Risk factors, etiologies, and comorbidities in urban pediatric epilepsy.

The Seizures and Outcomes Study in Children (SOS-KIDS) identifies risk factors, etiologies, and comorbidities in a pediatric epilepsy population in a major city with diversity in socioeconomic levels. A thorough understanding of the range of issues impacting children with epilepsy is critical to establishing treatment that will produce better health outcomes. SOS-KIDS is a cross-sectional cohort study of pediatric epilepsy patients who live in Washington D.C. and are evaluated at Children's National Hospital. Families were recruited at the time of the child's routine clinic appointment or inpatient visit. Information was extracted from participants' electronic medical records (EMR) and parent reports; participants were screened for comorbidities using standardized screening measures. Data were collected from 289 participants (47% female, 53% male), and mean age was 7.9 years (2 months to 17 years). Twenty-nine percent of participants had primary generalized epilepsy, 63% focal epilepsy, 0.3% combined generalized and focal epilepsy, and 8% could not be distinguished. There were a variety of epilepsy risk factors including prematurity (10%), intraventricular hemorrhage (7%), neonatal seizures (8%), and febrile seizures (17%). The most common etiologies were cerebral malformations (13%) and genetic disorders (25%). Numerous participants had documented comorbidities including developmental delay (56%), intellectual disability (20%), headaches (16%), attention-deficit hyperactivity disorder (23%), and autism (7%). Of participants aged six years and older, depression, and anxiety were reported in 5% and 6% within the EMR, 14% and 19% in parent surveys, and 22% and 33% with standardized screening measures. We identified a wide variety of risk factors and etiologies among urban pediatric epilepsy patients, with genetic and structural being the most common. Neurologic and psychiatric comorbidities were common, but the prevalence of several psychiatric disorders reported within the EMR was substantially lower compared to that found when using parent surveys and standardized screening measures.

Engineering platforms for directed evolution of Laccase from Pycnoporus cinnabarinus.

While the Pycnoporus cinnabarinus laccase (PcL) is one of the most promising high-redox-potential enzymes for environmental biocatalysis, its practical use has to date remained limited due to the lack of directed evolution platforms with which to improve its features. Here, we describe the construction of a PcL fusion gene and the optimization of conditions to induce its functional expression in Saccharomyces cerevisiae, facilitating its directed evolution and semirational engineering. The native PcL signal peptide was replaced by the α-factor preproleader, and this construct was subjected to six rounds of evolution coupled to a multiscreening assay based on the oxidation of natural and synthetic redox mediators at more neutral pHs. The laccase total activity was enhanced 8,000-fold: the evolved α-factor preproleader improved secretion levels 40-fold, and several mutations in mature laccase provided a 13.7-fold increase in k(cat). While the pH activity profile was shifted to more neutral values, the thermostability and the broad substrate specificity of PcL were retained. Evolved variants were highly secreted by Aspergillus niger (∼23 mg/liter), which addresses the potential use of this combined-expression system for protein engineering. The mapping of mutations onto the PcL crystal structure shed new light on the oxidation of phenolic and nonphenolic substrates. Furthermore, some mutations arising in the evolved preproleader highlighted its potential for heterologous expression of fungal laccases in yeast (S. cerevisiae).

High redox potential laccases from the ligninolytic fungi Pycnoporus coccineus and Pycnoporus sanguineus suitable for white biotechnology: from gene cloning to enzyme characterization and applications.

AIMS: Exploitation of natural biodiversity in species Pycnoporus coccineus and Pycnoporus sanguineus to screen for a new generation of laccases with properties suitable for the lignin-processing sector. METHODS AND RESULTS: Thirty strains originating from subtropical and tropical environments, mainly isolated from fresh specimens collected in situ, were screened for laccase activity. On the basis of levels of enzyme activity and percentage of similarity between protein sequences, the laccases from strains BRFM 938, BRFM 66 and BRFM 902 were selected for purification and characterization. Each BRFM 938, BRFM 66 and BRFM 902 laccase gene encoded a predicted protein of 518 amino acids; the three deduced proteins showed 68.7-97.5% similarity with other Polyporale laccases. The three laccases (59.5-62.9 kDa with 7-10% carbohydrate content) had high redox potentials (0.72-0.75 V vs normal hydrogen electrode at pH 6), remained highly stable up to 75-78 degrees C and at pH 5-7 mixtures, and were resistant to methyl and ethyl alcohols, acetonitrile and dimethylsulfoxide at concentrations as high as 50% (v/v). The best laccase-1-hydroxybenzotriazole systems permitted almost 100% of various polyphenolic dye decolourization and oxidation of adlerol and veratryl alcohol. CONCLUSIONS: The three laccases showed complementary biochemical features. BRFM 938 laccase had the highest thermo- and pH stability, catalytic efficiency towards 2,2'-azino-bis-[3-ethylthiazoline-6-sulfonate] and resistance to alcoholic solvents. BRFM 66 laccase had the highest rates of dye decolourization and oxidation of nonphenolic compounds. SIGNIFICANCE AND IMPACT OF THE STUDY: This study identified P. coccineus and P. sanguineus as outstanding producers of high redox potential laccases, easy to purify and scale-up for industrial production. Three new laccases proved to be suitable models for white biotechnology processes and for further molecular breeding to create a new generation of tailor-made enzymes.

Technical advance in fungal biotechnology: development of a miniaturized culture method and an automated high-throughput screening.

AIMS: The goal of the study was to develop a reliable, reproducible and rapid method of culture in order to screen a large number of fungal transformants. METHODS AND RESULTS: The method is based upon miniaturized cell cultures and automated expression screening in microwell plates. For the method development, 50 recombinant Aspergillus vadensis clones producing feruloyl esterase B (FaeB) from Aspergillus niger were screened in 6 days. Then a panel of clones showing various behaviours was checked in flasks in order to demonstrate the reproducibility of the method. Using this method, a transformant of A. vadensis producing 1.2 g l(-1) of FaeB was selected (12-fold more than the A. niger overproducing strain). CONCLUSIONS: This miniaturized culture method allows to obtain reliable and reproducible results. The procedure has the advantages of being efficient, time-saving and more efficient than conventional in-flask culture screening as it can screen 800 clones per day after a culture of 3 days. SIGNIFICANCE AND IMPACT OF THE STUDY: This method could be applied to any other fungal strain culture, enzyme activity or biodiversity screening.

Heterologous production of the Piromyces equi cinnamoyl esterase in Trichoderma reesei for biotechnological applications.

AIMS: The objective of the study was to produce and characterize the cinnamoyl esterase EstA from the anaerobic fungus Piromyces equi for potential industrial applications. METHODS AND RESULTS: The catalytic domain EstA was produced in Trichoderma reesei. Because the two fungi displayed different genome features, including different codon usage and GC content, a synthetic gene was designed and expressed, leading to the production of the corresponding protein at around 33 mg per litre in the T. reesei culture medium. After the recombinant protein was purified, biochemical characterization showed that EstA presents peak activity at pH 6.5 and at 50-60 degrees C. Furthermore, EstA remained stable at pH 6-8 and below 50 degrees C. EstA was compared to cinnamoyl esterases FaeA and FaeB from Aspergillus niger in terms of ferulic acid (FA) release from wheat bran (WB), maize bran (MB) and sugar beet pulp (SBP). CONCLUSION: The synthetic gene was successfully cloned and overexpressed in T. reesei. EstA from P. equi was demonstrated to efficiently release FA from various natural substrates. SIGNIFICANCE AND IMPACT OF THE STUDY: Recombinant EstA produced in an industrial enzyme producer, T. reesei, was biochemically characterized, and its capacity to release an aromatic compound (FA) for biotechnological applications was demonstrated.

Characterization and expression of the cDNA encoding a new kind of phospholipid transfer protein, the phosphatidylglycerol/phosphatidylinositol transfer protein from Aspergillus oryzae: evidence of a putative membrane targeted phospholipid transfer protein in fungi.

The full-length cDNA of a phospholipid transfer protein (PLTP) was isolated from Aspergillus oryzae by a RACE-PCR procedure using degenerated primer pool selected from the N-terminal sequence of the purified phosphatidylinositol/phosphatidylglycerol transfer protein (PG/PI-TP). The cDNA encodes a 173 amino acid protein of 18823 Da. The deduced amino acid sequence from position 38 to 67 is 100% identical to the N-terminal sequence (first 30 amino acids) of the purified PG/PI-TP. This amino acid sequence is preceded by a leader peptide of 37 amino acids which is predicted to be composed of a signal peptide of 21 amino acids followed by an extra-sequence of 16 amino acids, or a membrane anchor protein signal (amino acid 5-29). This strongly suggests that the PG/PI-TP is a targeted protein. The deduced mature protein is 138 amino acids long with a predicted molecular mass of 14933 Da. Comparison of the deduced PG/PI-TP sequence with other polypeptide sequences available in databases revealed a homology with a protein deduced from an open reading frame coding for an unknown protein in Saccharomyces cerevisiae (36% identity and 57% similarity). Apart from this homology, the PG/PI-TP is unique and specific to the filamentous fungi on the basis of comparison of PLTP protein sequences. Northern blot analysis of RNA isolated from A. oryzae cultures grown on glucose or glucose supplemented with phospholipids suggests that the PG/PI-TP is transcribed by only one RNA species and allows us to show that expression of the protein is regulated at the messenger RNA level.

Purification and characterization of a novel specific phosphatidylglycerol-phosphatidylinositol transfer protein with high activity from Aspergillus oryzae.

A novel phospholipid transfer protein has been purified to homogeneity 406-fold from the filamentous fungus Aspergillus oryzae. The successive steps of purification comprised ultrafiltration, gel filtration on Sephadex G-75, ion exchange chromatographies on DEAE-Sepharose and Mono Q. The active protein is a monomer with a molecular mass of 19,000, estimated from SDS electrophoresis, amino acid composition as well as gel filtration. The isoelectric point is 4.8. The amino acid composition is characterized by a high amount of Gly, Leu, Ser, Asx and Glx residues and 4 Cys residues. N-terminal sequence was determined and compared with M. mucedo sequence. The purified protein was found to transfer preferentially phosphatidylglycerol and phosphatidylinositol over phosphatidylcholine > phosphatidylethanolamine > phosphatidylserine and no phosphatidic acid. Optimal temperature for in vitro transfer was 25-30 degrees C and optimal pH 4-7. Heating protein at 100 degrees C does not inactivate protein whereas a denaturation with urea is irreversible.

Cloning and expression in phospholipid containing cultures of the gene encoding the specific phosphatidylglycerol/phosphatidylinositol transfer protein from Aspergillus oryzae: evidence that the pg/pi-tp is tandemly arranged with the putative 3-ketoacyl-CoA thiolase gene.

The phosphatidylglycerol/phosphatidylinositol transfer protein (PG/PI-TP) is a new and original phospholipid transfer protein (PLTP) isolated from the Deuteromycete, Aspergillus oryzae. We have isolated a genomic clone of the A. oryzae pg/pi-tp using a probe derived from the corresponding cDNA and sequenced the complete gene. The DNA sequence analysis revealed that pg/pi-tp gene is composed of three exons encoding a 18,823 Da protein of 175 amino acids as previously described and of two introns as deduced by cDNA and genomic sequence alignment. The isolated pg/pi-tp gene do not show similarity with other PLTP genes or the deduced PG/PI-TP protein with proteins already known. Comparison of the encoded PG/PI-TP with other deduced proteins from recent genomic or cDNA sequence from databases revealed that the PG/PI-TP was close to two encoded proteins deduced from the cDNA database of Aspergillus nidulans (54% identity and 68% similarity) and the second from Neurospora crassa (53% identity and 76% similarity). Therefore, we suggested that both proteins might belong to the PLTP family. Southern blot analysis of A. oryzae genomic DNA show that the PG/PI-TP was encoded by a single gene. Expression of pg/pi-tp was performed in phospholipid containing cultures with increasing carbon source concentrations in order to study the regulation of the PLTPs in the filamentous fungus cell. This was done to know if a high density culture could yield a high amount of biomass with high phospholipid transfer activity. Results showed that phospholipids as compared to glucose in standard cultures stimulated mycelial growth and global phospholipid transfer activity, but not the pg/pi-tp transcript accumulation. However, high concentration of both carbon sources yielded an inhibition of the expression of the pg/pi-tp gene and of the global phospholipid transfer activity. In conclusion, both carbon sources are not suitable to increase the PLTP production in high density cultures for biotechnological applications. Finally, using the gene walking sequencing method it is demonstrated that the pg/pi-tp is tandemly arranged on opposite DNA strands in a tail-to-tail orientation with a putative gene encoding the 3-ketoacyl-CoA thiolase (EC 2.3.1.16). Unlike the pg/pi-tp gene, this thiolase gene show a putative 'beta-oxidation box' and encodes a putative 44,150 Da protein of 321 amino acids composed of a putative N-terminal PTS2 (Peroxisomal Targeting Signal) consensus sequence for the peroxisome targeting. Comparison of the amino acid sequence of the A. oryzae thiolase to that of the Yarrowia lipolytica showed a 50% identity and a 69% similarity.

Cloning and analysis of Pycnoporus cinnabarinus cellobiose dehydrogenase.

We have cloned and sequenced a gene encoding cellobiose dehydrogenase (CDH) from Pycnoporus cinnabarinus (Pci). PCR primers that may recognize a homologous cdh were designed using regions of complete conservation of amino acid sequence within the known sequences of Trametes versicolor (Tv) and Phanerochaete chrysosporium (Pc) CDH. Upstream primers hybridized to regions encoding the heme domain, whereas downstream primers recognized highly conserved regions within the flavin domain. Eight different primer pairs yielded three PCR products close in size to the control amplification, which used cloned Tv cdh as template. The PCR products that were close to the control size were cloned, and one of these, a 1.8-kb product, was completely sequenced. The PCR product was highly homologous to both Tv and Pch cdh, and contained eight putative introns. The cloned product was used to isolate a full-length clone encoding CDH from a Pci genomic library. Pci cdh encoded a protein with 83% identity with Tv CDH and 74% identity with Pch CDH. Northern blot analysis revealed that Pci cdh was transcribed as a single mRNA species and was expressed in the presence of cellulose as the carbon source.

Branching mutants of Aspergillus oryzae with improved amylase and protease production on solid substrates.

To study the relation between the number of hyphal tips and protein secretion during growth on a solid substrate, we have constructed two mutant strains of Aspergillus oryzae with increased hyphal branching. We have analysed hydrolytic enzyme activities during growth on wheat kernels (WK) of A. oryzae strains carrying the disrupted allele of the pclA gene encoding a secretion pathway specific (KEX2-like) endo-protease and the disrupted allele of the pg/pi-tp gene encoding a phosphatidylglycerol/phosphatidylinositol transfer protein. The biomass levels produced by the pclA and pg/pi-tp disrupted strains on wheat-based solid media were similar as found for the wild-type strain. However, the pclA disrupted strain showed much more compact colony morphology than the other two strains. Sporulation of the pclA and pg/pi-tp disrupted strains occurred, respectively, 2 days and 1 day later, compared to the wild type during fermentation on ground WK. During surface growth, microscopic analysis revealed that the hyphal growth unit length (L (hgu)) of the pclA and pg/pi-tp disrupted strains was, on average, 50 and 74% of that of the wild-type strain. This implies that in both mutant strains, a higher branching frequency occurs than in the wild-type strain. Compared to the wild-type strain, the pclA and pg/pi-tp disrupted strains produced at least 50% more amylase, at least 100% more glucoamylase and at least 90% more protease activity levels after growth on WK. These results support the hypothesis that branching mutants with an increased branching frequency can improve the solid state fermentation process.

Increased phospholipid transfer protein activity in Aspergillus oryzae grown on various industrial phospholipid sources.

The effect of industrial carbon sources on phospholipid transfer protein production was investigated. Phospholipid fractions of different composition were prepared from various plant oils (i.e., soybean, rapeseed, and sunflower) according to the Lucas Meyer extraction and purification process. The effect of these fractions on phospholipid transfer protein activity of cell extracts from Aspergillus oryzae grown on medium containing these phospholipids as sole carbon source was studied. It was shown that phospholipid transfer activity was markedly increased by extracts containing a particular phospholipid composition. However, this stimulation depends mainly upon the phospholipid composition of the fraction used as fermentation substrate. Fractions enriched mainly in phosphatidylinositol (Epikuron 110), at the expense of phosphatidylcholine, were the most efficient sources for phospholipid transfer protein production by A. oryzae. Maximal phospholipid transfer activity, as well as biomass production, were increased 4.1- and 9.7-fold, respectively, when cultures were supplemented with Epikuron 110 prepared from sunflower lecithin, as compared to glucose-control cultures.

Diagnosis of MS: a comparison of three different clinical settings.

In order to compare a newly established diagnostic clinic with two existing clinical settings in the management of the diagnostic phase of multiple sclerosis (MS), a retrospective audit was performed over a 12-month period comparing the length of time, adherence to recently published standards and price charged in diagnosing MS in three different clinical diagnostic settings operating within the same hospital: a specifically designed demyelinating disease diagnostic clinic (DDC), a general neurology clinic (GNC) and an inpatient investigation unit (IIU). An audit tool was created to measure the standards advocated by the UK MS Society on management of the diagnostic phase of MS. The costing tool was the price charged to health authorities. A randomized retrospective case note and referral letter review method was used. The entry criterion was a confirmed diagnosis of MS documented in the medical notes following investigation during the period April 1999-April 2001. The time between referral and first appointment favoured the DDC with a mean time of 5.9 weeks, compared to 7.7 weeks for the GNC and 10.0 weeks for the IIU. The mean times between the first appointment and receipt of results were 4.7 weeks (DDC), 18.8 weeks (GNC) and 21.2 weeks (IIU). Prices ranged from pounds sterling 395-pounds sterling 790 (DDC), pounds sterling 95-pounds sterling 380 (GNC) and pounds sterling 1940-pounds sterling 2700 (IIU). This study suggests that the UK MS Society standards are achievable in most areas without excessive additional costs and provides evidence that the DDC offers a better service than other existing models.

Filamentous fungi with high cytosolic phospholipid transfer activity in the presence of exogenous phospholipid.

The phospholipid transfer activity of cell extracts from 15 filamentous fungus strains grown on a medium containing phospholipids as the carbon source was measured by a fluorescence assay. This assay was based on the transfer of pyrene-labeled phosphatidylcholines forming the donor vesicles to acceptor vesicles composed of egg phosphatidylcholines. The highest phosphatidylcholine transfer activity was obtained with cell extracts from Aspergillus oryzae. The presence of exogenous phospholipids in the culture medium of A. oryzae was shown to increase markedly the activity of phospholipid transfer as well as the pool of exocellular proteins during the primary phase of growth. Modifications in the biochemical marker activities of cellular organelles were observed: succinate dehydrogenase, a mitochondrial marker; inosine diphosphatase, a Golgi system marker; and cytochrome c oxidoreductase, an endoplasmic reticulum marker, were increased 7.3-, 2-, and 22-fold, respectively, when A. oryzae was grown in the presence of phospholipids.

Molecular cloning of the cDNA encoding laccase from Pycnoporus cinnabarinus I-937 and expression in Pichia pastoris.

Laccases are multicopper-containing enzymes which catalyse the oxidation of phenolic and nonphenolic compounds with the concomitant reduction of molecular oxygen. In this study, a full-length cDNA coding for laccase (lac1) from Pycnoporus cinnabarinus I-937 was isolated and characterized. The corresponding open reading frame is 1557 nucleotides long and encodes a protein of 518 amino acids. The cDNA encodes a precursor protein containing a 21 amino-acid signal sequence corresponding to a putative signal peptide. The deduced amino-acid sequence of the encoded protein was similar to that of other laccase proteins, with the residues involved in copper coordination sharing the greatest extent of similarity. The cDNA encoding for laccase was placed under the control of the alcohol oxidase (Aox 1) promoter and expressed in the methylotropic yeast Pichia pastoris. The laccase leader peptide, as well as the Saccharomyces cerevisiae alpha-factor signal peptide, efficiently directed the secretion into the culture medium of laccase in an active form. Moreover, the laccase activity was directly detected in plates. The identity of the recombinant product was further confirmed by protein immunoblotting. The expected molecular mass of the mature protein is 81 kDa. However, the apparent molecular mass of the recombinant protein is 110 k Da, thus suggesting that the protein expressed in P. pastoris may be hyperglycosylated.

Isolation of a new laccase isoform from the white-rot fungi Pycnoporus cinnabarinus strain ss3.

Two extracellular laccase isoforms (Lac I and Lac II) produced by the white-rot fungus Pycnoporus cinnabarinus from the monokaryotic strain ss3 were purified from ferulic-acid-induced liquid culture medium using ammonium sulphate precipitation, followed by anion-exchange chromatography on a Mono Q column. Strain ss3 is the first generation of the parental strain P. cinnabarinus I-937. The new isolated isoform, Lac II, consists of an 86,000 molecular weight protein as determined by SDS polyacrylamide gel electrophoresis. The N-terminal amino acid sequences of both isoforms were determined, and compared to known laccase protein sequences of other organisms.

Localization of a phosphatidylglycerol/phosphatidylinositol transfer protein in Aspergillus oryzae.

The subcellular localization of the phosphatidylglycerol/phosphatidylinositol transfer protein (PG/PI-TP) of Aspergillus oryzae was investigated using Western blot analysis of the cell protein extracts, a cellular membrane fractionation technique, and transmission electron microscopy. The PG/PI-TP, as detected by Western blot analysis with a specific immune serum, was found to be mainly cytoplasmic and partly associated with intracellular membranes. A fractionation experiment was conducted after homogenization of the filamentous fungus mycelium. The endoplasmic reticulum, Golgi-like vesicles, and the plasma membrane were separated by isopycnic ultracentrifugation on a sucrose gradient, and our data revealed that the immunodetected PG/PI-TP was only associated with the Golgi-like apparatus. All these results were documented by electron microscopy and indicate here for the first time that there exists a specific phospholipid transfer protein in a filamentous fungus that is localized in the cytoplasm and associated with Golgi-like vesicles.

Overproduction of laccase by a monokaryotic strain of Pycnoporus cinnabarinus using ethanol as inducer.

AIMS: Laccase production by the monokaryotic strain Pycnoporus cinnabarinus ss3 was studied using ethanol as inducer in the culture medium. METHODS AND RESULTS: The effect of ethanol was tested at 10, 20, 30, 35 and 45 g l-1 and compared with that of ferulic acid, known until now as the most efficient inducer for laccase expression by P. cinnabarinus ss3. In the presence of 35 g l-1 ethanol, laccase activity (266 600 U l-1) and productivity (19 000 U l-1 day-1) were nine and fivefold higher compared with ferulic acid-induced cultures, and 155- and 65-fold higher compared with non-induced cultures, respectively. In vivo, ethanol added to the culture medium of P. cinnabarinus ss3 favoured a continuous and high expression of laccase gene. Under these conditions, P. cinnabarinus ss3 produced preferentially the isoenzyme LAC I. Ethanol added in vitro to the purified P. cinnabarinus ss3 laccase typically inhibited the enzymatic activity. CONCLUSIONS: In spite of an initial inhibitory effect on mycelial growth, ethanol was shown to be a very strong inducer for laccase expression by P. cinnabarinus ss3 allowing an average yield of 1-1.5 g l-1 laccase. SIGNIFICANCE AND IMPACT OF THE STUDY: This study identified P. cinnabarinus ss3 as an outstanding producer of laccase in the presence of ethanol as inducer. Ethanol is an inexpensive agricultural by-product and the process is simple to scale-up for industrial production.

Overproduction of the Aspergillus niger feruloyl esterase for pulp bleaching application.

A well-known industrial fungus for enzyme production, Aspergillus niger, was selected to produce the feruloyl esterase FAEA by homologous overexpression for pulp bleaching application. The gpd gene promoter was used to drive FAEA expression. Changing the nature and concentration of the carbon source nature (maltose to glucose; from 2.5 to 60 g l(-1)), improved FAEA activity 24.5-fold and a yield of 1 g l(-1) of the corresponding protein in the culture medium was achieved. The secreted FAEA was purified 3.5-fold to homogeneity in a two-step purification procedure with a recovery of 69%. The overproduced protein was characterised and presented properties in good agreement with those of native FAEA. The recombinant FAEA was tested for wheat straw pulp bleaching, with or without a laccase mediator system and xylanase. Best results were obtained using a bi-sequential process with a sequence including xylanase, FAEA and laccase, and yielded very efficient delignification--close to 75%--and a kappa number of 3.9. This is the first report on the potential application of recombinant FAEA in the pulp and paper sector.

Natural and recombinant fungal laccases for paper pulp bleaching.

Three laccases, a natural form and two recombinant forms obtained from two different expression hosts, were characterized and compared for paper pulp bleaching. Laccase from Pycnoporus cinnabarinus, a well known lignolytic fungus, was selected as a reference for this study. The corresponding recombinant laccases were produced in Aspergillus oryzae and A. niger hosts using the lacI gene from P. cinnabarinus to develop a production process without using the expensive laccase inducers required by the native source. In flasks, production of recombinant enzymes by Aspergilli strains gave yields close to 80 mg l(-1). Each protein was purified to homogeneity and characterized, demonstrating that the three hosts produced proteins with similar physico-chemical properties, including electron paramagnetic resonance spectra and N-terminal sequences. However, the recombinant laccases have higher Michaelian (Km) constants, suggesting a decrease in substrate/enzyme affinity in comparison with the natural enzyme. Moreover, the natural laccase exhibited a higher redox potential (around 810 mV), compared with A. niger (760 mV) and A. oryzae (735 mV). Treatment of wheat straw Kraft pulp using laccases expressed in P. cinnabarinus or A. niger with 1-hydroxybenzotriazole as redox mediator achieved a delignification close to 75%, whereas the recombinant laccase from A. oryzae was not able to delignify pulp. These results were confirmed by thioacidolysis. Kinetic and redox potential data and pulp bleaching results were consistent, suggesting that the three enzymes are different and each fungal strain introduces differences during protein processing (folding and/or glycosylation).