Transglycosylation products of cellulase system ofTrichoderma reesei

Summary From cellulose and cellobiose the formation of sophorose, laminaribiose, and gentiobiose was catalyzed byTrichoderma reesei culture filtrate containing exo- and endoglucanase and -glucosidase activity and from cellobiose by a broken cell suspension fromT.reesei with -glucosidase activity. The results indicate that -glucosidase is the component responsible for transglycosylation reaction catalyzed byT.reesei cellulase enzyme complex.     

Enzymatic deacetylation of galactoglucomannans

Several hemicellulolytic microorganisms were screened for their capability of liberating acetyl side groups from native softwood galactoglucomannan. All the microorganisms tested were found to produce an extracellular acetyl glucomannan esterase(s). The highest activity was detected in Schizophyllum commune culture filtrate. However, the enzyme produced by Aspergillus oryzae was most efficient in long-term hydrolysis. Acting alone, the purified esterase of A. oryzae was able to liberate most of the acetic acid from galactoglucomannan. The addition of other galactoglucomannan-degrading enzymes did not affect the action of esterase. On the other hand, the addition of esterase clearly enhanced the action of mannanase and -galactosidase. The purified acetyl esterase of Trichoderma reesei was able to liberate acetic acid from short oligomers of glucomannan, whereas the acetyl xylan esterase of T. reesei was unable to act on glucomannan oligomers of any size. Correspondence to: M. Tenkanen     

Production of cellulolytic enzymes from theXylaria andHypoxylon species of xylariaceae

Eighteen strains of xylariaceous fungi have been screened for higher activities of cellulolytic enzymes,Trichoderma reesei QM 9414 was also examined for comparison. Strains ofXylaria anisopleura andX. regalis had higher endocellulase (CMCase) and exocellulase (Avicelase) activities after 2 weeks' incubation.Hypoxylon stygium produced the highest activity of -glucosidase 3 days after inoculation. The optimum pH for these cellulolytic enzymes was approx. 5.0 and the optimum temperatures ranged from 37 to 50°C. A mixed culture process usingT. reesei QM 9414 andH. stygium was developed to obtain enhanced synthesis of cellulase. -Glucosidase activities in the mixed culture increased within 48h whenH. stygium was introduced after 24h.     

Hydrolysis of rice straw to fermentable sugars byTrichoderma enzymes

Summary ATrichoderma sp. (IMB-Tr) isolated from rice straw possessed cellulolytic and xylanolytic activity, comparable to those produced byTrichoderma reesei QM 9414 (a proven cellulolytic fungus). IMB-Tr produced 2.9 and 1.9 times, respectively, greater -glucosidase activity compared toT. reesei when grown on microcrystalline cellulose and rice straw. Percentage enzymic hydrolysis increased with increase in the sodium hydroxide concentration used in the pretreatment of rice straw and with the increase of enzyme concentration used in the hydrolysis. The extracellular enzyme fraction ofT. reesei possessed greater hydrolytic power than that of IMB-Tr. However, when a combined enzyme preparation from the two organisms was used, an appreciable degree of synergism was observed; an increase in reducing sugars up to 39% was seen. The reducing sugar produced by enzymic hydrolysis was mainly glucose, xylose and cellobiose. Fermentation of a 4.8% (w/v) sugar hydrolysate (produced by the enzymic hydrolysis of rice straw) bySaccharomyces cerevisiae produced 10.7 g/l of ethanol compared to 18.8 g/l produced by the fermentation of 4.8% (w/v) pure glucose.

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Resumen Se ha aíslado a partir de paja de arroz una cepa deTrichoderma sp. (IMB-Tr) que posee actividades celulolíticas y xilanolíticas comparables a las deTrichoderma reesei QM 9414 (un hongo probadamnete celulolítico). IMB-Tr produjo 2.9 y 1.9 veces más actividad -glucosidásica queT. reesei cuando ambos se hicieron crecer en celulosa microcristalina y en paja de arroz respectivamente. El porcentaje de hidrolisis enzimática se incrementó con el aumento en la concentración del hidróxido sódico empleado en el pretratamiento de la paja de arroz y con el aumento de la concentración enzimática utilizada en la hidrolisis. La fracción extracelular enzimática deT. reesei poseía un mayor poder hidrolítico que la de IMB-Tr, sin embargo cuando se usó un preparado enzimático combinado de ambos microorganismos se obtuvo un apreciable efecto sinérgico, observándose un incremento de hasta un 39% de los azucares reductores producidos. Estos azucares fueron principalmente glucosa, xilosa y celobiosa. La fermentación de un 4.8% (p/v) del hidrolisado azucarado (producido por la hidrolisis enzimática de la paja de arroz) porSaccharomyces cerevisiae produjo 10.7 g/l de etanol comparado a 18.8 g/l obtenidos de la fermentación de 4.8% (p/v) de glucosa pura.

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Résumé Une souche deTrichoderma sp. (IMB-Tr), isolée à partir de paille de riz, a une activité cellulolytique et xylanolytique comparable à celle deTrichoderma reesei QM 9414 (champignon cellulolytique reconnu). L'activité -glucosidase d'IMB-Tr cultivé sur cellulose micro-cristalline ou sur paille de riz est, respectivement, 2.9 et 1.9 fois plus élevée que celle deT. reesei. Le pourcentage d'hydrolyse enzymatique croit avec la concentration de la soude employée pour le pré-traitement de la paille et avec la concentration d'enzyme utilisée pour l'hydrolyse. La fraction exocellulaire de l'enzyme a une activité hydrolysante plus élevée dans le cas deT. reesei que dans celui de IMB-Tr. Cependant, si on emploie un mélange des activités enzymatiques des deux organismes, on constate une nette synergie et un accroissement des sucres réducteurs allant jusqu'à 39%. Les sucres réducteurs obtenus par hydrolyse enzymatique comprennent principalement du glucose, du xylose et du cellobiose. La fermentation parSaccharomyces cerevisiae d'un hydrolysat enzymatique de paille de riz contenant 4.8% (poids/vol.) de sucres fournit 10.7 g/l d'éthanol, au lieu de 18.8 g/l obtenus par fermentation de glucose pur à la même concentration.

     

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.     

Formation and release of cellulolytic enzymes during growth of Trichoderma reesei on cellobiose and glycerol

Summary Production and release of cellulolytic enzymes by Trichoderma reesei QM 9414 were studied under induced and non-induced conditions. For that purpose, a method was developmed to produce cellulases by Trichoderma reesei QM 9414 using the soluble inducer, cellobiose, as the only carbon source. The production was based on continuous feeding of cellobiose to a batch culture. For optimum production, the cellobiose supply had to be adjusted according to the consumption so that cellobiose was not accumulated in the culture. With a proper feeding program the repression and/or inactivation by cellobiose could be avoided and the cellulase production by Trichoderma reesei QM 9414 was at least equally as high as with cellulose as the carbon source.During the cultivation, specific activities against filter paper, carboxymethyl cellulose (CMC) and p-nitrophenyl glucoside were analyzed from the culture medium as well as from the cytosol and the cell debris fractions. There was a base level of cell debris bound hydrolytic activity against filter paper and p-nitrophenyl glucoside even in T. reesei grown non-induced on glycerol. T. reesei grown on cellobiose was induced to produce large amounts of extracellular filter paper and CMC hydrolyzing enzymes, which were actively released into the medium even in the early stages of cultivation. -Glucosidase was mainly detected in the cell debris and was not released unless the cells were autolyzing.     

Cellobiohydrolase II is the main conidial-bound cellulase in Trichoderma reesei and other Trichoderma strains

Monoclonal antibodies have been used to determine the presence of cellobiohydrolases I and II (CBH I and II), and endoglucanase I (EG I) on the surface of conidia from Trichoderma reesei QM 9414 and RUT C-30, and 8 other Trichoderma species. For this purpose, proteins were released from the conidial surface by treatment with a non-ionic detergent (Triton X-100 and -octylglucoside), followed by SDS-PAGE/Western blotting and immunostaining. Both CBH I and II were clearly present, but — unlike in extracellular culture fluids from Trichoderma — CBH II was the predominant cellulase. In T. reesei EG I could not be detected. The higher producer strain T. reesei RUT C-30 exhibited a higher conidial level of CBH II than T. reesei QM 9414. In order to assess the importance of the conidial CBH II level for cellulase induction by cellulose, multiple copies of the chb2 gene were introduced into the T. reesei genome by cotransformation using PyrG as a marker. Stable multicopy transformants secreted the 2- to 4-fold level of CBH II into the culture medium when grown on lactose as a carbon source, but their CBH I secretion was unaltered. Upon growth on cellulose, both CBH I and CBH II secretion was enhanced. Those strain showing highest cellulase activity on cellulose also appeared to contain the highest level of conidial bound CBH II. CBH II was also the predominant conidial cellulase in various other Trichoderma sp. However, roughly the same amount of conidial bound CBH II was detected in all strains, although their cellulase production differed considerably.     

Ultrastructural localization of cellular compartments involved in secretion of the low molecular weight,alkaline xylanase by Trichoderma reesei

The intracellular location of the low-molecular weight, alkaline xylanase (XYN II) of Trichoderma reesei RUT C-30 was investigated during growth on xylan, using immunoelectron microscopy. A monoclonal antibody, produced against XYN II, was used for this purpose. The enzyme was found at the endoplasmic reticulum and in electron dense 0.2 to 0.8 m vesicles, as well as in the vacuole, at the plasma membrane and in the fungal cell-wall. No staining occured in the cytoplasm, the mitochondria and the nucleus. No Golgi-like structures could be seen. Addition of the carboxylic ionophore monensin blocked xylanase as well as total protein secretion. The results are discussed with respect to XYN II being secreted by T. reesei via a pathway involving the endoplasmic reticulum and secretory vesicles and/or the vacuole.     

Purification,and characterization of a β-mannanase of Trichoderma reesei C-30

Trichoderma reesei was studied for its ability to produce -mannanase activity on a variety of carbon sources. The highest -mannanase activity was produced on cellulose, whereas -mannan-containing carbon sources (such as kojac powder or locust bean gum) gave lower enzyme titres. The enzyme responsible for the major -mannanolytic activity from T. reesei was purified to physical homogeneity by preparative chromatofocusing and anion exchange fast protein liquid chromatography. This -mannanase is a glycoprotein, with a molecular mass of 46 (±2) kDa and an isoelectric point of 5.2. It has an optimal pH at 5.0 and broad pH stability (2.5–7.0). It is stable for 60 min at 55° C, and has an optimal temperature for activity at 75° C. During incubation with locust bean gum, the enzyme releases mainly tri- and disaccharides. Correspondence to: C. P. Kubicek     

Production of endo-1,4-β-glucanase and xylanase by Trichoderma reesei immobilized on polyurethane foam

Summary Endo-1,4--glucanase and xylanase were produced by Trichoderma reesei immobilized on polyurethane foam using lactose as the main carbon source. The most porous carrier was found to be the best of those tested. The nitrogen source and KH₂PO₄ concentration of the production medium had a marked effect on culture pH during the course of fermentation and, consequently, on xylanase activity. An increase in lactose concentration from 7 to 27 g/l resulted in an increase in endoglucanase activity (max. 730 U/ml), xylanase activity (max. 3350 U/ml) and filter paper activity (max. 3.0 FPU/ml).     

Specificity of cellulase and β-xylanase induction in Trichoderma reesei QM 9414

Cellulose- and xylan-degrading enzymes of Trichoderma reesei QM 9414 induced by, sophorose, xylobiose, cellulose and xylan were analyzed by isoelectric focusing. The sophorose-induced enzyme system contained two types of endo-1,4--glucanases (EC 3.2.1.4), one specific for cellulose and the other non-specific, hydrolyzing both cellulose and xylan, and exo-1,4--glucanases (cellobiohydrolases I, EC 3.2.1.91), i.e. all types of glucanases that are produced during growth on cellulose. Specific endo-1,4--xylanases (EC 3.2.1.8) present in the cellulose-containing medium were less abundant in the sophorose-induced enzyme system. Xylobiose and xylan induced only specific endo-1,4--xylanases. It is concluded that syntheses of cellulases and -xylanases in T. reesei QM 9414 are under separate control and that the non-specific endo-1,4--glucanases are constituents of the cellulose-degrading enzyme system.     

Production of Trichoderma strains with pesticide-polyresistance by mutagenesis and protoplast fusion

The sensitivity of two cold-tolerant Trichoderma strains belonging to the species T. harzianum and T.␣atroviride was determined to a series of pesticides widely used in agriculture. From the 16 pesticides tested, seven fungicides: copper sulfate, carbendazim, mancozeb, tebuconazole, imazalil, captan and thiram inhibited colony growth of the test strains significantly with minimal inhibitory concentrations of 300, 0.4, 50, 100, 100, 100 and 50 g/ml, respectively. Mutants resistant to carbendazim and tebuconazole were produced from both wild type strains by means of UV-mutagenesis. The cross-resistance capabilities and in␣vitro antagonistic properties of the mutants were determined. Carbendazim-resistant mutants showed total cross-resistance to benomyl and thiabendazole at a concentration of 20 g/ml. Intraspecific protoplast fusion was carried out between carbendazim- and tebuconazole-resistant mutants of both parental strains, and putative haploid recombinants with stable resistance to both pesticides were produced in the case of T.␣atroviride. These pesticide-polyresistant progenies are potential candidates for application in an integrated pest management system.This work was presented as an oral lecture in section ‘Agriculture, Soil, Forest Microbiology’ at the BioMicroWorld2005 conference.     

Factors affecting formation of micronucleus-like structures after colchicine treatment of Trichoderma reesei

Micronucleus-like structures were produced in Trichoderma reesei only when 0.1% colchicine treatment was used to enhance nuclear division. The average DNA content of these small nuclei was 30% that of the normal nuclei, indicating that they were aneuploid nuclei. Such small nuclei may be useful in transferring small amounts of DNA into protoplasts.The authors are with the Department of Food Technology, Faculty of Horticulture, Minamikyushu University, Takanabe-Cho, Hibarigaoka, Miyazaki 884, Japan;     

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     

Choline stimulates synthesis of extracellular proteins in Trichoderma reesei QM 9414

A correlation between intracellular phospholipid levels and the rate of exoprotein synthesis was investigated in the filamentous fungus Trichoderma reesei QM 9414 during growth on cellulose. When the incubation temperature was varied between 20 and 37°C, the exoprotein synthesis rate correlated with the total cellular amount of phospholipids, but not with an individual phospholipid component. In contrast, when phospholipid bases were added exogenuously, a significant stimulation of exoprotein synthesis was observed with choline. The addition of the surfactant Tween 80—which also stimulates exoprotein secretion in T. reesei QM 9414—prevented choline stimulation. Optimal stimulation occurred around 20 mM choline. Choline stimulated exoprotein synthesis in general as shown by increased activities of several extracellular enzymes. Mycelia required preincubation for at least 20 h before stimulation of choline could be seen. Mycelia pregrown in the absence or presence of choline were equally effective in formation of -glucosidase upon induction with methyl--d-glucoside, and the addition of choline to the induction medium had no effect. Choline did not alter the osmotic stability of protoplasts of T. reesei. Electron microscopic examinations and analysis of chemical constituents as well as marker enzymes from choline grown and non-choline grown mycelia revealed higher contents of mitochondria and endoplasmic reticula in choline grown mycelia. The possibility is discussed that choline may stimulate exoprotein synthesis by increasing the cellular content of endoplasmic reticula.     

Analysis of a Candida albicans gene that encodes a novel mechanism for resistance to benomyl and methotrexate

Summary The pathogenic yeast, Candida albicans, is insensitive to the anti-mitotic drug, benomyl, and to the dihydrofolate reductase inhibitor, methotrexate. Genes responsible for the intrinsic drug resistance were sought by transforming Saccharomyces cerevisiae, a yeast sensitive to both drugs, with genomic C. albicans libraries and screening on benomyl or methotrexate. Restriction analysis of plasmids isolated from benomyl- and methotrexate-resistant colonies indicated that both phenotypes were encoded by the same DNA fragment. Sequence analysis showed that the fragments were nearly identical and contained a long open reading frame of 1694 bp (ORF1) and a small ORF of 446 bp (ORF2) within ORF1 on the opposite strand. By site-directed mutagenesis, it was shown that ORF1 encoded both phenotypes. The protein had no sequence similarity to any known proteins, including -tubulin, dihydrofolate reductase, and the P-glycoprotein of the multi-drug resistance family. The resistance gene was detected in several C. albicans strains and in C. stellatoidea by DNA hybridization and by the polymerase chain reaction.     

Effects of Antioxidants on Regeneration of Protoplasts of the Filamentous Fungus Trichoderma reesei6/16

The relative content of antioxidants in the mycelium of Trichoderma reesei 6/16 obtained by propagation of fungal protoplasts was shown to decrease (as compared to the initial culture taken for preparation of protoplasts) and restored only in the second generation of regenerated mycelium. In this respect, the effects of various antioxidants (-carotene, ascorbic acid, -tocopherol, and ionol) on the frequency of regeneration of T. reesei 6/16 protoplasts were studied. -Carotene increased the viability of fungal protoplasts to the greatest extent. The effect of ascorbic acid depended on the presence of Fe ions. Ionol did not cause any measurable protective effect.     

Cellulase and Xylanase Production by the Mexican Strain <Emphasis Type="Italic">Talaromyces stollii</Emphasis> LV186 and Its Application in the Saccharification of Pretreated Corn and Sorghum Stover

A Mexican strain of Talaromyces stollii LV186 was isolated from decaying pretreated corn stover. The production of cellulase and xylanase enzyme cocktails was evaluated with corn and sorghum stover used as inducers in a mineral medium. The volumetric and specific activities of T. stollii LV186 were compared with the values produced by Trichoderma reesei ATCC 26921 in a time-course experiment. After the submerged culture and a posterior ultrafiltration stage, the enzyme complexes were evaluated over acid-pretreated corn or sorghum stover in baffled flasks under controlled temperature and agitation conditions, and hydrolysis levels of 30 and 39 % of the theoretical maximum were obtained after only 72-h reactions, for each substrate. A side-by-side comparison showed a better ratio of endoglucanase to cellobiohydrolase to β-glucosidase and of xylanase to β-xylosidase enzymes in T. stollii than in T. reesei ATCC 26921. Furthermore, the hydrolysis of pretreated corn and sorghum stover achieved by T. stollii is significantly higher compared with that of a commercial cocktail from T. reesei ATCC 26921 (Celluclast). Therefore, the T. stollii LV186 strain is a good candidate for the hydrolysis of complex lignocellulose substrates. To the authors’ knowledge, this study is the first to describe the cellulolytic and hemicellulolytic activities produced by a T. stollii strain.     

Production of cellulases by a wild strain of Gliocladium virens: optimization of the fermentation medium and partial characterization of the enzymes

Summary The medium composition was optimized on a shake-flash scale for production of cellulases by Gliocladium virens using the Graeco-Latin square technique. With the optimized medium 0.33 units of filter paper (FP)-cellulase, 1.52 units of -glucosidase, and 30.45 units of xylanase were produced per millilitre of culture filtrate at 120 h of fermentation. In a laboratory fermentor the lag phase was much reduced and 0.25 units of FP-cellulase, 0.77 units of -glucosidase, and 24.04 units of xylanase were obtained per millilitre of culture filtrate at 39 h. Characterization of the enzymes with respect to pH and temperature optima, and pH and heat stabilities indicated that cellulases and xylanase of G. virens have properties comparable to those of Trichoderma reesei and some other fungi.Dedicated to Prof. Dr. R. M. Lafferty on the occasion of his 60th birthday     

A comparison between the cellulase systems of Trichoderma harzianum E58 and Trichoderma reesei C30

Summary Nearly all of the filter paper, endoglucanase and -glucosidase activities of T. harzianum E58 were located extracellularly, with low amounts of these activities detected in the cell extracts and relatively little associated with the cell wall. Most of the filter paper and endoglucanase activities of T. reesei C30 were detected extracellularly. The half lives of the different cellulase activities were assayed at various temperatures over a period of time. When the pH of the filtrate was adjusted to 4.8, the cellulase activities were considerably enhanced, with the average half-life at 50°C extended to 25 hrs. When various lignocellulosic substrates were hydrolyzed by T. harzianum E58 cellulases approximately 90% of the reducing sugars were present as glucose while 50–60% of the reducing sugars were detected as glucose when T. reesei C30 cellulases were used.