Characterizing the ensiling properties of sugarbeets with dry feedstuffs

A study was conducted to evaluate the ensiling characteristics of chopped sugarbeets with dry feedstuffs and the corresponding change in the nutritive composition of the silages with the addition of dry substrates. Pre-calculated amounts of each feedstuff were weighed individually to achieve desired proportions of each silage product and thoroughly mixed for 5 min. After mixing, the silage was distributed evenly into three 19-L buckets and sealed to provide an anaerobic environment. The treatments for this study were arranged in a 4 × 4 + 1 factorial design to determine the effects of DM level and source of dry feedstuff on the ensiling properties of sugarbeets following a 42-d fermentation period. Treatments were ensiled sugarbeets alone (250 g/kg) or based on (1) formulated silage DM concentrations of 275, 350, 425, and 500 g/kg and (2) the inclusion of dry feedstuffs (alfalfa hay, dry-rolled corn, wheat middlings, and wheat straw). Fermentation and nutritive characteristics of ensiled sugarbeets were influenced with the addition of dry substrates. A linear increase (P<0.001) in silage pH was observed with the addition of alfalfa, dry-rolled corn, wheat middlings, and wheat straw to ensiled sugarbeets. Lactic acid increased (P<0.001) with the addition of wheat middlings. Alfalfa addition to sugarbeet silage did not alter (P<0.001) lactate concentration. Concentration of lactate decreased (P=0.01) when corn was added, while wheat straw addition did not influence (P=0.37) lactate. A contrast was used to compare ensiling characteristics of sugarbeets alone (250 g/kg DM) to 350 g/kg DM (sugarbeets with dry substrates). Results indicated fermentative parameters were altered; pH increased (P<0.001) for all dry substrates while lactate was lower (P=0.003) for the sugarbeets ensiled with dry-rolled corn compared with sugarbeets ensiled alone. Alfalfa, wheat straw, and wheat middlings decreased (P<0.001) while dry-rolled corn did not affect (P=0.54) in vitro DM digestion. These results indicate the inclusion of dry feedstuffs with sugarbeets altered fermentation and with the exception of corn, decreased in vitro DM digestion. Nutrient composition and DM content of ensiled sugarbeets was altered with the addition of dry substrates.     

Textile dye degrading laccase from Pseudomonas desmolyticum NCIM 2112

A laccase requiring optimum temperature 60 °C, pH 4.0 for the activity and having apparent molecular weight 43,000 Da was purified from Pseudomonas desmolyticum NCIM 2112 by three steps, including heating, anion exchange, and molecular sieve chromatography. The purification fold and yield of laccase obtained through Biogel P100 were 45.75 and 19%, respectively. Staining of native gel with L-dopa showed dark brown color band indicating the presence of laccase. In relation to hydroquinone, the substrate specificity of laccase was in the following order: DAB > o-tolidine > ABTS > L-dopa. The absence of monophenolase activity in eluted fractions conformed that the purified protein is laccase. This laccase showed substrate dependent optimum pH character. Effect of inhibitor and metal ion on enzyme activity was analyzed. UV–vis analysis showed the decolorization of Direct Blue-6, Green HE4B and Red HE7B in the presence of laccase. The FTIR spectral comparison between the control dye sample and the metabolites extracted after decolorization by purified laccase have confirmed degradation of these dyes. This study contributes for the structural requirement of a dye to be degradable by P. desmolyticum laccase and is important in order to optimize potential bioremediation systems for industrial textile process water treatment.     

Heterologous production of a temperature and pH-stable laccase from Bacillus vallismortis fmb-103 in Escherichia coli and its application

To enhance laccase yield, the laccase gene from Bacillus vallismortis fmb-103 was cloned and heterologously expressed in Escherichia coli BL21 (DE3) cells. The auto-induction strategy was applied during fermentation, and the process was controlled, as follows: Cu²⁺ was added when the optical density at 600 nm (OD₆₀₀) was 0.3, the fermentation temperature was adjusted to 16 °C when the OD₆₀₀ was 0.9, and fermentation was stopped after 50 h. The yield of recombinant laccase was up to 3420 U/L, as assayed by 2,2-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid). Recombinant laccase was purified 4.47-fold by heating for 10 min at 70 °C and dialyzing against 50–60% ammonium sulfate, retained more than 50% activity after 10 h at 70 °C, and demonstrated broad pH stability. Malachite green was efficiently degraded by recombinant laccase, especially in combination with mediators. These results provided a basis for the future application of recombinant laccase to malachite green degradation.     

Fermentative production of succinic acid from straw hydrolysate by Actinobacillus succinogenes

In this work, straw hydrolysates were used to produce succinic acid by Actinobacillus succinogenes CGMCC1593 for the first time. Results indicated that both glucose and xylose in the straw hydrolysates were utilized in succinic acid production, and the hydrolysates of corn straw was better than that of rice or wheat straw in anaerobic fermentation of succinic acid. However, cell growth and succinic acid production were inhibited when the initial concentration of sugar, which was from corn straw hydrolysate (CSH), was higher than 60 g l^?1. In batch fermentation, 45.5 g l^?1 succinic acid concentration and 80.7% yield were attained after 48 h incubation with 58 g l^?1 of initial sugar from corn straw hydrolysate in a 5-l stirred bioreactor. While in fed-batch fermentation, concentration of succinic acid achieved 53.2 g l^?1 at a rate of 1.21 g l^?1 h^?1 after 44 h of fermentation. Our work suggested that corn straw could be utilized for the economical production of succinic acid by A. succinogenes.     

Immobilization of fungal (Trametes versicolor) laccase onto Amberlite IR-120 H beads: Optimization and characterization

Laccase from Trametes versicolor was immobilized on Amberlite IR-120 H beads. Maximum immobilization obtained was 78.7% at pH = 4.5 and temperature T = 45 °C. Kinetic parameters, K_m and V_max values, were determined respectively as 0.051 mM and 2.77 × 10^?2 mM/s for free and 4.70 mM and 5.27 × 10^?3 mM/s for immobilized laccase. The Amberlite–laccase system showed a 30% residual activity after 7 cycles. On the other hand, the loss of activity for free laccase after 7 days of storage at 4 °C was 18.5% in comparison to Amberlite–laccase system with a loss of 1.4%, during the same period. Improved operational, thermal and storage stabilities of the immobilized laccase were obtained compared to the free counterpart. Therefore, the use of low-cost matrices, like Amberlite for enzyme immobilization represents a promising product for enzymatic industrial applications.     

Synergistic action of co-expressed xylanase/laccase mixtures against milled sugar cane bagasse

The primary plant cell wall is composed of cellulose, hemicellulose, lignin and protein in a stable matrix. The concomitant depolymerization of lignin by laccase and of hemicelluloses by xylanase can improve lignocellulose degradation in the production of second generation biofuels. A thermophilic variant of xylanase A (XynAG3) and the thermostable laccase (CotA), both from Bacillus subtilis, were produced in co-transformed Pichia pastoris strain GS115. Mobility changes in SDS-PAGE after Endo H digestion indicated that both enzymes were glycosylated. The maximum catalytic activity of the XynAG3_Pp and the CotA_Pp was observed at 58 °C and 75 °C, respectively, and both enzymes presented high activity at pH 5.0. The half-life at 60 °C of XynAG3_Pp and CotA_Pp was 150 min and 540 min, respectively. The relative levels of CotA_Pp and XynAG3_Pp in culture broths were altered by the concentration of methanol used for induction, and CotA_Pp:XynAG3_Pp ratios of 1:1.5 and 1:2 were evaluated against milled sugar-cane bagasse. The highest activity was observed at a 1:2 ratio of CotA_Pp:XynAG3_Pp, and was 44% higher as compared to the sum of the activities of the individual enzymes in the same assay conditions. These results demonstrate the synergistic action between an endoxylanase and a laccase against the natural lignocellulosic substrate.     

Serotonin transporter protein (SERT) and P-glycoprotein (P-gp) binding activity of montanine and coccinine from three species of Haemanthus L. (Amaryllidaceae)

The alkaloid rich extracts from an acid/base extraction of bulb material of Haemanthus coccineus L., H. montanus Baker and H. sanguineus Jacq. revealed that two montanine type Amaryllidaceae alkaloids, montanine (1) and coccinine (2) were the major alkaloid constituents. Together these two alkaloids constituted 88, 91 and 98% of the total alkaloid extract from each species respectively. GC–MS analysis revealed that H. coccineus and H. sanguineus had a relative abundance of coccinine (74 and 91% respectively) to montanine (14 and 7% respectively); whereas H. montanus had 20% coccinine and 71% montanine. The three extracts and two isolated alkaloids were evaluated for binding to the serotonin transporter protein (SERT) in vitro. Affinity to SERT was highest in H. coccineus (IC₅₀ = 2.0 ± 1.1 μg/ml) followed by H. montanus (IC₅₀ = 6.8 ± 1.0 μg/ml) and H. sanguineus (IC₅₀ = 28.7 ± 1.1 μg/ml). Montanine (IC₅₀ = 121.3 ± 3.6 μM or 36.56 ± 1.14 μg/ml; K_i = 66.01 μM) was more active than coccinine (IC₅₀ = 196.3 ± 3.8 μM or 59.15 ± 1.08 μg/ml; K_i = 106.8 μM), both of which were less active than the total alkaloid extracts of each species investigated. The possible synergistic effects of two coccinine/montanine mixtures (80:20 and 20:80) were investigated, however the mixtures gave similar activities as the pure compounds and did not show any increase in activity or activity similar to the total alkaloid extracts. Thus the considerably higher activity observed in the total alkaloid extracts is not correlated to the relative proportions of coccinine and montanine in the extracts and thus are likely to be due to more potent unidentified minor constituents. Both alkaloids exhibited low binding affinity to P-glycoprotein (P-gp) as demonstrated by low inhibition of calcein-AM efflux in the MDCK-MDR1 cell line. This indicates that P-gp efflux will not be limiting for blood–brain-barrier passage of the alkaloids.     

Solution for promoting egl3 gene of Trichoderma reesei high-efficiency secretory expression in Escherichia coli and Lactococcus lactis

The objective of this study was to develop a solution for promoting egl3 gene of Trichoderma reesei (coding β-1,4-endoglucanase, EGIII) high-efficiency secretory expression in Escherichia coli and Lactococcus lactis and to investigate the effect of the best recombinant on degrading paper and wheat straw. The coding sequence of the egl3 gene fused with a gene fragment of Usp45 (usp45) of L. lactis was cloned to pMG36e and was expressed in E. coli DH 5α (DH 5α) and L. lactis subsp. lactis MG1363 (MG1363). The maximal productivity in recombinant DH 5α was 226 mU mL⁻¹ for extracellular EGIII and 535 mU mL⁻¹ for intracellular EGIII. The maximal productivity in recombinant MG1363 was 1118 mU mL⁻¹ for extracellular EGIII and 761 mU mL⁻¹ for intracellular EGIII. The plasmid stability in recombinant MG1363 was higher than 85% at 60 generations. Recombinant MG1363 vigorously degraded paper and wheat straw and produced sufficient acids. This study provided EGIII transgenic lactic acid bacteria for processing agricultural byproducts.     

Cloning,expression, and characterization of a thermostable and pH-stable laccase from Klebsiella pneumoniae and its application to dye decolorization

A thermostable and pH-stable laccase from Klebsiella pneumoniae was cloned and expressed in Escherichia coli. The recombinant laccase (rLac) achieved a specific activity of 7.12 U/mg after purification by Ni-affinity chromatography. Optimal enzyme activity was observed at pH 4.0 and 35 °C for 2,2′-azino-bis (3-ethylbenzthiazoline sulfonic acid) (ABTS) oxidization and pH 8.0 and 70 °C for 2,6-dimethoxyphenol (2,6-DMP) oxidization. Thermostability and pH stability studies showed that the rLac was stable over the range of 30–70 °C and pH 5.0–9.0 using 2,6-DMP as substrate. Circular dichroism analysis suggested that the secondary structure of the rLac mainly consisted of α-helix that played a vital role in maintaining laccase activity and revealed the potential mechanisms for the changes in laccase activity under varying pHs (3.0–11.0) and temperatures (20–90 °C). Finally, the rLac could decolorize the tested dyes with high decolorization efficiency.     

Characterization of a novel laccase from the isolated Coltricia perennis and its application to detoxification of biomass

A highly efficient laccase-producing fungus was isolated from soil and identified as Coltricia perennis SKU0322 by its morphology and by comparison of its internal transcribed spacer (ITS) rDNA gene sequence. Extracellular laccase (Cplac) from C. perennis was purified to homogeneity by anion-exchange and gel filtration chromatography. Cplac is a monomeric glycoprotein with 12% carbohydrate content and a molecular mass of 66 kDa determined by polyacrylamide-gel electrophoresis. Ultraviolet-visible absorption spectroscopy observed type 1 and type 3 copper signals from Cplac. The enzyme acted optimally at pH 3–4 and 75 °C. Its optimal activity was with 2,2-azino-bis (3-ethylbenzothiazoline-6-sulfonate) (ABTS), it also oxidized various lignin-related phenols. The enzyme was characterized as a multi-copper blue laccase by its substrate specificity and internal amino acid sequence. It showed a higher catalytic efficiency towards ABTS (k_cat/K_m = 18.5 s^?1 μM^?1) and 2,6-dimethoxyphenol (k_cat/K_m = 13.9 s^?1 μM^?1) than any other reported laccase. Its high stability and catalytic efficiency suggest its suitability for industrial applications: it detoxified phenolic compounds in acid-pretreated rice straw and enhanced saccharification yield.     

Diversity of anaerobic fungal populations in cattle revealed by selective enrichment culture using different carbon sources

We employed most probable numbers (MPNs) enumeration of enrichment cultures, combined with the use of a range of carbon sources (glucose, cellobiose, cellulose, xylan and wheat straw), to recover and identify morphologically different groups of anaerobic fungi (monocentric rhizoidal [Neocallimastix, Piromyces spp.], polycentric rhizoidal [Anaeromyces, Orpinomyces spp.], bulbous non-rhizoidal [Caecomyces, Cyllamyces spp.]) from rumen digesta, and fresh or frozen–thawed faeces of silage-fed cattle. Highest MPN counts (>10⁶ thallus forming units [TFU] g^?1 dry matter (DM)) were obtained using wheat straw but use of other carbon sources revealed large variation in the relative abundance of the morphotypes recovered in culture. Polycentric morphotypes were overall the most abundant fungi, comprising ca. 60 % of observations and recovered most frequently with xylan and wheat straw. Bulbous morphotypes showed a reciprocal pattern of occurrence, being most frequently observed on glucose, cellobiose and cellulose. Monocentric morphotypes were surprisingly the least abundant (<10 % overall), occurring mostly on glucose and wheat straw. Freezing of faeces (?20 °C/5 weeks) and thawing prior to enrichment culture reduced MPN counts by ca. 40 % from a mean of 1.8 × 10⁵ TFU g^?1 DM, but greater relative abundance of polycentric morphotypes in frozen–thawed faeces suggested differential survival in response to environmental stresses. PCR–RFLP demonstrated the simultaneous presence of seven ribotypes in one animal, but not all ribotypes could be associated with a particular genus.     

Characterization and kinetic properties of the purified Trematosphaeria mangrovei laccase enzyme

The properties of Trematosphaeria mangrovei laccase enzyme purified on Sephadex G-100 column were investigated. SDS–PAGE of the purified laccase enzyme showed a single band at 48 kDa. The pure laccase reached its maximal activity at temperature 65 °C, pH 4.0 with K_m equal 1.4 mM and V_max equal 184.84 U/mg protein. The substrate specificity of the purified laccase was greatly influenced by the nature and position of the substituted groups in the phenolic ring. The pure laccase was tested with some metal ions and inhibitors, FeSO₄ completely inhibited laccase enzyme and also highly affected by (NaN₃) at a concentration of 1 mM. Amino acid composition of the pure enzyme was also determined. Carbohydrate content of purified laccase enzyme was 23% of the enzyme sample. The UV absorption spectra of the purified laccase enzyme showed a single peak at 260–280 nm.     

Utilization of agro-industrial waste for xylanase production by Aspergillus foetidus MTCC 4898 under solid state fermentation and its application in saccharification

Xylanase production by Aspergillus foetidus MTCC 4898 was carried out under solid state fermentation using wheat bran and anaerobically treated distillery spent wash. Response surface methodology involving Box–Behnken design was employed for optimizing xylanase production. The interactions among various fermentation parameters viz. moisture to substrate ratio, inoculum size, initial pH, effluent concentration and incubation time were investigated and modeled. The predicted xylanase activity under optimized parameters was 8200–8400 U/g and validated xylanase activity was 8450 U/g with very poor cellulase activity. Crude xylanase was used for enzymatic saccharification of agroresidues like wheat straw, rice straw and corncobs. Dilute NaOH and ammonia pretreatments were found to be beneficial for the efficient enzymatic hydrolysis of all the three substrates. Dilute NaOH pretreated wheat straw, rice straw and corncobs yielded 4, 4.2, 4.6 g/l reducing sugars, respectively whereas ammonia treated wheat straw, rice straw and corncobs yielded 4.9, 4.7, 4.6 g/l reducing sugars, respectively. The hydrolyzates were analysed by HPTLC. Xylose was found to be the major end product with traces of glucose in the enzymatic hydrolyzates of all the substrates.     

Biochemical and molecular characterization of a novel laccase from selective lignin-degrading white-rot fungus Echinodontium taxodii 2538

A novel laccase was isolated and characterized from a new selective lignin-degrading white-rot fungus Echinodontium taxodii 2538, in which a high yield of laccase was obtained. No laccase isoenzyme was detected in the synthetic liquid media. The purified laccase (designated as EtL2538) had an apparent molecular mass of 56 kDa, pI value of 3.1, and N-terminal amino acid sequence of GIGPVTDLHIVNAAV. EtL2538 showed optimum pH at 3.0 and optimum temperature at 60 °C using ABTS as the substrate. EtL2538 revealed superior thermostability, and retained over 80% of its original activity after incubation for 2 h at 50 °C. The laccase gene, etl2538, was also cloned and sequenced. This gene encoded a mature laccase protein containing 499 amino acids (aa) preceded by a signal peptide of 21 aa, and the deduced protein sequence contained four copper-binding conserved domains of typical laccase protein. EtL2538 was further used in lignin oxidation and dye decolorization. Even without the existence of redox mediators, EtL2538 could cleave the methoxyl groups and β-O-4 ether linkages in lignin from bamboo, and significantly decolorize malachite green and RBBR. These novel properties of EtL2538 may render it as a potential biocatalyst for biotechnological and environmental applications.     

Enhanced ethanol production via fermentation of rice straw with hydrolysate-adapted Candida tropicalis ATCC 13803

Neutralized hydrolysate and pretreated rice straw obtained from a 2% (w/v) sulfuric acid pretreatment were mixed at 10% (w/v) and subjected to simultaneous saccharification and co-fermentation (SSCF), with cellulase, β-glucosidase, and Candida tropicalis cells at 15 FPU/g-ds, 15 IU/g-ds and 1 × 10⁹ cells/ml, respectively. A 36-h SSCF with adapted cells resulted in YP/S and ethanol volumetric productivity of 0.36 g/g and 0.57 g/l/h, respectively. In addition to ethanol, insignificant amounts of glycerol and xylitol were also produced. Adapted C. tropicalis cells produced nearly 1.6 times more ethanol than non-adapted cells. Ethanol yield (Yp/s), ethanol volumetric productivity and a xylitol concentration of 0.48 g/g, 0.33 g/l/h and 0.89 g/l, respectively, were produced from fermentation of remaining hydrolysate with adapted C. tropicalis cells. The 0.20 g/g ethanol yield and 77% production efficiency from SSCF of pretreated rice straw indicate scale-up potential for the process. This study demonstrated that C. tropicalis produced ethanol and xylitol from a mixed-sugar stream, although cell adaptation affected ethanol and xylitol yields. Scanning electron microscopy indicated agglomeration of cellulose microfibrils and globular deposition of lignin in acid-pretreated rice straw.     

A novel membrane-surface liquid co-culture to improve the production of laccase from Ganoderma lucidum

In this work, a laccase producer, Ganoderma lucidum, was separated and identified according to its morphological characteristics and phylogenetic data. A 4000 U/l and 8500 U/l of laccase activity was obtained in 500 ml flask by submerged culture and biomembrane-surface liquid culture (BSLC), respectively. Furthermore, the novel biomembrane-surface liquid co-culture (BSLCc) was developed by adding Saccharomyces cerevisiae to reactor in order to shorten the fermentation period and improve laccase production. Laccase activity obtained by BSLCc, 23 000 U/l, is 5.8 and 2.7 times of that obtained by submerged culture and BSLC, respectively. In addition, laccase production by BSLCc was successfully scaled-up to 100 l reactor, and 38 000 U/l of laccase activity was obtained on day 8. The mechanism of overproducing laccase by BSLCc was investigated by metabolism pathway analysis of glucose. The results show glucose limitation in fermentation broth induces the secretion of laccase. The addition of S. cerevisiae, on one hand, leads to an earlier occurrence of glucose limitation state, and thus shortens the fermentation time; on the other hand, it also results in the appearance of a series of metabolites of the yeast including organic acids, ethanol, glycerol and so forth in fermentation broth, and both polyacrylamide gel electrophoresis analysis and enzyme activity detection of laccase show that these metabolites contribute to the improvement of laccase activity.     

Purification and characterization of a new laccase from Shiraia sp.SUPER-H168

A new laccase from Shiraia sp.SUPER-H168 was purified by ion exchange column chromatography and gel permeation chromatography and the apparent molecular mass of this enzyme was 70.78 kDa, as determined by MALDI/TOF-MS. The optimum pH value of the purified laccase was 4, 6, 5.5 and 3 with 2,6-dimethoxyphenol (DMP), syringaldazine, guaiacol and 2,2′-azinobis-(3-ethylbenzthiazoline-6-sulphonate) (ABTS) as substrates, respectively. The optimum temperature of the purified laccase was 50 °C using DMP, syringaldazine and guaiacol as substrates, but 60 °C for ABTS. Inhibitors and metal ions of SDS, NaN₃, Ag⁺ and Fe³⁺ showed inhibition on enzyme activity of 10.22%, 7.86%, 8.13% and 67.50%, respectively. Fe²⁺ completely inhibited the purified laccase. The K_cat/K_m values of the purified laccase toward DMP, ABTS guaiacol and syringaldazine were 3.99 × 10⁶, 3.74 × 10⁷, 8.01 × 10⁴ and 2.35 × 10⁷ mol^?1 L S^?1, respectively. The N-terminal amino acid sequence of the purified laccase showed 36.4% similarity to Pleurotus ostrestus. Approximately 66% of the Acid Blue 129 (100 mg L^?1) was decolorized by 2.5 U of the purified laccase after a 120 min incubation at 50 °C. Acid Red 1 (20 mg L^?1) and Reactive Black 5 (50 mg L^?1) were decolorized by the purified laccase after the addition of Acid Blue 129 (100 mg L^?1).     

Expression of a bifunctional cellulase with exoglucanase and endoglucanase activities to enhance the hydrolysis ability of cellulase from a marine Aspergillus niger

Low exoglucanase and endoglucanase activities of marine Aspergillus niger cellulase decreased the hydrolyzing ability of cellulase. To increase the activity of halostable cellulase obtained from a marine A. niger, a cellulase with endoglucanase and exoglucanase activity was efficiently expressed by constructing a vector with promoter glaA. Exoglucanase and endoglucanase activities increased from 0.21 and 4.51 U/ml of the original strain to 0.89 U/ml and 15.12 U/ml of the transformant, respectively. Filter paper activity (FPA) increased by 7.1 folds from 0.63 to 4.47 U/ml. The release of glucose by hydrolysis of wheat straw with cellulase from the transformant was 1.37 folds higher than that with cellulase from the original strain under high salinity condition. Cellulase with endoglucanase and exoglucanase activities could be well expressed in marine A. niger. The cellulase from the transformant not only showed higher activity, but also retained halostability. An appreciate proportion of β-glucosidase, exoglucanase, endgolucanasein cellulase was important for hydrolyzing cellulose.     

Aislamiento y evaluación de la actividad enzimática de hongos descomponedores de madera (Quindío,Colombia)

White rot fungi (Ascomycota and Basidiomycota) were collected on fallen trunks with different decay stages, in a subandean forest (La Montaña del Ocaso nature reserve), and it was evaluated their ligninolitic activity. They were cultured on malt extract agar. Then it was performed semiquantitative tests for laccase and cellobiose dehydrogenase (CDH) activity using ABTS and DCPIP as enzymatic inducers. Based on the results of these tests, the fungi with higher activities from trunks with different decay stages were selected: Cookeina sulcipes (for stage 1), a fungus from the family Corticiaceae (for stage 2), Xylaria polymorpha (for stage 3) and Earliella sp. (for stage 4). A fermentation was performed at 28 °C, during 11 days, in a rotatory shaker at 150 rpm. Biomass, glucose, proteins and enzyme activities measurements were performed daily. The fungi that were in the trunks with decay states from 1 to 3, showed higher laccase activity as the state of decay increased. A higher DCH activity was also associated with a higher. Also, there was a positive relationship between both enzymes' activities. Erliella was the fungus which presented the highest biomass production (1140,19 g/l), laccase activity (157 UL^?1) and CDH activity (43,50 UL^?1). This work is the first report of laccase and CDH activity for Cookeina sulcipes and Earliella sp. Moreover, it gives basis for the use of these native fungi in biotechnological applications and the acknowledgment of their function in the wood decay process in native forest.     

Detoxification of Indigo carmine using a combined treatment via a novel trimeric thermostable laccase and microbial consortium

For the first time, the investigation of Indigo carmine decolorization was done using an atypical Scytalidium thermophilum laccase. Crude and purified laccases required high temperatures and slight acidic pH to achieve maximum Indigo decolorization. Kinetic parameters (K_m and k_cat) of the homotrimeric laccase toward Indigo carmine were determined and laccase efficacy toward repeated dye decolorization process was studied. For the first time, 5 g l⁻¹ as initial Indigo carmine concentration were efficiently transformed up to 50% within 6 h of incubation using 0.1 U ml⁻¹ of laccase and without presence of any mediators. In this study, we showed that the atypical laccase transformed the indigoid dye structure, confirmed by the color changing from blue to red. This intermediate (red) was a subject to an efficient microbial consortium treatment monitored by measuring the decrease in optical density and the total organic carbon removal efficiencies. Toxicological studies via micro-toxicity test showed that the released enzymatic and adapted consortium degradation products were both non-toxic while the initial product was toxic.