Molecular determinants of peculiar properties of a Pleurotus ostreatus laccase: Analysis by site-directed mutagenesis

A comparison of laccase sequences highlighted the presence of a C-terminal extension of sixteen amino acids in POXA1b laccase – that represents the most thermostable isoenzyme among Pleurotus ostreatus laccases and exhibits a notable stability at alkaline pH (t_1/2 at pH 10 = 30 days) – whereas this tail is missing in the other analysed laccases from basidiomycetes. Site-directed mutagenesis experiments allowed us to demonstrate a role of the C-terminal tail of POXA1b in affecting its catalytic and stability properties. The truncated mutants lose the high stability at pH 10, while they show an increased stability at pH 5. The effect of substituting the residue Asp205 of POXA1b with an arginine was also analysed in the mutant POXA1bD205R. Following the mutation POXA1bD205R, a remarkable worsening of catalytic properties along with a decrease of substrate affinity and of enzyme stability were found. It was demonstrated that introducing Arg205 mutation in a highly conserved region perturbs the structural local environment in POXA1b, leading to a large rearrangement of the enzyme structure. Hence, a single substitution in the binding site introduces a local conformational change that not only leads to very different catalytic properties, but can also significantly destabilize the protein.     

启动子替代构建糙皮侧耳漆酶高产菌株

POXC是糙皮侧耳合成最多的一种漆酶。应用启动子替代技术,用构巢曲霉的甘油醛-3-磷酸脱氢酶基因（gpd）启动子替代POXC基因的启动子,构建了超量表达POXC糙皮侧耳转化子。转化子中POXC基因表达量比出发菌株提高了0.72–3倍。在PDA平板培养、PD摇瓶培养和棉籽壳试管培养条件下,转化子漆酶活力显著提高,比出发菌株提高了1.5倍以上。用棉籽壳栽培,转化子菇产量比出发菌株提高了16.2%,培养料中木质素含量比出发菌株减少21%。结果表明,应用高效启动子替代能够显著提高糙皮侧耳漆酶基因的表达量、漆酶活力及其木质纤维素降解能力。     

Classical breeding in Pleurotus ostreatus: a natural approach for laccase production improvement

White-rot basidiomycetes, the most common wood-rotting organisms, are characterized by their ability to produce extracellular oxidative enzymes, among which laccases are regarded as promising catalysts for many biotechnological applications. A significant obstacle to the exploitation of laccase-based bioprocesses is the large amounts of enzyme required. In this study the issue has been addressed by applying a classical breeding approach to increase laccase production yields in the white-rot fungus Pleurotus ostreatus. Starting from two different P. ostreatus varieties, three higher laccase-producing hybrids have been obtained by crossing selected compatible monokaryons. The three selected strains increased the titre of parental strains up to four fold, reaching an expression level of up to 100 000 U/L. One hybrid exhibited a more complex isoenzyme pattern, illustrating the potential of classical breeding to differentiate protein expression.     

Molecular determinants of xylose isomerase thermal stability and activity: analysis of thermozymes by site-directed mutagenesis

Xylose isomerases (XIs) from Thermoanaerobacterium thermosulfurigenes (TTXI) and Thermotoga neapolitana (TNXI) are 70.4% identical in their amino acid sequences and have a nearly superimposable crystal structure. Nonetheless, TNXI is much more thermostable than TTXI. Except for a few additional prolines and fewer Asn and Gln residues in TNXI, no other obvious differences in the enzyme structures can explain the differences in their stabilities. TNXI has two additional prolines in the Phe59 loop (Pro58 and Pro62). Mutations Gln58Pro, Ala62Pro and Gln58Pro/Ala62Pro in TTXI and their reverse counterpart mutations in TNXI were constructed by site-directed mutagenesis. Surprisingly, only the Gln58Pro mutation stabilized TTXI. The Ala62Pro and Gln58Pro/Ala62Pro mutations both dramatically destabilized TTXI. Analysis of the three-dimensional (3D) structures of TTXI and its Ala62Pro mutant derivative showed a close van der Waal's contact between Pro62-C(delta) and atom Lys61-C(beta) (2.92 A) thus destabilizing TTXI. All the reverse counterpart mutations destabilized TNXI thus confirming that these two prolines play important roles in TNXI's thermostability. TTXI's active site has been previously engineered to improve its catalytic efficiency toward glucose and increase its thermostability. The same mutations were introduced into TNXI, and similar trends were observed, but to different extents. Val185Thr mutation in TNXI is the most efficient mutant derivative with a 3.1-fold increase in its catalytic efficiency toward glucose. With a maximal activity at 97 degrees C of 45.4 U/mg on glucose, this TNXI mutant derivative is the most active type II XI ever reported. This 'true' glucose isomerase engineered from a native xylose isomerase has now comparable kinetic properties on glucose and xylose.     

Growth and laccase production by Pleurotus ostreatus in submerged and solid-state fermentation

Pleurotus ostreatus showed atypical laccase production in submerged vs. solid-state fermentation. Cultures grown in submerged fermentation produced laccase at 13,000 U l⁻¹, with a biomass production of 5.6 g l⁻¹ and four laccase isoforms. However, cultures grown in solid-state fermentation had a much lower laccase activity of 2,430 U l⁻¹, biomass production of 4.5 g l⁻¹, and three laccase isoforms. These results show that P. ostreatus performs much better in submerged fermentation than in solid-state fermentation. This is the first report that shows such atypical behavior in the production of extracellular laccases by fungi.     

Variability of laccase activity in the white-rot basidiomycete Pleurotus ostreatus

The production of laccase in liquid cultures of the white-rot fungusPleurotus ostreatus was highly variable. During the first days of cultivation, the relative variability was as high as 80–100% and it decreased to 30% in the course of cultivation. The main source of variability was assumed to be the independent development of enzyme activity in individual cultures. Cultures with high laccase production showed also high production of the other ligninolytic enzyme—Mn-dependent peroxidase. The variability was probably due to the source of inoculum, deactivation of the enzyme in culture liquid and genetic variations among the cultures. Variability of laccase activities was lower during solid-state fermentation on wheat straw and during the growth in nonsterile soil.     

Improving the functional expression of a Bacillus licheniformis laccase by random and site-directed mutagenesis

Background  

Laccases have huge potential for biotechnological applications due to their broad substrate spectrum and wide range of reactions they are able to catalyze. These include, for example, the formation and degradation of dimers, oligomers, polymers, and ring cleavage as well as oxidation of aromatic compounds. Potential applications of laccases include detoxification of industrial effluents, decolorization of textile dyes and the synthesis of natural products by, for instance, dimerization of phenolic acids. We have recently published a report on the cloning and characterization of a CotA Bacillus licheniformis laccase, an enzyme that catalyzes dimerization of phenolic acids. However, the broad application of this laccase is limited by its low expression level of 26 mg l^-1 that was achieved in Escherichia coli. To counteract this shortcoming, random and site-directed mutagenesis have been combined in order to improve functional expression and activity of CotA.     

Optimization of some variables that affect the synthesis of laccase by Pleurotus ostreatus

The influence of initial pH, concentration of yeast extract, inducer, type of enzyme releaser and buffer system on the composition of a medium for laccase production by Pleurotus ostreatus DM-1513 was investigated. A 2⁵ full factorial experimental design was initially employed to evaluate the effects of these variables on the enzyme synthesis. Data analysis showed that low pH and high yeast extract concentration values, as well as the absence of both an inducer and a buffer system, had positive effects on the secreted enzyme levels, whereas the type of enzyme releaser did not have a significant effect. The highest levels of laccase activity (489–540?U/l) were obtained in optimization experiments using media with initial pH between 6.0 and 6.5 and yeast extract concentrations of 0–0.25%     

Heterologous expression of heterodimeric laccase from Pleurotus ostreatus in Kluyveromyces lactis

Among the laccases produced by the white-rot fungus Pleurotus ostreatus, there are two closely related atypical isoenzymes, POXA3a and POXA3b. These isoenzymes are endowed with quaternary structure, consisting of two subunits very different in size. The POXA3 large subunit is clearly homologous to other known laccases, while the small subunit does not show significant homology with any protein in data banks. To investigate on the singular structure of the POXA3 complex, a new system for recombinant expression of heterodimer proteins in the yeast Kluyveromyces lactis has been set up. A unique expression vector has been used and the cDNAs encoding the two subunits have been cloned under the control of the same bi-directionally acting promoter. Expression of the large subunit alone and co-expression of both subunits in the same host have been demonstrated and the properties of the recombinant proteins have been compared. Clones expressing the large subunit alone exhibited always notably lower activity than those expressing both subunits. In addition to the activity increase, the presence of the small subunit led to a significant increase of laccase stability. Therefore, a role of the small subunit in POXA3 stabilisation is suggested.     

Yellow laccase from the fungus Pleurotus ostreatus D1: Purification and characterization

Yellow laccase was isolated from a solid-phase culture of the fungus Pleurotus ostreatus D1 and characterized. It is a copper-containing enzyme with a molecular weight of 64 kDa. Its lacks an absorption spectrum maximum at 610 nm, a result which is characteristic of fungal laccases and corresponds to the presence of type I copper atoms. The optimum pH values for the enzyme are determined. They prove to be 7.0 for syringaldazine, 8.0 for pyrocatechol, and 4.0 for 2,2′-azine-bis-(3-ethylbenzothiazoline-6-sulfonate and 2,6-dimethoxyphenol. Kinetic parameters (K _m and V _max) for oxidation of these substrates are determined. The effect of inhibitors (SDS, 2-mercaptoethanol, and EDTA) on the activity of the enzyme is studied. It is shown that yellow laccase from Pleurotus ostreatus D1 in the absence of a mediator oxidizes anthracene to anthraquinone to 95%.     

Yellow laccase from the fungus Pleurotus ostreatus D1: purification and characterization

Yellow laccase was isolated from a solid-phase culture of the fungus Pleurotus ostreatus D1 and characterized. It is a copper-containing enzyme with molecular weight 64 kDa. Its absorption spectrum lacks the maximum at 610 nm, characteristic of fungal laccases and corresponding to type I copper atom. The optimum pH values for the enzyme were determined. They proved to be: 7.0 for syringaldazine, 8.0 for pyrocatechol, and 4.0 for 2,2'-azine-bis-(3-ethylbenzothiazoline-6-sulfonate and 2,6-dimethoxyphenol. Kinetic parameters (Km and Vmax) for oxidation of these substrates were determined. The effect of inhibitors (SDS, 2-mercaptoethanol, and EDTA) on the activity of the enzyme was studied. It was shown that yellow laccase from Pleurotus ostreatus D1 oxidized anthracene to anthraquinone by 95% without any mediator.     

Random mutants of a Pleurotus ostreatus laccase as new biocatalysts for industrial effluents bioremediation

Aims: To select better performing laccase variants among the 2300 randomly mutated variants of Pleurotus ostreatus POXA1b laccase to develop improved laccase‐based biocatalysts. Methods and Results: Screening of collections of 2300 randomly mutated variants of POXA1b was performed by assaying activity towards the phenolic substrate 2,6‐dimethoxyphenol. Two new variants endowed with higher enzyme activity than the wild‐type laccase were characterized, and their ability to decolourize industrial dyes with complex trisazo‐, polyazo‐ and stilbene‐type structures, in the absence of mediators, was demonstrated. One of the mutants (2L4A) was also proved to be highly stable at both acidic and alkaline pH values (displaying a half‐life of around 1 month at the pH levels of both 5 and 10). Conclusions: In comparison with the wild‐type laccase, the new selected 2L4A mutant shows a significant increase in stability at acidic pH, whilst storing its high stability at alkaline pH. This variant also represents a more versatile enzyme with respect to both the variety of xenobiotics degraded and the operative conditions. Significance and Impact of the Study: This work represents the first example of improvement of a basidiomycete laccase for industrial effluents bioremediation by directed evolution.     

Cloning and sequencing of a laccase gene from the lignin-degrading basidiomycete Pleurotus ostreatus.

The gene (pox1) encoding a phenol oxidase from Pleurotus ostreatus, a lignin-degrading basidiomycete, was cloned and sequenced, and the corresponding pox1 cDNA was also synthesized and sequenced. The isolated gene consists of 2,592 bp, with the coding sequence being interrupted by 19 introns and flanked by an upstream region in which putative CAAT and TATA consensus sequences could be identified at positions -174 and -84, respectively. The isolation of a second cDNA (pox2 cDNA), showing 84% similarity, and of the corresponding truncated genomic clones demonstrated the existence of a multigene family coding for isoforms of laccase in P. ostreatus. PCR amplifications of specific regions on the DNA of isolated monokaryons proved that the two genes are not allelic forms. The POX1 amino acid sequence deduced was compared with those of other known laccases from different fungi.     

Specificity determinants of rat tissue kallikrein probed by site-directed mutagenesis.

Site-specific mutagenesis was employed to study structure-function relationships at the substrate binding site of rat tissue kallikrein. Four kallikrein mutants, the Pro219 deletion (P219del), the 34-38 loop Tyr-Tyr-Phe-Gly to Ile-Asn mutation [YYFG(34-38)IN], the Trp215----Gly exchange (W215G) and the double mutant with Tyr99----His and Trp215----Gly exchange (Y99H:W215G) were created by site-directed mutagenesis to probe their function in substrate binding. The mutant proteins were expressed in Escherichia coli at high levels and analyzed by Western blot. These mutant enzymes were purified to apparent homogeneity. Each migrated as a single band on SDS-PAGE, with slightly lower molecular mass (36 kDa) than that of the native enzyme, (38 kDa) because of their lack of glycosylation. The recombinant kallikreins are immunologically identical to the native enzyme, displaying parallelism with the native enzyme in a direct radioimmunoassay for rat tissue kallikrein. Kinetic analyses of Km and kcat using fluorogenic peptide substrates support the hypothesis that the Tyr99-Trp215 interaction is a major determinant for hydrophobic P2 specificity. The results suggest an important role for the 34-38 loop in hydrophobic P3 affinity and further show that Pro219 is essential to substrate binding and efficient catalysis of tissue kallikrein.     

糙皮侧耳生长发育过程中漆酶基因家族的表达研究

漆酶参与木质素的降解和食用菌的生长发育。为了明晰漆酶基因在糙皮侧耳生长发育过程中的作用,本文采用real-time PCR检测了11条漆酶基因及Lacc2的小亚基sspoxa3在糙皮侧耳生长发育不同阶段的表达。其中lacc6和sspoxa3在整个生长发育阶段表达量均较高;lacc12随着原基的分化和子实体的形成大量表达,与成菇过程有关。lacc4,lacc7和lacc11在原基分化期高表达,与原基的分化有关。lacc2,lacc3和lacc8在成熟子实体阶段表达量显著上升,与子实体的分化和成熟有关。     

Extracellular proteases and laccases produced by Pleurotus ostreatus PoB: the effects of proteases on laccase activity

International Microbiology - Laccases are enzymes produced by plants and white rot fungi, such as Pleurotus ostreatus, with industrial applications. Fungal laccases have been widely studied, and...