The overexpression of one single cbh gene making Trichoderma asperellum T-1 a better cellulase producer

Trichoderma asperellum T-1, a traditional bio-control strain, is previously found to be potentially useful in the degradation of natural waste lignocellulose as it can ferment the natural materials without pretreatment. Many problems caused by substrate pretreatment can be therefore avoided. In this study, we intended to engineer a new strain to enhance its lignocellulose degradation ability by modifying the genome of T. asperellum T-1. A genetic transformation system mediated by Agrobacterium tumefaciens AGL-1 (ATMT) was constructed on T. asperellum T-1. On this basis, the overexpressed strain was produced by transforming a recombinant cellobiosidase gene (cbh) under the control of inducible promoter of endo-1, 4-β-xylanase gene, into wild-type T. asperellum T-1. After resistance screening, multiple transmission, growth comparison, and enzyme activity determination, four transformants (M1, M2, M5, and M6) were obtained. Filter paper cellulase activity of these transformants reached, respectively, 36.2%, 30.6%, 32.9%, and 42.7% higher than the wild-type strain. Most importantly, the CMCase, β-glucosidase and xylanase activity were also increased, although only one cbh gene was overexpressed. This work indicated that the enhancement of cellulase production ability of T. asperellum T-1 can be promisingly feasible by genetic modification. And the xylanase gene’s promoter can be effectively used in genetic modification to promote T. asperellum T-1 to be more effectively used in lignocellulose degradation.     

Extracellular hydrolase profiles of fungi isolated from koala faeces invite biotechnological interest

The extracellular enzymes of seven fungal strains isolated from koala faeces have been comprehensively characterised for the first time, revealing potential for biotechnological applications. The fungal isolates were grown in a hydrolase-inducing liquid medium and the supernatants were analysed using enzyme assays and zymogram gels. Temperature and pH profiles were established for xylanase (EC 3.2.1.8 endo-1,4-β-xylanase), mannanase (EC 3.2.1.78 mannan endo-1,4-β-mannosidase), endoglucanase (EC 3.2.1.4 cellulase), β-glucosidase (EC 3.2.1.21 β-glucosidase), amylase (EC 3.2.1.1 α-amylase), lipase (EC 3.1.1.3 triacylglycerol lipase) and protease (EC 3.4 peptidase) activities. Comparisons were made to the high-secreting hypercellulolytic mutant strain Trichoderma reesei RUT-C30 and the wild-type T. reesei QM6a. The isolates from koala faeces Gelasinospora cratophora A10 and Trichoderma atroviride A2 were good secretors of total protein and heat-tolerant enzymes. Doratomyces stemonitis C8 secreted hemicellulase(s), endoglucanase(s) and β-glucosidase(s) with neutral to alkaline pH optimums. A cold-tolerant lipase was secreted by Mariannaea camptospora A11. The characteristics displayed by the enzymes are highly sought after for industrial processes such as the manufacture of paper, detergents and food products. Furthermore, the enzymes were produced at good starting levels that could be increased further by strain improvement programs.     

Mutants of the white-rot fungus Sporotrichum pulverulentum with increased cellulase and β-d-glucosidase production

This paper reports the isolation of mutants of the white-rot fungus Sporotrichum pulverulentum and the results of a survey of enzymic activity among these mutants. The strains were screened for extracellular cellulase [see 1,4-(1,3;1,4)-β-d-glucan 4-glucanohydrolase, EC 3.2.1.4] and β-d-glucosidase (β-d-glucoside glucohydrolase, EC 3.2.1.21) production in shake flask experiments. Apart from strain 63-2, strains 6, 63, 9, L5, E-1 and UV-18 showed equal or higher endo-1,4-β-d-glucanase (cellulase), filter paper-degrading and β-d-glucosidase activities than S. pulverulentum. The cellulase activity obtained, measured as filter paper activity, was comparable to that reported for Trichoderma reesei QM9414. However, the β-d-glucosidase activity was about six times higher than for the QM9414 strain. The pH and temperature-activity profiles of crude β-d-glucosidase preparations from the various strains were determined and were found to be identical. The thermal stability at pH 4.5 and 40°C was 5 days for all these preparations.     

Mutants of the white-rot fungus Sporotrichum pulverulentum with increased cellulase and β- -glucosidase production

This paper reports the isolation of mutants of the white-rot fungus Sporotrichum pulverulentum and the results of a survey of enzymic activity among these mutants. The strains were screened for extracellular cellulase [see 1,4-(1,3;1,4)-β- -glucan 4-glucanohydrolase, EC 3.2.1.4] and β- -glucosidase (β- -glucoside glucohydrolase, EC 3.2.1.21) production in shake flask experiments. Apart from strain 63-2, strains 6, 63, 9, L5, E-1 and UV-18 showed equal or higher endo-1,4-β- -glucanase (cellulase), filter paper-degrading and β- -glucosidase activities than S. pulverulentum. The cellulase activity obtained, measured as filter paper activity, was comparable to that reported for Trichoderma reesei QM9414. However, the β- -glucosidase activity was about six times higher than for the QM9414 strain. The pH and temperature-activity profiles of crude β- -glucosidase preparations from the various strains were determined and were found to be identical. The thermal stability at pH 4.5 and 40°C was 5 days for all these preparations.     

Probing the Role of Sigma π Interaction and Energetics in the Catalytic Efficiency of Endo-1,4-β-Xylanase

Chaetomium globosum endo-1,4-β-xylanase (XylCg) is distinguished from other xylanases by its high turnover rate (1,860 s⁻¹), the highest ever reported for fungal xylanases. One conserved amino acid, W48, in the substrate binding pocket of wild-type XylCg was identified as an important residue affecting XylCg''s catalytic efficiency.     

The production of highly effective enzyme complexes of cellulases and hemicellulases based on the Penicillium verruculosum strain for the hydrolysis of plant raw materials

Methods for the production and analysis of cellulase and hemicellulase enzyme preparations of various compositions based on the Penicillium verruculosum carbohydrase complex and intended for the effective hydrolysis of different types of cellulose-containing materials (CCMs) have been developed. New recombinant strains of P. verruculosum producing multienzyme carbohydrase complexes with increased activities of cellulases (due to the expression of endo-β-1,4-glucanases I and IV and cellobiohydrolase II from Trichoderma reesei) and hemicellulases (due to the expression of endo-β-1,4-xylanases from P. canescens and T. reesei and endo-β-1,4-mannanase from T. reesei) were constructed. The hydrolytic efficiency of the enzyme preparations (EPs) produced by the new recombinant strains during continuous hydrolysis of three CCM types (milled aspen, depitched pine wood, and milled bagasse) was studied. It was shown that new EPs containing recombinant proteins and retaining their own basic cellulase complex are characterized by the highest hydrolytic ability, exceeding that of the EP based on the original P. verruculosum strain. The recombinant enzyme preparations were highly stable; the optimal pH and temperature values for cellulase, xylanase and mannanase activities were in the range of 3.5–5.5 and 50–80°C, respectively.     

Formation and Location of 1,4-β-Glucanases and 1,4-β-Glucosidases from Penicillium janthinellum

Formation and location of 1,4-β-glucanases and 1,4-β-glucosidases were studied in cultures of Penicillium janthinellum grown on Avicel, sodium carboxymethyl cellulose, cellobiose, glucose, mannose, and maltose. Endo-1,4-β-glucanases were found to be cell free, and their formation was induced by cellobiose. 1,4-β-Glucosidases, on the other hand, were formed constitutively and were primarily cell free, but with a small amount strongly associated with the cell wall. Low 1,4-β-glucosidase activities of periplasmic or intracellular origin were also found. A rotational viscosimetric method was developed to measure the total endo-1,4-β-glucanase activity of the culture (broth and solids). By this method, it was possible to determine the endo-1,4-β-glucanase activity not only in the supernatant of the culture but also on the surface of the mycelium or absorbed on residual Avicel. During a 70-liter batch cultivation of P. janthinellum, the adsorption of endo-1,4-β-glucanases by residual and newly added 10% Avicel was measured. The adsorption of soluble protein and endo-1,4-β-glucanases by Avicel was found to be largely independent of the pH value but dependent on temperature.     

Production and Properties of Xylan-Degrading Enzymes from Cellulomonas uda

Xylan degradation and production of β-xylanase and β-xylosidase activities were studied in cultures of Cellulomonas uda grown on purified xylan from birchwood. β-Xylanase activity was found to be associated with the cells, although in various degrees. The formation of β-xylanase activity was induced by xylotriose and repressed by xylose. β-Xylosidase activity was cell bound. Both constitutive and inducible β-xylosidase activities were suggested. β-Xylanase and β-xylosidase activities were inhibited competitively by xylose. β-Xylanase activity had a pronounced optimum pH of 5.8, whereas the optimum pH of β-xylosidase activity ranged from 5.4 to 6.1. The major products of xylan degradation by a crude preparation of β-xylanase activity, in decreasing order of amount, were xylobiose, xylotriose, xylose, and small amounts of xylotetraose. This pattern suggests that β-xylanase activity secreted by C. uda is of the endosplitting type. Supernatants of cultures grown on cellulose showed not only β-glucanase but also β-xylanase activity. The latter could be attributed to an endo-1,4-β-glucanase activity which had a low β-xylanase activity.     

The glucose repressor genecre1 ofTrichoderma: Isolation and expression of a full-length and a truncated mutant form

Thecre1 genes of the filamentous fungiTrichoderma reesei andT. harzianum were isolated and characterized. The deduced CREI proteins are 46% identical to the product of the glucose repressor genecreA ofAspergillus nidulans, encoding a DNA-binding protein with zinc fingers of the C₂H₂ type. Thecre1 promoters contain several sequence elements that are identical to the previously identified binding sites forA. nidulans CREA. Steady-state mRNA levels forcre1 of theT. reesei strain QM9414 varied depending on the carbon source, being low on glucose-containing media. These observations suggest thatcre1 expression may be autoregulated. TheT. reesei strain Rut-C30, a hyperproducer of cellulolytic enzymes, was found to express a truncated form of thecre1 gene (cre1-1) with an ORF corresponding to a protein of 95 amino acids with only one zinc finger. Unlike QM9414 the strain Rut-C30 produced cellulase mRNAs on glucose-containing medium and transformation of the full-lengthcre1 gene into this strain caused glucose repression ofcbh1 expression, demonstrating thatcre1 regulates cellulase expression.     

Formation, Location, and Regulation of Endo-1,4-β-Glucanases and β-Glucosidases from Cellulomonas uda

The formation and location of endo-1,4-β-glucanases and β-glucosidases were studied in cultures of Cellulomonas uda grown on microcrystalline cellulose, carboxymethyl cellulose, printed newspaper, and some mono- or disaccharides. Endo-1,4-Glucanases were found to be extracellular, but a very small amount of cell-bound endo-1,4-β-glucanase was considered to be the basal endoglucanase level of the cells. The formation of extracellular endo-1,4-β-glucanases was induced by cellobiose and repressed by glucose. Extracellular endoglucanase activity was inhibited by cellobiose but not by glucose. β-Glucosidases, on the other hand, were formed constitutively and found to be cell bound. β-Glucosidase activity was inhibited noncompetitively by glucose. Some characteristics such as the optimal pH for and the thermostability of the endoglucanases and β-glucosidases and the end products of cellulose degradation were determined.     

Asparagine biosynthesis in soybean nodules

Two auxin-induced endo-1,4-β-glucanases (EC 3.2.1.4) were purified from pea (Pisum sativum L. var. Alaska) epicotyls and used to degrade purified pea xyloglucan. Hydrolysis yielded nonasaccharide (glucose/xylose/galactose/fucose, 4:3:1:1) and heptasaccharide (glucose/xylose, 4:3) as the products. The progress of hydrolysis, as monitored viscometrically (with amyloid xyloglucan) and by determination of residual xyloglucan-iodine complex (pea) confirmed that both pea glucanases acted as endohydrolases versus xyloglucan. K_m values for amyloid and pea xyloglucans were approximately the same as those for cellulose derivatives, but V_max values were lower for the xyloglucans. Auxin treatment of epicotyls in vivo resulted in increases in net deposits of xyloglucan and cellulose in spite of a great increase (induction) of endogenous 1,4-β-glucanase activity. However, the average degree of polymerization of the resulting xyloglucan was much lower than in controls, and the amount of soluble xyloglucan increased. When macromolecular complexes of xyloglucan and cellulose (cell wall ghosts) were treated in vitro with pea 1,4-β-glucanase, the xyloglucan component was preferentially hydrolyzed and solubilized. It is concluded that xyloglucan is the main cell wall substrate for pea endo-1,4-β-glucanase in growing tissue.     

Russian Article pp. 191–195

Three cellulase components and one xylanase of Trichoderma sp. M-17 have been immobilzed on a soluble high molecular weight polymer (PVA), using carbodiimide. The immobilized enzymes retained about 80% of the cellulase, cellulose 1,4-β-cellobiosidase, β-glucosidase and 60% endo-1,4-β-xylanase activities. The bound enzymes catalyzed the hydrolysis of alkali-treated cornstalks with a higher efficiency than the free cellulase. The potential for reutilization of the immobilized enzymes was studied using membrane filters and the system was found to be active for three cycles.     

Xylanase of the micromycete <Emphasis Type="Italic">Rhizopus</Emphasis> var. <Emphasis Type="Italic">microsporus</Emphasis> 595: Preparation,structural and functional characteristics,and application

Procedures for the production of endo-1,4-β-xylanase have been developed. An active producer—Rhizopus var. microsporus BKMF-595—has been chosen, and the conditions of surface and submerged cultivation, as well as the composition of the culture medium for this strain, have been optimized to ensure maximum yield of the target enzyme. Activity of xylomicrosporin Px equaled 123 U/g, while the activity of xylomicrosporin Gx equaled 25 U/cm³. Homogeneous enzyme preparations, purified 59.44-fold and 72.6-fold, have been obtained. The dependence of endo-1,4-β-xylanase catalytic activity on temperature and pH of the reaction medium has been studied. The enzyme has been shown to be most stable in the pH range 5.0–6.0 and to be thermostable. Amino acid composition and subunit structure of the enzyme were determined; the molecular masses of the subunits equaled 50 and 56 kDa. Carboxyl groups of glutamic and aspartic acid residues of the active center were experimentally shown to play an important role in catalysis. The potential of this enzyme for beer production has been demonstrated.     

Potential use of Trichoderma asperellum (Samuels,Liechfeldt et Nirenberg) T8a as a biological control agent against anthracnose in mango (Mangifera indica L.)

Twenty isolates of Trichoderma were obtained from orchards located in three main mango-producing States in Mexico: Chiapas, Oaxaca, and Michoacan, which represent different agronomical management practices and levels of soil fertility. Phylogenetic analysis showed that Trichoderma isolates belong to the following taxa: Hypocrea lixii (10 isolates), Hypocrea jecorina (four isolates), Trichoderma asperellum (three isolates), Trichoderma spirale (two isolates), and Trichoderma brevicompactum (one isolate). The genus Hypocrea is the teleomorph (sexual) stage of the genus Trichoderma, anamorph stage. Seventeen Trichoderma isolates showed at least 67% growth inhibition against the phytopathogenic fungus Colletotrichum gloeosporioides ATCC MYA 456 and three Trichoderma isolates showed complete overgrowth of this pathogen. One member of this group, identified as T. asperellum T8a, was able to control C. gloeosporioides ATCC MYA 456 in vitro and in vivo, as well as five C. gloeosporioides isolates obtained from mango orchards from the State of Oaxaca. Assay of the lytic enzymes involved suggest that cellulases of T. asperellum T8a play a role in biological control against C. gloeosporioides ATCC MYA 456 more than chitinase or glucanase. Thus, native T. asperellum T8a associated with mango trees can be used to enhance mango production, controlling anthracnose through cellulase activity.     

Cellulase, Fruit Softening and Abscission in Red RaspberryRubus idaeusL. cv Glen Clova

The ripening of raspberry fruit (Rubus ideausL. cv Glen Clova)is associated with a climacteric rise in ethylene production.As the fruit pigments change from green to red there is a progressivesoftening, loss of skin strength and a breakdown of cell wallsin the mesocarp. An increase in cellulase (endo-1,4-ß-D-glucanase)in both drupelets and receptacles accompanies these changes.The localization of cellulase in the regions of the fruit associatedwith abscission zones suggest the enzyme may be involved infruit separation as well as softening. Rubus idaeusL; raspberry; fruit ripening; ethylene; abscission; cell wall breakdown; cellulase; endo-1,4-ß-D-glucanase     

Screening of highly cellulolytic fungi and the action of their cellulase enzyme systems

Over 100 strains of wood-rotting fungi were compared for their ability to degrade wood blocks. Some of these strains were then assayed for extracellular cellulase [1,4-(1,3;1,4)-β- -glucan 4-glucanohydrolase, EC 3.2.1.4] activity using a variety of different solid media containing carboxymethyl cellulose or acid swollen cellulose. The diameter of clearing on these plates gave an approximate indication of the order of cellulase activities obtained from culture filtrates of these strains. Trichoderma strains grown on Vogels medium gave the highest cellulase yields. The cellulase enzyme production of T. reesei C30 and QM9414 was compared with that of eight other Trichoderma strains. Trichoderma strain E58 had comparable endoglucanase and filter paper activities with the mutant strains while the β- -glucosidase [β- -glucoside glucohydrolase, EC 3.2.1.21] activity was approximately six to nine times greater.     

Expression of multi-functional cellulase gene mfc in Coprinus cinereus under control of different basidiomycete promoters

Multi-functional cellulase gene mfc was expressed in Coprinus cinereus under naturally non-inductive conditions using three heterologous promoters. Endo-β-1,4-glucanase expression was achieved in solid and liquid media with promoter sequences from the Lentinula edodesgpd gene, the Flammulina velutipes gpd gene and the Volvariella volvaceagpd gene. As measured by enzyme activity in liquid cultures, a 613-bp gpd promoter fragment from L. edodes was most efficient, followed by a 752-bp gpd fragment from F. velutipes. The V. volvacea gpd promoter sequence was less active, in comparison. Irrespective of the promoter used, enzymatic activities increase 34-fold for highly active transformants and 29-fold for less active one by using cellulase-inducing medium. The highest activities of endo-β-1,4-glucanase (34.234 U/ml) and endo-β-1,4-xylanase (263.695 U/ml) were reached by using the L. edodesgpd promoter.