Fragmentation of cellulose by the major Thermomonospora fusca cellulases, Trichoderma reesei CBHI, and their mixtures

In this study, the fragmentation activities of Thermomonospora fusca cellulases E(2), E(3), E(5), Trichoderma reesei CBHI, and their mixtures were measured to study synergism in fragmentation. Fragmentation studies revealed that only two pure cellulases, T. fusca E(2) and E(5) had significant fragmentation activity. T. fusca E(3) shows strong synergism in fragmentation both in the production of reducing sugars and in fragmentation with both T. fusca endoglucananses and with T. reesei CBHI. Most mixtures containing CBHI produced higher rates of fragmentation than comparable mixtures containing E(3). The highest rate and extent of reducing sugar formation and the highest fragmentation activity were obtained with a mixture of E(2), E(3), and CBHI. (c) 1992 John Wiley & Sons, Inc.     

Adsorption of Trichoderma reesei CBHI cellulase on silanized silica

Adsorption kinetics and surfactant-mediated elution of Trichoderma reesei CBHI cellulase were recorded in situ, at hydrophobic, silanized silica. Experiments were performed at different solution concentrations, ranging from 0.001 to 0.98 mg/mL. Adsorbed enzyme was partially elutable upon rinsing, with the amount of adsorbed mass remaining being highest at intermediate concentrations. In addition, the resistance to elution with buffer was generally lower at higher concentrations, and the resistance to elution with surfactant was generally lower at intermediate concentrations. These observations are tentatively explained with reference to a mechanism allowing for adsorption of associated monomers of CBHI as well as free monomers.     

Induction and production of cellulases by l-sorbose in Trichoderma reesei

Summary Cellulase production in Trichoderma reesei mutants was induced by l-sorbose, known to be an inhibitor of -1,3-glucan synthesis. In the experiments the washed mycelia were used as resting cells. For CMCase induction over 24 h using T. reesei PC-3-7, the most effective pH, temperature and l-sorbose concentration were 2.8, 28° C and 0.3 mg/ml, respectively. Comparison with other cellulase inducers showed that the inductive level of CMCase by l-sorbose was similar to that by sophorose, known to be the most potent inducer of cellulases. Since the induction of CMCase was inhibited completely by 10 g of cycloheximide per ml, the induction process was considered to involve de novo synthesis. Although l-sorbose had the effective inducibility of CMCase, the assimilation rate of l-sorbose was very low in T. reesei PC-3-7.Production of Ethanol from Biomasses. Part III.Production of Ethanol from Biomasses. Part III.     

Production of cellulases from alkali-treated bagasse in Trichoderma reesei

Summary Most of the mutants of Trichoderma reesei had good cellulase productivity on Avicel but this was low on alkali-treated bagasse, which could be a most promising cellulosic biomass to use as an inexpensive carbon source for cellulase production. Two T. reesei mutants, PC-3-7 and X-31, in which strong cellulase activity is inducible by l-sorbose, were, however, found to produce cellulase on alkali-treated bagasse. They produced about 100 units of CMCase per ml in 5-1 jar fermentor culture with 4% alkali-treated bagasse as carbon source. They also showed higher cellulase productivity than other mutants on other easily saccharified substrates, such as alkali-treated rice straw and Walseth's cellulose.Production of Ethanol from Biomasses Part IV.Production of Ethanol from Biomasses Part IV.     

Trichoderma reesei cellulases in the bleaching of kraft pulp

In this work the effects of individual purified cellulases of Trichoderma reesei were studied in the enzyme-aided bleaching of kraft pulps. The cellobiohydrolases I and II, when used alone, had no positive effect on the bleachability of kraft pulps. The endoglucanase I (EG I), however, acted on pulp similarly to xylanases and with an enzyme dosage of 0.1 mg/g a clear increase in pulp brightness could be observed. Due to the unspecificity of this enzyme, the viscosity of the pulp was simultaneously decreased. Of the cellulases, EG II was clearly most detrimental in reducing the pulp viscosity. Hence, the action of purified cellulases of T. reesei on pulp as a substrate differs profoundly, and all cellulases are not detrimental to the pulp properties. Correspondence to: J. Buchert     

Production of Trichoderma reesei cellulases on glucose-containing media.

The filamentous fungus Trichoderma reesei was shown to secrete active cellobiohydrolase I and the endoglucanase I catalytic core domain into the culture medium when the fungus was grown on glucose-containing medium. The expression of the proteins was driven by the promoters of the elongation factor 1 alpha, tef1, and the unidentified gene for cDNA1. The cDNA1 promoter gave the best yields. The highest amounts of cellobiohydrolase I and the endoglucanase I core, being 50 to 100 mg/liter, accounted for more than half of the total protein secreted by the fungus. The levels obtained with the tef1 promoter were 20 to 50 times lower.     

Exo- and endo-glucanolytic activity of cellulases purified from Trichoderma reesei

Four cellulases, produced by Trichoderma reesei, have been purified by preparative isoelectric focusing (Rotofor), size exclusion (Sephacryl 100 HR), anionic (Mono Q) and cationic (Mono S) chromatography and chromatofocusing (Mono P). Enzymatic activity with a large number of substrates allowed the proteins to be classified as: cellobiohydrolase I, cellobiohydrolase II, endoglucanase I and endoglucanase II. The exo- or endo-glucanase character of these enzymes was analysed by using a technique based on the measurement of the Avicel insoluble fibres reducing power. © Rapid Science Ltd. 1998     

Synergism of Trichoderma reesei cellulases while degrading different celluloses

Summary The synergistic action of purified cellulases from Trichoderma reesei in hydrolysis of cellulose decreased with increasing substrate concentration, depended strongly on the the type of cellulose used, and was maximal on crystalline cellulose. Contrarily, the activity of the individual cellulases was highest on amorphous cellulose. The binary combinations CBH I/EG III and CBH I/CBH II exhibited the greatest degree of synergism on crystalline cellulose.     

Localization and release mechanism of cellulases in Trichoderma reesei QM 9414

Summary A significant increase in the extracellular yield of -glucosidase was observed when Trichoderma reesei QM 9414 was cultivated on a cellulose medium containing chitin. Measurement of enzyme activities in the various fractions of the mycelium revealed that endoglucanase was truly extracellular while -glucosidase was cell wall bound. Treatment of Trichoderma mycelium with cell wall degrading enzymes (produced from Trichoderma) led to a release of -glucosidase from the mycelium. Apparently chitin, in the presence of cellulose, induces the synthesis of chitinase and other cell wall lytic enzymes which promote release of the intramural -glucosidase into the medium.     

Action of purified Trichoderma reesei cellulases on cotton fibers and yarn

In this work the possibility and potential of treating cotton fibers and yarns instead of fabrics with monocomponent cellulases was investigated. Different pretreatments on fibers were performed and tested in order to improve the accessibility of cotton to enzymatic modification. The enzymatic treatments were evaluated microscopically and by analysing the effects of treated fibers on spinnability, yarn evenness, tenacity and pilling. The accessibility of the cotton fibers for cellulases could be increased by different pretreatments. Steaming of fibers prior to enzymatic treatment was found to be an efficient way to increase hydrolysis levels. Cellulase treatments of carded yarns resulted in modification of yarn properties. Decrease in yarn hairiness was observed and the knitted fabric made of the treated yarn showed a lowered tendency towards pilling. In all cases endoglucanase activity rather than cellobiohydrolase activity was responsible for these modifications.     

Treatment of recycled kraft pulps with Trichoderma reesei hemicellulases and cellulases

Effects of recycling ECF-bleached softwood kraft pulp on pulp properties were evaluated in the laboratory. The tensile strength, fiber flexibility and WRV lost during drying of the pulp were recovered by refining between the cycles which, however, resulted in deteriorated drainage properties. The recycled pulps were treated with purified Trichoderma reesei cellulases and hemicellulases and the changes in fiber properties due to enzymatic treatments were characterized. The endoglucanases (EG I and EG II) significantly improved pulp drainage already at low dosage levels, and EG II was found to be more effective at a given level of carbohydrate solubilization. Combining hemicellulases with the endoglucanase treatments increased the positive effects of the endoglucanases on pulp drainage. However, as a result of the endoglucanase treatments a slight loss in strength was observed. Combining mannanase with endoglucanase treatments appeared to increase this negative effect, whereas the impact of xylanase was not significant. Although the drainage properties of the pulps could be improved by selected enzymes, the water retention capacity of the dried hornified fibers could not be recovered by any of the enzymes tested.     

Saccharomyces cerevisiae mutants selected for increased production of Trichoderma reesei cellulases

 Trichoderma reesei endoglucanase I (EGI) was used as a reporter enzyme for screening mutagenized yeast strains for increased ability to produce protein. Sixteen haploid Saccharomyces cerevisiae strains, transformed with a yeast multicopy vector pALK222, containing the EGI cDNA under the ADH1 promoter, produced EGI activity of 10^-5–10^-4 g/l. On the average 93% of the total activity was secreted into the culture medium. Two strains with opposite mating types were mutagenized, and several mutants were isolated possessing up to 45-fold higher EGI activity. The best mutants were remutagenized and a second-generation mutant, strain 2804, with an additional twofold increase in EGI activity was selected. The mutant strain 2804 grew more slowly and reached a lower final cell density than the parental strain. In the selective minimal medium, the 2804 strain produced 40 mg/l immunoreactive EGI protein, but only 2% was active enzyme. In the rich medium the secreted EGI enzyme stayed active, but without selection pressure the EGI production ceased after 2 days of cultivation, when the strain 2804 had produced 10 mg/l of EGI. A sevenfold difference was found between the parental and the 2804 strain in their total EGI production relative to cell density. The difference in favour of the mutant strain was also detected on the mRNA level. The 2804 mutant was found to be more active than the parental strain also in the production of T. reesei cellulases, cellobiohydrolase I, and cellobiohydrolase II. Received: 22 December 1995/Received revision: 26 February 1996/Accepted: 17 March 1996     

Expression of Barley Endopeptidase B in Trichoderma reesei

The gene for barley endopeptidase B (EPB) has been expressed in the filamentous fungus Trichoderma reesei from the cbh1 promoter. The EPB signal sequence allowed secretion of over 90% of the recombinant protein. Yields reached about 500 mg of immunoreactive protein per liter and exceeded values for any other protein derived from a higher eukaryotic organism produced in T. reesei.     

Protease activity and proteolytic modification of cellulases from a Trichoderma reesei QM 9414 selectant

Summary The secretion of multiple forms of cellulolytic enzymes by a Trichoderma reesei QM 9414 selectant exhibiting high protease activity (T. reesei QM 9414/A 30) was investigated using monoclonal, domain-specific antibodies against cellobiohydrolase (CBH) I, CBH II and -glucosidase, and a polyclonal antibody against endoglucanase I. The pattern of appearance of these proteins was followed during growth of the fungus on Avicel cellulose, using sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE)/Western blotting/immunostaining. Evidence was obtained that, at late cultivation stages, CBH I and II became partially modified to lower molecular weight components, whereas -glucosidase and endoglucanase I appeared to remain largely intact. Modification of CBH I appeared to commence from the carboxy-terminal AB region, whereas CBH II appeared to become modified both from the amino- (ABB') and the carboxy-terminal. Evidence for a protease activity that modifies the already truncated cellobiohydrolases in the culture filtrate was obtained. These results show that proteolysis at late culture stages may contribute to the multiplicity of cellulases found in T. reesei culture fluids. Initial proteolytic cleavage of CBH I and II may, however, involve an unusual protease not detectable by the azocasein method.Offprint requests to: C. P. Kubicek     

Production of cellulases and xylanase by Trichoderma reesei F-522 on pretreated wheat straw

Autohydrolyzed and ethanol-alkali pulped wheat straw was examined as a candidate feedstock for both cellulase and xylanase production and enzymatic hydrolysis. Submerged cultures of Trichoderma reesei F-522 grown on hydrothermally modified straw provided culture supernatants of the highest enzymatic activities, whereas the maximal efficiency of enzymatic hydrolysis was recorded in straw treated with ethanol-NaOH mixture. Some culture conditions were optimized to improve the growth and cellulase production by T. reesei on autohydrolyzed wheat straw.     

Carrier-mediated transport of riboflavin in Ashbya gossypii

The filamentous hemiascomycete Ashbya gossypii is used for industrial riboflavin production. We examined riboflavin uptake and excretion at the plasma membrane using riboflavin auxotrophic and overproducing mutants. The riboflavin uptake system had low activity [Vmax = 20 +/- 4 nmol min(-1) g(-1) mycelial dry weight (dw)] and high affinity (KM = 40 +/- 12 microM). Inhibitor studies with the analogs FMN and FAD revealed high specificity of the uptake system. Excretion of riboflavin was not the consequence of non-specific permeability of the plasma membrane. Excretion rates in the mid-production phase were determined to be 2.5 nmol min(-1) g(-1) dw for wild-type cells and 66.7 nmol min(-1) g(-1) dw for an overproducing mutant, respectively. Inhibition of the reverse reaction, riboflavin uptake, led to an increase in apparent riboflavin efflux in the early production phase, indicating the presence of a separate excretion carrier. Riboflavin accumulation in A. gossypii vacuoles leading to product retention was found to be a secondary transport process. To address the question of whether a flux from the vacuoles back into the cytoplasm is present, we characterized efflux in hyphae in which the plasma membrane was permeabilized with digitonin. Efflux kinetics across the vacuolar membrane were unaffected by the lack of vacuolar H+ATPase activity and ATP, suggesting a passive mechanism. Based on the characterization of riboflavin transport processes in this study, the design of new production strains with improved riboflavin excretion may be possible.     

Expression of alanine:glyoxylate aminotransferase gene from Saccharomyces cerevisiae in Ashbya gossypii

Two plasmids containing an autonomously replicating sequence from Saccharomyces cerevisiae were constructed. Using these vectors, the AGX1 gene encoding alanine:glyoxylate aminotransferase (AGT) from S. cerevisiae, which converts glyoxylate into glycine but is not present in Ashbya gossypii, was expressed in A. gossypii. Geneticin-resistant transformants with the plasmid having the kanamycin resistance gene under the control of the translation elongation factor 1 α (TEF) promoter and terminator from A. gossypii were obtained with a transformation efficiency of approximately 10–20 transformants per microgram of plasmid DNA. The specific AGT activities of A. gossypii pYPKTPAT carrying the AGX1 gene in glucose- and rapeseed-oil-containing media were 40 and 160 mU mg⁻¹ of wet mycelial weight, respectively. The riboflavin concentrations of A. gossypii pYPKTPAT carrying AGX1 gene in glucose- and rapeseed-oil-containing media were 20 and 150 mg l⁻¹, respectively. In the presence of 50 mM glyoxylate, the riboflavin concentration and the specific riboflavin concentration of A. gossypii pYPKTPAT were 2- and 1.3-fold those of A. gossypii pYPKT without the AGX1 gene.     

Characterization of the secreted cellulases of Trichoderma reesei wild type and mutants during controlled fermentations

Summary The cellulases produced under pH controlled fermentation conditions with 5% Solka Floc and cornsteep liquor as substrates by Trichoderma reesei wild type QM6a and two mutants, Rut-C30 and RL-P37, have been separated by isoelectric focusing in polyacrylamide gels. The total complement of secreted proteins of the two mutants was distinct from the parent. However, the number and isoelectric points of the various enzymes in the cellulase complex were unchanged in the mutants. All secreted proteins stained with Schiff's reagent which indicated they were glycoproteins. One mutant, Rut-C30, exhibited a dramatic shift in the CBH I proteins during the course of the fermentation. RL-P37 showed a two-fold increase in the specific activity of both the total cellulase complex and endoglucanase. In addition a productivity on the order of 100 IU/l/h was achieved. Co-produced with the cellulases were at least two acid proteases with differential activity towards azocoll and azocasein.