大豆粕和胰化蛋白胨为氮源时其峰值酶活分别达到20544U/L、19671U/L和16180U/L;适宜初始培养pH为4.0;ABTS、单宁酸、没食子酸对产酶均有明显的诱导作用,其中ABTS和单宁酸的诱导效果相对更好,愈创木酚和吐温80对产酶有一定的抑制作用。     

Ligninolytic ability and potential biotechnology applications of the South American FungusPleurotus laciniatocrenatus

The extracellular ligninolytic enzyme system of Pleurotus laciniatocrenatus, grown under different culture conditions, was characterized and the ability of this strain to degrade different components of Eucalyptus globulus wood was determined. In shaken liquid cultures grown on a C-limited medium supplemented with yeast extract (0.1%) and peptone (0.5%), the fungus produced extracellular aryl-alcohol oxidase (Aao), laccase (Lac), manganese-dependent peroxidase (MnP) and manganese-independent peroxidase (MiP) activities, their maximum levels being, respectively, about 600, 50, 1360, and 920 pkat/mL. The supplementation of 1 mmol/L vanillic acid and 150 micromol/L CuSO4 produced an increase of Lac activity levels up to 4-fold and 68.3-fold, respectively. No significant differences were found in the levels of the other ligninolytic enzyme activities when compared to the basal medium. Solid-state fermentation cultures on E. globulus wood chips revealed Lac and MiP activities. These cultures showed degradative activity on lignin and lipophilic wood extractives.     

Molecular cloning and expression in Saccharomyces cerevisiae of a laccase gene from the ascomycete Melanocarpus albomyces

The lac1 gene encoding an extracellular laccase was isolated from the thermophilic fungus Melanocarpus albomyces. This gene has five introns, and it encodes a protein consisting of 623 amino acids. The deduced amino acid sequence of the laccase was shown to have high homology with laccases from other ascomycetes. In addition to removal of a putative 22-amino-acid signal sequence and a 28-residue propeptide, maturation of the translation product of lac1 was shown to involve cleavage of a C-terminal 14-amino-acid extension. M. albomyces lac1 cDNA was expressed in Saccharomyces cerevisiae under the inducible GAL1 promoter. Extremely low production was obtained with the expression construct containing laccase cDNA with its own signal and propeptide sequences. The activity levels were significantly improved by replacing these sequences with the prepro sequence of the S. cerevisiae alpha-factor gene. The role of the C-terminal extension in laccase production in S. cerevisiae was also studied. Laccase production was increased sixfold with the modified cDNA that had a stop codon after the native processing site at the C terminus.     

Differential regulation by organic compounds and heavy metals of multiple laccase genes in the aquatic hyphomycete Clavariopsis aquatica

To advance the understanding of the molecular mechanisms controlling microbial activities involved in carbon cycling and mitigation of environmental pollution in freshwaters, the influence of heavy metals and natural as well as xenobiotic organic compounds on laccase gene expression was quantified using quantitative real-time PCR (qRT-PCR) in an exclusively aquatic fungus (the aquatic hyphomycete Clavariopsis aquatica) for the first time. Five putative laccase genes (lcc1 to lcc5) identified in C. aquatica were differentially expressed in response to the fungal growth stage and potential laccase inducers, with certain genes being upregulated by, e.g., the lignocellulose breakdown product vanillic acid, the endocrine disruptor technical nonylphenol, manganese, and zinc. lcc4 is inducible by vanillic acid and most likely encodes an extracellular laccase already excreted during the trophophase of the organism, suggesting a function during fungal substrate colonization. Surprisingly, unlike many laccases of terrestrial fungi, none of the C. aquatica laccase genes was found to be upregulated by copper. However, copper strongly increases extracellular laccase activity in C. aquatica, possibly due to stabilization of the copper-containing catalytic center of the enzyme. Copper was found to half-saturate laccase activity already at about 1.8 μM, in favor of a fungal adaptation to low copper concentrations of aquatic habitats.     

Tannic acid interferes with the commonly used laccase-detection assay based on ABTS as the substrate

Laccase enzymatic activity in biological samples is usually detected spectrophotometrically through its capacity to oxidize several specific aromatic compounds. One of the most commonly used substrates is the compound 2-2'-azinobis(3-ethylbenzthiazoline-6-sulfonic acid) (ABTS), which becomes green-blue coloured when it is oxidized by laccase. In this work we study the interference of tannic acid with the spectrophotometric assay to detect laccase by using ABTS as the substrate. Our data show that under the normal reaction conditions of this assay, but in the absence of any catalyst, tannic acid is able to carry out the chemical reduction of the oxidized specie of ABTS, thus decreasing the overall detectable laccase-activity values observed when this enzyme is present in the reaction mixture. Therefore, our results represent an important warning concerning a commonly used method for measuring, detecting or screening laccases in biological samples that may content tannic acid or structural-related molecules.     

粗毛栓菌cDNA文库的构建和漆酶基因的表达分析

粗毛栓菌（Trametes gallica）能够分泌多种胞外氧化酶并且快速降解木质纤维素.为了快速高效分离鉴定粗毛栓菌木质纤维素降解酶相关基因,用Trizol试剂提取不同培养条件下粗毛栓菌总RNA,用Creator^TM SMART^TM cDNA Library Construction Kit和Advantage^®2 PCR Kit成功构建了该菌全长cDNA文库.原始文库滴度为1.5×10⁵cfu,重组率达99%,插入片段在0.7～2.0 kb之间,平均大小约1 kb. 随机取16个重组子进行测序,全长cDNA序列完整性率为85.7%;并筛选到1个漆酶基因,编码区长1 551 bp,预测的蛋白质由517个氨基酸残基组成,分子量为55.41 kD,等电点为4.76.用半定量RT-PCR法分析了该漆酶基因在不同培养条件下的表达水平. 结果显示,高浓度的碳源,氮源,Cu^2＋均能诱导此基因的表达,该结果为漆酶基因的表达调控机制的深入研究奠定了基础.     

Purification and Characterization of Laccase from Chaetomium thermophilium and Its Role in Humification

Chaetomium thermophilium was isolated from composting municipal solid waste during the thermophilic stage of the process. C. thermophilium, a cellulolytic fungus, exhibited laccase activity when it was grown at 45°C both in solid media and in liquid media. Laccase activity reached a peak after 24 h in liquid shake culture. Laccase was purified by ultrafiltration, anion-exchange chromatography, and affinity chromatography. The purified enzyme was identified as a glycoprotein with a molecular mass of 77 kDa and an isoelectric point of 5.1. The laccase was stable for 1 h at 70°C and had half-lives of 24 and 12 h at 40 and 50°C, respectively. The enzyme was stable at pH 5 to 10, and the optimum pH for enzyme activity was 6. The purified laccase efficiently catalyzed a wide range of phenolic substrates but not tyrosine. The highest levels of affinity were the levels of affinity to syringaldazine and hydroxyquinone. The UV-visible light spectrum of the purified laccase had a peak at 604 nm (i.e., Cu type I), and the activity was strongly inhibited by Cu-chelating agents. When the hydrophobic acid fraction (the humic fraction of the water-soluble organic matter obtained from municipal solid waste compost) was added to a reaction assay mixture containing laccase and guaiacol, polymerization took place and a soluble polymer was formed. C. thermophilium laccase, which is produced during the thermophilic stage of composting, can remain active for a long period of time at high temperatures and alkaline pH values, and we suggest that this enzyme is involved in the humification process during composting.     

Isolation of two laccase genes from the white-rot fungus Pleurotus eryngii and heterologous expression of the pel3 encoded protein

In this paper we report the cloning and nucleotide sequence analysis of two new laccase genes from the white-rot fungus Pleurotus eryngii, named pel3 and pel4. Comparison of the protein sequences deduced from these genes with laccases previously described in P. eryngii indicates that these genes codify for new laccases in this fungus. We described the expression of pel3 gene in two different Aspergillus niger strains. Both the laccase signal peptide and the glucoamylase preprosequence of A. niger were used to target the secretion of the active enzyme. The highest levels of laccase expression were obtained by combining the last construction with an A. niger strain deficient in extracellular proteases secretion. The characterization of catalytic properties of the recombinant enzyme, together with the setting-up of a heterologous expression system for pel3, will provide the basis to study the biotechnological applications of this enzyme.     

Effect of Nutritional Parameters on Laccase Production by the Culinary and Medicinal Mushroom, <Emphasis Type="Italic">Grifola frondosa</Emphasis>

Extracellular laccase in cultures of Grifola frondosa grown in liquid culture on a defined medium was first detectable in the early/middle stages of primary growth, and enzyme activity continued to increase even after fungal biomass production had peaked. Laccase production was significantly increased by supplementing cultures with 100–500 μM Cu over the basal level (1.6 μM Cu) and peak levels observed at 300 μM Cu were 7-fold higher than in unsupplemented controls. Decreased laccase activity similar to levels detected in unsupplemented controls, as well as an adverse effect on fungal growth, occurred with further supplementation up to and including 0.9 mM Cu, but higher enzyme titres (2- to 16-fold compared with controls) were induced in cultures supplemented with 1–2 mM Cu²⁺. SDS-PAGE combined with activity staining revealed the presence of a single protein band (M _r 70 kDa) exhibiting laccase activity in control culture fluids, whereas an additional distinct laccase protein band (M _r 45 kDa) was observed in cultures supplemented with 1–2 mM Cu. Increased levels of extracellular laccase activity, and both laccase isozymes, were also detected in cultures of G. frondosa supplemented with ferulic, vanillic, veratric and 4-hydroxybenzoic acids, and 4-hydroxybenzaldehyde. Using 2,2′-azino-bis(ethylbenzothiazoline-6-sulfonate) (ABTS) as substrate, the optimal temperature and pH values for laccase activity were 65°C and pH 2.2, respectively, and the enzyme was relatively heat stable. In solid-state cultures of G. frondosa grown under conditions adopted for industrial-scale mushroom production, extracellular laccase levels increased during the substrate colonization phase, peaked when the substrate was fully colonized, and then decreased sharply during fruit body development.     

Induction,purification, and characterization of a thermo and pH stable laccase from Abortiporus biennis J2 and its application on the clarification of litchi juice

A fungus J2 producing laccase with high yield was screened in soils and identified as Abortiporus biennis. The production of laccase was induced by 0.1 mM Cu²⁺, 0.1 mM tannic acid, and 0.5 M ethanol. The laccase from Abortiporus biennis J2 was purified to electrophoretic homogeneity by a couple of steps. The N-terminal amino acid sequence of the enzyme was AIGPTADLNISNADI. The properties of the purified laccase were investigated. The result showed the laccase from Abortiporus biennis J2 is a thermo and pH stable enzyme. The laccase activity was inhibited by Hg²⁺, Cd²⁺, Fe²⁺, Ag⁺, Cu²⁺, and Zn²⁺, while promoted by Mg²⁺, Mn²⁺ at 10 mM level. Purified laccase was used to the clarification of litchi juice. After treatment with this laccase, the phenolic content of litchi juice had been found to be greatly reduced along with an increase in the clarity of the juice. The result indicated the potential of this laccase for application in juice procession.     

Molecular analysis of the laccase gene from the chestnut blight fungus and selective suppression of its expression in an isogenic hypovirulent strain.

The gene encoding laccase in the chestnut blight fungus, Cryphonectria parasitica, has been cloned and characterized. The predicted C. parasitica laccase amino acid sequence (591 aa) was 57% identical to the Neurospora crassa laccase sequence and contained four potential copper-binding regions that are conserved in a number of copper-binding proteins. Treatment of a virulent C. parasitica strain with 3 microM cycloheximide resulted in a marked increase in laccase mRNA accumulation, whereas identical treatment of an isogenic strain that contained a hypovirulence-associated virus failed to significantly increase laccase mRNA levels. In contrast, the accumulation of mRNAs encoding beta-tubulin, actin, or glyceraldehyde-3-phosphate dehydrogenase was not appreciably altered by either the presence of a hypovirulence-associated virus or treatment with cycloheximide. These results provide evidence that the expression of a specific fungal gene encoding a known protein product is selectively modulated by a hypovirulence-associated virus.     

Purification and characterization of two laccase isoenzymes from a ligninolytic fungus Trametes gallica

Constant laccase activities were detected in culture supernatant of newly isolated basidiomycete Trametes gallica. Tryptone and glucose have great effects on the production of laccase. Two laccase isoenzymes (Lac I and Lac II) produced by T. gallica were purified to homogeneity (51- and 50-fold, respectively) by gel filtration chromatography, anion exchange chromatography, and improved native PAGE, with an overall yield of 24.8%. Lac I and Lac II from this fungus are glycoproteins with 3.6% and 4% carbohydrate content, the same molecular masses (by SDS-PAGE) of 60 kDa, and the pI of 3.1 and 3.0, respectively. Native gel electrophoresis indicates that the two laccases have different migration ratios. Lac I and Lac II have the same optimal pH of 3.0 on 2,6-dimethoxyphenol (DMP), pH 2.2 on 2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) (ABTS), and of pH 4.0 on guaiacol. The highest rate of ABTS oxidation for both laccases was reached at 70 degrees C. Both laccases are stable from pH 6 to 9, retaining 88-90% activity after 24 hr incubation, and show good stability when incubated at temperatures lower than 40 degrees C. The Km values of Lac I for ABTS, DMP, and guaiacol are 0.118 x 10(-2), 0.420, and 0.405 mM, respectively; the Km values of Lac II for ABTS, DMP, and guaiacol are 0.086 x 10(-2), 0.41, and 0.40 mM, respectively. Their N-terminal sequences are determined and show strong similarity with those from other basidiomycetes. Graphite-furnace atomic absorption analysis revealed that both laccases have four copper atoms per protein molecule, but they have no type I copper signal at around 600 nm and a type III copper signal near 330 nm. Cyanide, azide, and halides completely inhibit the enzyme activity, whereas EDTA has less inhibition.     

Involvement of the ABC transporter BcAtrB and the laccase BcLCC2 in defence of Botrytis cinerea against the broad-spectrum antibiotic 2,4-diacetylphloroglucinol

The genetic and biochemical basis of defence mechanisms in plant pathogenic fungi against antifungal compounds produced by antagonistic microorganisms is largely unknown. The results of this study show that both degradative and non-degradative defence mechanisms enable the plant pathogenic fungus Botrytis cinerea to resist the broad-spectrum, phenolic antibiotic 2,4-diacetylphloroglucinol (2,4-DAPG). The efflux pump BcAtrB provides the first line of defence for B. cinerea , preventing accumulation of 2,4-DAPG in the cell to toxic concentrations, whereas the extracellular laccase BcLCC2 mediates, via conversion of tannic acid, subsequent degradation of 2,4-DAPG. Expression of BcatrB is induced by 2,4-DAPG and efflux gives B. cinerea sufficient time to more effectively initiate the process of BcLCC2-mediated antibiotic degradation. This is supported by the observations that the BcatrB mutant is significantly more sensitive to 2,4-DAPG than its parental strain, and is substantially less effective in 2,4-DAPG degradation. The results of this study further showed that BcLCC2 itself is not able to degrade 2,4-DAPG, but requires tannic acid as a mediator for 2,4-DAPG degradation. To our knowledge, this is the first time that the laccase-mediator system is shown to play a role in the detoxification of a broad-spectrum antibiotic compound from bacterial origin. We postulate that yet unknown constituents present in tannic acid act as substrate(s) of BcLCC2, thereby generating radicals that mediate 2,4-DAPG degradation.     

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.