Ventilation and oxygen consumption in the hagfish, Myxine glutinosa L.

Ventilation was measured directly in the hagfish, Myxine glutinosa L., by means of an electro-magnetic blood flowmeter. Ventilatory flow and frequency increased from 0.86 ± 0.27 ml·min^?, and 18.2 ± 5.1·min^?, respectively, at 7°C to 1.70 ± 0.20 ml·min^?, and 70.1 ± 9.5·min^? at 15 ·C.Standard oxygen consumption,V?O₂, was measured in non-buried hagfish. V?O₂ was 0.57 ± 0.17μl O₂·g^?1·min^?1 at 7°C, and 0.85 ± 0.12μl O₂·g^?1·min^?1 at 15°C.     

Partial purification and characterization of the novel halotolerant and alkalophilic laccase produced by a new isolate of Bacillus subtilis LP2

Laccases (benzenediol: oxygen oxidoreductases, [EC1.10.3.2] are mostly known as members of the blue multicopper oxidase family that are used in very different industrial applications: textile, pulp and paper, food, cosmetics industries, bioremediation process, biosensor, biofuel and organic synthesis. Stability against the extreme conditions is an important property and it makes laccase suitable for several industrial processes. Laccase should have salt resistance to be used in textile dye degradation because the textile wastewaters include dyes with high concentrations of salts, especially NaCl. Bacterial laccases are preferable to be used for bioremediation process due to their high stability to extremely salt contaminated and alkalophilic environment. Bacillus subtilis LP2 was identified as a source of alkali-tolerant, salt resistant laccase. Laccase showed activity over a wide pH (4–10) and temperature (30–80?°C) range. Maximum laccase activity was observed as 140.4?U/mg (umol/min*mg) at pH 8 and 50?°C with the substrate guaiacol. Stability of laccase was determined as 60% and 20% after incubation of the enzyme for different time intervals of 20 and 40?min at 50?°C and pH 8. SDS (10?mM) and EDTA (5?mM) decreased laccase activity from 100% to 0% and 56%, respectively. Despite the other inhibitors, NaCI increased the activity of laccase to 167% at 500?mM concentration. Laccase from Bacillus subtilis LP2 barely showed the activity on the substrates vanillin and L-tyrosine. These results clearly show that laccase from Bacillus subtilis LP2 has high potential to be used for several applications in textile industry.     

Utilization of horticultural waste (Apple Pomace) for multiple carbohydrase production from Rhizopus delemar F2 under solid state fermentation

The brown rot fungus Rhizopus delemar F₂ was shown to produce extracellular thermostable and multiple carbohydrase enzymes. The potential of Rhizopus delemar F2 in utilizing apple pomace under solid state fermentation (SSF) is the purpose of the study. Solid state fermentation (SSF) is a very effective technique opposed to submerged fermentation in various aspects. Enhanced production of multiple carbohydrases 18.20?U?g^?1 of cellulose, 158.30?U?g^?1 of xylanase, 61.50?U?g^?1 of pectinase and amylase 21.03?U?g^?1 was released by microwave pretreatment of apple pomace at 450?W for 1?min and then by incubation the culture thus obtained at 30?°C for 6 days with moisture content of 1:4.5. Apple pomace can serve as a potential source of raw material for the production of multiple carbohydrases. Besides, it can find great commercial significance in production of bioethanol and various industries like textile, fruit juice, paper and pulp industry.     

Screening,partial purification and characterization of the hyper-thermophilic lipase produced by a new isolate of Bacillus subtilis LP2

Abstract

Lipases are one of the most important catalysts for several industries such as detergent, dairy, and textile industry due to their bio-catalytic ability in aqueous and non-aqueous media. Stability to extreme conditions is an important property since it makes enzymes suitable to several industrial processes. In this study, lipase producing soil bacteria were screened and identified with 16S rDNA sequencing. A new hyper-thermophilic lipase named as Bacillus subtilis LP2 isolate was partially purified by ammonium sulphate precipitation with 17.8-fold purification and 583?U/mg specific activity. Maximum activity was exhibited at pH 7 and 80?°C with the substrate tween 80?K_M and V_max values were calculated as 18.3?mM and 680?U/mg with a catalytic efficiency (k_cat/K_M) of 307?s^?1M^?1. These results indicate that lipase from Bacillus subtilis LP2 can be a valuable candidate for industrial applications such as organic synthesis and fats and oils industry due to their efficient catalysis in higher temperatures.     

High-level expression of a xylanase gene from the thermophilic fungus Paecilomyces thermophila in Pichia pastoris

A xylanase gene from Paecilomyces thermophila was functionally expressed in Pichia pastoris. The recombinant xylanase (xynA) was predominantly extracellular; in a 5?l fermentor culture, the total extracellular protein was 8.1?g?l^?1 with an activity of 52,940?U?ml^?1. The enzyme was purified to homogeneity with a recovery of 48?%. The recombinant xynA was optimally active at 75?°C, as measured over 10?min, and at pH 7. The enzyme was stable up to 80?°C for 30?min. It hydrolyzed birchwood xylan, beechwood xylan and xylooligosaccharides to produce xylobiose and xylotriose as the main products.     

Hydrolytic properties of a thermostable α‐l‐arabinofuranosidase from Caldicellulosiruptor saccharolyticus

Aims: To characterize of a thermostable recombinant α‐l ‐arabinofuranosidase from Caldicellulosiruptor saccharolyticus for the hydrolysis of arabino‐oligosaccharides to l ‐arabinose. Methods and Results: A recombinant α‐l ‐arabinofuranosidase from C. saccharolyticus was purified by heat treatment and Hi‐Trap anion exchange chromatography with a specific activity of 28·2 U mg^?1. The native enzyme was a 58‐kDa octamer with a molecular mass of 460 kDa, as measured by gel filtration. The catalytic residues and consensus sequences of the glycoside hydrolase 51 family of α‐l ‐arabinofuranosidases were completely conserved in α‐l ‐arabinofuranosidase from C. saccharolyticus. The maximum enzyme activity was observed at pH 5·5 and 80°C with a half‐life of 49 h at 75°C. Among aryl‐glycoside substrates, the enzyme displayed activity only for p‐nitrophenyl‐α‐l ‐arabinofuranoside [maximum k_cat/K_m of 220 m(mol l^?1)^?1 s^?1] and p‐nitrophenyl‐α‐l ‐arabinopyranoside. This substrate specificity differs from those of other α‐l ‐arabinofuranosidases. In a 1 mmol l^?1 solution of each sugar, arabino‐oligosaccharides with 2–5 monomer units were completely hydrolysed to l ‐arabinose within 13 h in the presence of 30 U ml^?1 of enzyme at 75°C. Conclusions: The novel substrate specificity and hydrolytic properties for arabino‐oligosaccharides of α‐l ‐arabinofuranosidase from C. saccharolyticus demonstrate the potential in the commercial production of l ‐arabinose in concert with endoarabinanase and/or xylanase. Significance and Impact of the Study: The findings of this work contribute to the knowledge of hydrolytic properties for arabino‐oligosaccharides performed by thermostable α‐l ‐arabinofuranosidase.     

High production of laccase by a new basidiomycete, <Emphasis Type="Italic">Trametes</Emphasis> sp

A new basidiomycete, Trametes sp. 420, produced laccase at 6,810 U l⁻¹ (268 mg, 25.4 U mg⁻¹ protein for guaiacol) in glucose medium and 7,870 U l⁻¹ (310 mg) in cellobiose medium with induction by 0.5 mM Cu²⁺ and 6 mM o-toluidine. Laccase isozyme E (LacE) was the sole laccase in the fermentation products. It was stable at pH 5–9 and below 70°C over 30 min. The K _m values of LacE for four substrates (guaiacol ABTS, 2,6-dimethoxyphenol and syringaldazine) varied from 5 to 245 μM. The activity of LacE was strongly inhibited by NaN₃ but not by EDTA or dimethylsulfoxide. LacE at 0.5 U l⁻¹ could decolorize industrial dyes. The open reading frame of the lacE gene was 2,130 bp and was interrupted by 10 introns. It displayed a high homology to laccases from other fungi. Pingui Tong and Yuzhi Hong contributed equally to the study     

Dextranase from Arthrobacter oxydans KQ11-1 inhibits biofilm formation by polysaccharide hydrolysis

Dental plaque is a biofilm of water-soluble and water-insoluble polysaccharides, produced primarily by Streptococcus mutans. Dextranase can inhibit biofilm formation. Here, a dextranase gene from the marine microorganism Arthrobacter oxydans KQ11-1 is described, and cloned and expressed using E. coli DH5α competent cells. The recombinant enzyme was then purified and its properties were characterized. The optimal temperature and pH were determined to be 60°C and 6.5, respectively. High-performance liquid chromatography data show that the final hydrolysis products were glucose, maltose, maltotriose, and maltotetraose. Thus, dextranase can inhibit the adhesive ability of S. mutans. The minimum biofilm inhibition and reduction concentrations (MBIC₅₀ and MBRC₅₀) of dextranase were 2 U ml^?1 and 5 U ml^?1, respectively. Scanning electron microscopy and confocal laser scanning microscope (CLSM) observations confirmed that dextranase inhibited biofilm formation and removed previously formed biofilms.     

Bilirubin oxidase from Magnaporthe oryzae: an attractive new enzyme for biotechnological applications

A novel bilirubin oxidase (BOD), from the rice blast fungus Magnaporthe oryzae, has been identified and isolated. The 64-kDa protein containing four coppers was successfully overexpressed in Pichia pastoris and purified to homogeneity in one step. Protein yield is more than 100?mg for 2?L culture, twice that of Myrothecium verrucaria. The k _cat/K _m ratio for conjugated bilirubin (1,513?mM^?1?s^?1) is higher than that obtained for the BOD from M. verrucaria expressed in native fungus (980?mM^?1?s^?1), with the lowest K _m measured for any BOD highly desirable for detection of bilirubin in medical samples. In addition, this protein exhibits a half-life for deactivation >300?min at 37?°C, high stability at pH?7, and high tolerance towards urea, making it an ideal candidate for the elaboration of biofuel cells, powering implantable medical devices. Finally, this new BOD is efficient in decolorizing textile dyes such as Remazol brilliant Blue R, making it useful for environmentally friendly industrial applications.     

Efficiency of KrCl excilamp (222 nm) for inactivation of bacteria in suspension

Aims: To examine the killing efficiency of UV KrCl excilamp against Gram‐positive and Gram‐negative bacteria. Methods and Results: Vegetative cells of Bacillus cereus, Bacillus subtilis, Escherichia coli O157:H7, Staphylococcus aureus and Streptococcus pyogenes at initial populations from 10² to 10⁷ colony‐forming units (CFU) ml^?1 were treated by KrCl excilamp in sterile Ringer’s solution with and without H₂O₂. The number of viable cells was determined using spread plating techniques and nutrient agar method with subsequent incubation at 28°C or 37°C for 24 h. At estimated populations of 10²–10⁵ CFU ml^?1E. coli O157:H7 and Staph. aureus were the most sensitive and showed 100% disinfection within 15 s (29·2 mJ cm^?2). Bacillus subtilis was more sensitive to UV treatment than B. cereus. The UV/H₂O₂ inactivation rate coefficients within this population range were two times higher than those observed for UV treatment alone. No effect of H₂O₂ was observed at 10⁷ CFU ml^?1 for Bacillus sp. and Strep. pyogenes. Conclusions: The narrow‐band UV radiation at 222 nm was effective in the rapid disinfection of bacteria in aqueous suspensions. Significance and Impact of the Study: KrCl excilamps represent UV sources which can be applied for disinfection of drinking water in advanced oxidation processes.     

UFEIII, a fibrinolytic protease from the marine invertebrate, Urechis unicinctus

A new serine protease with fibrinolytic activity from a marine invertebrate, Urechis unicinctus, was purified to electrophoretic homogeneity using column chromatography. SDS-PAGE of the purified enzyme showed a single polypeptide chain with MW ~20.8 kDa. Its N-terminal sequence was IIGGSQAAITSY. The purified enzyme, UFEIII, was stable at pH 6–10 below 60 °C with an optimum pH of 8.5 at approx. 55 °C. The enzyme activity was significantly inhibited by PMSF and SBTI suggesting that it was a serine protease. In fibrin plate assays, UFEIII was contained 1.46 × 10³ U (urokinase units) mg^?1 total fibrinolytic activity, which consisted of 692 U mg^?1 direct fibrinolytic activity and 769 U mg^?1 plasminogen-activator activity. K_m and V_max values for azocasein were 1 mg ml^?1 and 43 μg min^?1 ml^?1, respectively.     

Heart rate as an indicator of metabolic rate and activity in adult Atlantic salmon, Salmo salar

Telemetered heart rate (f_H) was examined as an indicator of activity and oxygen consumption rate (VO₂) in adult, cultivated, Atlantic salmon, Salmo salar L. Heart rate was measured during sustained swimming in a flume for six fish at 10° C [mean weight, 1114 g; mean fork length (f. l.), 50·6 cm] and seven fish at 15° C (mean weight, 1119 g; mean f. l., 50·7 cm) at speeds of up to 2·2 body lengths/s. Semi–logarithmic relationships between heart rate and swimming speed were obtained at both temperatures. Spontaneously swimming fish in still water exhibited characteristic heart rate increases associated with activity. Heart rate and Vo₂ were monitored simultaneously in a 575–1 circular respirometer for six fish (three male, three female) at 4° C (mean weight, 1804 g; mean F. L., 62· cm) and six fish (three male, three female) at 10° C (mean weight, 2045 g; mean f. l., 63·2 cm) during spontaneous but unquantified activity. Linear regressions were obtained by transforming data for both f_H and Vo₂ to log values. At each temperature, slopes of the regressions between f_H and Vo₂ for individual fishes were not significantly different, but in some cases elevations were. All differences in elevation were between male and female fish. There were no significant differences in regression slope or elevation for fish of the same sex at the two temperatures and so regressions were calculated for the sexes, pooling data from 4 and 10° C. There was no significant difference in the mean ± S. D. Vo₂ between the sexes at 4° C (male, 66·0 ± 59·6 mgO₂ kg^?1 h^?1; female, 88·0 ± 60·1 mgO₂ kg^?1 h^?1) or 10° C (male, 166·2 ± 115·4 mgO₂ kg^?1 h^?1; female, 169·2 ± 111–1 mgO₂ kg^?1h^?1). Resting Vo₂ (x?± s. d.) at 4°C was 36·7 ± 8.4 mgO₂ kg^?1 h^?1, and 10° C was 72·8 ± 11·9 mgO₂ kg^?1 h^?1. Maximum Vo₂ (x?± S. D.) at 4° C was 250·6 ± 40·2 mgO₂ kg^?1 h^?1, and at 10° C was 423·6 ± 25·2 mgO₂ kg^?1 h^?1. Heart rate appears to be a useful indicator of metabolic rate over the temperature range examined, for the cultivated fish studied, but it is possible that the relationship for wild fish may differ.     

Effect of irradiance and temperature on the photosynthesis of a cultivated red alga,Pyropia tenera (= Porphyra tenera), at the southern limit of distribution in Japan

The effect of irradiance and temperature on the photosynthesis of the red alga, Pyropia tenera, was determined for maricultured gametophytes and sporophytes collected from a region that is known as one of the southern limits of its distribution in Japan. Macroscopic gametophytes were examined using both pulse‐amplitude modulated fluorometry and/or dissolved oxygen sensors. A model of the net photosynthesis–irradiance (P‐E) relationship of the gametophytes at 12°C revealed that the net photosynthetic rate quickly increased at irradiances below the estimated saturation irradiance of 46 μmol photons m^?2 s^?1, and the compensation irradiance was 9 μmol photons m^?2 s^?1. Gross photosynthesis and dark respiration for the gametophytes were also determined over a range of temperatures (8–34°C), revealing that the gross photosynthetic rates of 46.3 μmol O₂ mg_chl‐a^?1 min^?1 was highest at 9.3 (95% Bayesian credible interval (BCI): 2.3–14.5)°C, and the dark respiration rate increased at a rate of 0.93 μmol O₂ mg_chl‐a^?1 min^?1°C^?1. The measured dark respiration rates ranged from ?0.06 μmol O₂ mg_chl‐a^?1 min^?1 at 6°C to ?25.2 μmol O₂ mg_chl‐a^?1 min^?1 at 34°C. The highest value of the maximum quantum yield (Fv/Fm) for the gametophytes occurred at 22.4 (BCI: 21.5–23.3) °C and was 0.48 (BCI: 0.475–0.486), although those of the sporophyte occurred at 12.9 (BCI: 7.4–15.1) °C and was 0.52 (BCI: 0.506–0.544). This species may be considered well‐adapted to the current range of seawater temperatures in this region. However, since the gametophytes have such a low temperature requirement, they are most likely close to their tolerable temperatures in the natural environment.     

Laccase isoforms with unusual properties from the basidiomycete Steccherinum ochraceum strain 1833

Aims: To isolate and characterize the laccase isoforms from S. ochraceum 1833 – a new active producer of high extracellular laccase activity. Methods and Results: Three laccase isoforms (laccases I, II and III) with 57·5, 59·5 and 63 kDa molecular masses respectively were purified from S. ochraceum 1833 and in contrast to the known laccases had strongly pronounced absorption at 611 nm with molar extinction coefficients ranging from 7170 to 7830 mol^?1 l cm^?1. All isoforms showed maximal activity with ABTS at low pH (≤2) and temperatures in the range 70–80°C, were stable for long time of incubation at high temperature (60–80°C) and at pH values ranging from 2 to 6. Laccase II showed a higher activity and wider substrate specificity. N‐terminal amino acid sequence analysis of the purified laccase II (VQIGPVTDLH) showed 80% identity with the N‐terminal amino acid sequence of laccase from Lentinula edodes [Appl Microbiol Biotechnol 60 (2002) 327]. Conclusions: Elevated temperature optima, high thermo‐ and pH‐stabilities, the broad substrate specificity of the isoforms make the laccases from S. ochraceum 1833 a suitable model for biotechnological processes proceeding at high temperatures. Significance and Impact of the Study: For the first time, new basidiomycete strain S. ochraceum was reported as a producer of novel thermostable, pH stable, acidophilic laccases with unusual spectral properties.     

Improving the thermostability of Escherichia coli phytase, appA, by enhancement of glycosylation

A codon-optimized Escherichia coli appA phytase gene was synthesized and expressed in Pichia pastoris. Two residue substitutions (Q258N, Q349N) were sequentially introduced to enhance its glycosylation activity. Secretion of appA-Q258N/Q349N was approx. 0.3 mg ml^?1 and enzyme activity reached 1,030 U ml^?1. Purified appA-Q258N/Q349N had a specific activity of 3,137 U mg^?1 with an MW of approx. 53 kDa. Compared with appA-WT, appA-Q258N/Q349N showed over 40 % enhancement in thermostability (85 °C for 10 min) and 4–5 °C increases in the melting temperatures (T_m). The K_m and K_cat of appA-Q258N/Q349N were 0.43 mM and 3,058 s^?1, respectively, which are similar with that of appA-WT. The mutant appA-Q258N/Q349N obtained in this study could be used for the large-scale commercial production of phytase.     

Translational and rotational diffusion of tobacco mosaic virus from polarized and depolarized light scattering

The translational and rotational dynamics of tobacco mosaic virus in sodium phosphate buffer (pH =7.5) solutions has been investigated by polarized and depolarized light scattering Rayleigh linewidth studies. For concentrations ranging from 1.75 × 10^?4 g ml^?1 to 0.25 × 10^?4 g ml^?1 the translational diffusion coefficient (D_T) has been found to be slightly concentration dependent and extrapolation to zero concentration gives D₀^20°C = 0.34 ± 0.01 × 10^?7 cm²S^?1. A full analysis of the polarized spectra obtained at high and low scattering angles and the depolarized spectra at near zero scattering angles has enabled these techniques to be compared and the rotational diffusion constant D_R to be determined. At a solution concentration of 1.75 × 10^?4 g ml^?1 a mean value is found to be D_R^20°C = 350 ± 30s^?1. These values of D_T and D_R are in approximate agreement with calculations based on models of the tobacco mosaic virus molecule as a cylindrical rod.     

Inactivation of Cronobacter spp. (Enterobacter sakazakii) in infant formula using lactic acid,copper sulfate and monolaurin

Aims: To investigate the effect of lactic acid (LA), copper (II), and monolaurin as natural antimicrobials against Cronobacter in infant formula. Methods and Results: The effect of LA (0·1, 0·2 and 0·3% v/v), copper (II) (10, 50 and 100 μg ml^?1) and monolaurin (1000, 2000, and 3000 μg ml^?1) suspended into tween‐80? or dissolved in ethanol against Cronobacter in infant formula was investigated. Reconstituted infant formula and powdered infant formula were inoculated with five strains of Cronobacter spp. at the levels of c. 1 × 10⁶ CFU ml^?1 and 1 × 10³ CFU g^?1, respectively. LA at 0·2% v/v had a bacteriostatic effect on Cronobacter growth, whereas 0·3% v/v LA resulted in c. 3 log₁₀ reduction. Copper (II) at the levels of 50 μg ml^?1 and 100 μg ml^?1 elicited c. 1 and 2 log₁₀ reductions, respectively. The combination of 0·2% LA and 50 μg ml^?1 copper (II) resulted in a complete elimination of the organism. Monolaurin exhibited a slight inhibitory activity against Cronobacter (c. 1·5 log₁₀ difference) compared to the control when ethanol was used to deliver monolaurin. Conclusions: A complete elimination of Cronobacter was obtained when a combination of sublethal concentrations of LA (0·2%) and copper (II) (50 μg ml^?1) was used. Significance and Impact of the Study: The use of the synergistic interactive combination of LA and copper (II) could be beneficial to control Cronobacter in the infant formula industry.     

Changes in growth and size of Keratella cochlearis (Gosse) in relation to some environmental factors in cultures

Keratella cochlearis (Gosse) was cultured non-axenically in Carefoot medium diluted with Erken water at 5 °C, 15 °C and 20 °C with Rhodomonas minuta (Skuja) as a food alga. The rotifer reached ca. 120 ind. ml^?1, having generation times of 2–7 days, a Q₁₀-value of ca. 2, and at the lowest temperature >20% longer posterior spines. When co-cultured with Chlorella sp., at 0–30 mg Ca l^?1 and 1.6 meq NaHCO₃ l^?1 in medium L 11 at 20 °C, the maximum generation time and individual numbers were 3–4 days and up to 100 ind. ml^?1, respectively. Animal numbers increased in relation to nutrient multiples, up to two multiples, of the culture medium L 16. Growth and length were reduced, although the width increased above two multiples of this culture medium. The trace metal tolerance was broad and increased additions of a metal mixture (L 11) slightly increased the length of the rotifers. No major changes in the length were observed when HCO₃ or Ca were varied in the culture medium (L 11), although a decrease in the length was noted in old cultures.     

Association of β-amyloid peptide fragments with neuronal nitric oxide synthase: Implications in the etiology of Alzheimers disease

Neuronal nitric oxide synthase (nNOS) was purified on DEAE-Sepharose anion-exchange in a 38% yield, with 3-fold recovery and specific activity of 5 µmol.min^?1.mg^?1. The enzyme was a heterogeneous dimer of molecular mass 225?kDa having a temperature and pH optima of 40°C and 6.5, K_m and V_max of 2.6 μM and 996 nmol.min^?1.ml^?1, respectively and was relatively stable at the optimum conditions (t_½?=?3?h). β-Amyloid peptide fragments Aβ_17–28 was the better inhibitor for nNOS (K_i?=?0.81 µM). After extended incubation of nNOS (96?h) with each of the peptide fragments, Congo Red, turbidity and thioflavin-T assays detected the presence of soluble and insoluble fibrils that had formed at a rate of 5?nM.min^?1. A hydrophobic fragment Aβ_17–21 [Leu₁₇ – Val₁₈ – Phe₁₉ – Phe₂₀ – Ala₂₁] and glycine zipper motifs within the peptide fragment Aβ_17–35 were critical in binding and in fibrillogenesis confirming that nNOS was amyloidogenic catalyst.     

Molecular cloning and characterization of a novel laccase gene from a white-rot fungus Polyporus grammocephalus TR16 and expression in Pichia pastoris

Aims: To isolate a novel laccase gene from white‐rot fungus Polyporus grammocephalus TR16 and heterologous expression in Pichia pastoris. The characteristics of the heterologously expressed laccase are also studied. Methods and Results: Anchored PCR and 3′ RACE protocol were applied to obtain the full length of the laccase gene, which comprised 12 introns and an opening frame of 1769 bp. The deduced amino acid sequence of the laccase gene had an identity of 45–66% with the laccases reported previously. The cDNA was expressed in Pi. pastoris GS115 with native and α‐factor secretion signal peptides. The laccase activity obtained with the native signal peptide is threefold higher than that obtained with the α‐factor secretion signal peptide. The highest activity of the heterologously expressed laccase reached 893·3 U ml^?1, with its molecular mass estimated to be 65·4 kDa by SDS‐PAGE. The purified heterologously expressed laccase was stable at a pH range of 7·0–10·0. The optimum pH and temperature were 4·5 and 50°C, respectively; the K_m value for ABTS (3‐ethylbenzthiazoline‐6‐sulphonate) was 0·66 mmol l^?1. Conclusion: The novel laccase gene is cloned successfully and heterologously expressed in Pi. pastoris. Significance and Impact of the Study: A novel laccase gene isolated from a tropical fungus serves as a good source for pulp bleaching and wood processing.