Metabolism of Acetivibrio cellulolyticus during optimized growth on glucose,cellobiose and cellulose

Summary The growth of Acetivibrio cellulolyticus in 2.5 l batch cultures was optimized by controlling the growth pH at 6.7, the dissolved inorganic sulphide concentration at 0.4–0.6 mM, and by constant removal of hydrogen from the cultures by sparging with N₂/CO₂ or N₂ gas. An initial ethanol concentration of 0.15% (w/v) in cellobiose media resulted in specific growth rates which were reduced by about 75% compared to growth rates of 0.17 h^–1 in control cultures. Acetivibrio cellulolyticus had to be adapted for growth on glucose and ¹⁴C-radiotracer studies indicated that glucose was metabolized by the Embden-Meyerhof pathway. The specific growth rate (=0.03h^–1) and molar growth yield (Y_glucose=21.5) were considerably lower than those obtained (=0.17 h^–1, Y_cellobiose=68.9) in cellobiose media. A Y_ATP of 12.8 was obtained during growth on cellobiose. The mol product formed per mol Avicel cellulose fermented (on anhydroglucose equivalent basis) were 3.70 H₂, 2.64 CO₂, 0.73 acetate, 0.39 ethanol and 0.03 total soluble sugars on glucose basis. Maximum cellulase activity was observed in cellulose-grown cultures.National Research council of Canada No. 20826     

Addition of aluminum oxide microparticles to Trichoderma viride My preculture enhances cellulase production and influences fungal morphology

Morphological engineering techniques have recently become popular, since they are used to increase the production of a variety of metabolites and enzymes when fungi are grown in submerged cultures. This study aimed to facilitate cellulase production by adding aluminum oxide to Trichoderma viride My precultures.

The results showed that the highest cellulase activity was achieved when aluminum oxide at 10 g/L was used, and the activities of cellulase for filter paper and endoglucanase activity assays increased from 519.11 to 607.35 U/mL by 17.1%, and from 810.08 U/mL to 917.59 U/mL by 13.3%, compared with the control, respectively. Addition of aluminum oxide decreased the size of T. viride My pellets and increased the final pH. The changes in pellet diameter after the addition of different concentrations of aluminum oxide were fitted using a modified exponential decay model, which could precisely predict the pellet size by controlling aluminum oxide concentration.

The optimum concentration of microparticles, and therefore pellet size, could significantly improve cellulase production, which is an encouraging step towards commercial cellulase production.

     

The role of cellulase in hormonal regulation of shoot morphogenesis in tobacco callus

A polyclonal antibody raised against cellulase (EC 3.2.1.4.) from callus ofNicotiana tabacum L. cv. Petit Havana SR1 reduced cellulase activity and induced shoot formation in tobacco callus in the presence of callus maintaining concentrations of auxin and cytokinin. Shoot induction as well as reduction of the cellulase activity was also obtained by withdrawing auxin from the callus medium. The effect of the two hormones on cellulase activity in the tobacco tissue was examined by varying the concentration of one of the hormones -naphthylacetic acid (NAA) or benzylaminopurine (BAP) at a time while the other was kept at a level sufficient for either callus growth or shoot induction. While NAA stimulated the enzyme activity increasingly with concentration in the range 5 × 10^–7 M to 5 × 10^–5 M at both levels of BAP, BAP only stimulated the cellulase activity at an optimum concentration of 5 × 10^–6 M when NAA was present at a level sufficient to induce callus growth. The results point to a pivotal role of the downward regulation of cellulase in the initiation of shoot induction. A series of events leading to oriented cell divisions as a result of the lowered cellulase level during the initial phase of the morphogenetic process is discussed.Abbreviations Ab Purified cellulase antibody - BAP benzylaminopurine - MS Murashige and Skoog medium - NAA -naphthylacetic acid - PS Purified preimmune serum We thank Mr. Poul Fabech for constructing the automatic viscosimetric equipment and Mr. Hans Hjorth for making the computer programme. This work was supported by The Danish Veterinary and Agricultural Research Council.     

Production of cellulolytic enzymes by Fusarium species

Production of extracellular cellulase by an isolate of a Fusarium sp. has been studied in shake cultures, and sequential appearance of cellulase components (- glucosidase on the first day, endo--glucanase on second day and exo--glucanase on the third day of growth on insoluble cellulose) was observed. Maximum production of all these components was achieved on the fifth day. The Fusarium produced significantly higher -glucosidase within a short period of time as compared with Trichoderma reesei. The influence of different nitrogen and carbon sources on cellulase has been investigated. Crude cellulolytic enzyme was used for hydrolysis of common agricultural wastes both with and without sodium hydroxide pretreatment. Analysis of hydrolysates indicated glucose as the major constituent (about 83% of total reducing sugar).     

Hydrolytic properties of extracellular cellulases fromPleurotus ostreatus

Pleurotus ostreatus mycelium produced extracellular cellulases when grown on ground wheat straw. No cellulase activity was detectable when glucose or aqueous extracts of vegetable material were used as substitutes for straw in culture media. The specific activity of excreted cellulases did not vary significantly by increasing the straw concentration from 1 to 6%. Chromatographic fractionation of extracellular proteins gave rise to five fractions with cellulolytic activity. The hydrolytic properties of these partially purified fractions were analysed by using several substrates (carboxymethylcellulose, cellobiose,p-nitrophenyl--d-cellobioside,p-nitrophenyl--d-lactoside). The results indicate that the cellulase system ofP. ostreatus includes at least a -glucosidase, two endocellulases, an exoglucohydrolase and an exocellobiohydrolase.     

Induction of glycanolytic activities by Streptomyces sp. QM-B814 growing on different glucopolymers

The actinomycete Streptomyces sp. QM-B814 is able to use polymeric glucans as sole carbon source by the induction of specific extracellular enzymatic systems. Carboxymethylcellulose and barley -glucan were the most effective inducers of endoglucanase activities towards -(1,4) and mixed -(1,3)-(1,4) linkages. Avicelase activity was induced by Avicel and carboxymethylcellulose. The higher activity towards filter paper (cellulase) was measured in cultures growing in Avicel, carboxymethylcellulose, and barley -glucan. Laminarinase activity was induced only by laminarin and lichenan failed to induce significant activity levels against any of the substrates tested.     

The impact of a single-nucleotide mutation of <Emphasis Type="Italic">bgl2</Emphasis> on cellulase induction in a <Emphasis Type="Italic">Trichoderma reesei</Emphasis> mutant

Background

The filamentous fungus Trichoderma reesei (anamorph of Hypocrea jecorina) produces increased cellulase expression when grown on cellulose or its derivatives as a sole carbon source. It has been believed that β-glucosidases of T. reesei not only metabolize cellobiose but also contribute in the production of inducers of cellulase gene expression by their transglycosylation activity. The cellulase hyper-producing mutant PC-3-7 developed in Japan has enhanced cellulase production ability when cellobiose is used as the inducer. The comparative genomics analysis of PC-3-7 and its parent revealed a single-nucleotide mutation within the bgl2 gene encoding intracellular β-glucosidase II (BGLII/Cel1a), giving rise to an amino acid substitution in PC-3-7, which could potentially account for the enhanced cellulase expression when these strains are cultivated on cellulose and cellobiose.

Results

To analyze the effects of the BGLII mutation in cellulase induction, we constructed both a bgl2 revertant and a disruptant. Enzymatic analysis of the transformant lysates showed that the strain expressing mutant BGLII exhibited weakened cellobiose hydrolytic activity, but produced some transglycosylation products, suggesting that the SNP in bgl2 strongly diminished cellobiase activity, but did not result in complete loss of function of BGLII. The analysis of the recombinant BGLII revealed that transglycosylation products might be oligosaccharides, composed probably of glucose linked β-1,4, β-1,3, or a mixture of both. PC-3-7 revertants of bgl2 exhibited reduced expression and inducibility of cellulase during growth on cellulose and cellobiose substrates. Furthermore, the effect of this bgl2 mutation was reproduced in the common strain QM9414 in which the transformants showed cellulase production comparable to that of PC-3-7.

Conclusion

We conclude that BGLII plays an important role in cellulase induction in T. reesei and that the bgl2 mutation in PC-3-7 brought about enhanced cellulase expression on cellobiose. The results of the investigation using PC-3-7 suggested that other mutation(s) in PC-3-7 could also contribute to cellulase induction. Further investigation is essential to unravel the mechanism responsible for cellulase induction in T. reesei.

     

Anaerobic digestion of cellulose by pure and mixed bacterial cultures

Summary By enrichment technique, nine anaerobic mixed bacterial cultures were isolated, five of which showed stable cellulolysis. All cultures fermented cellulose and produced different fermentative products. Mixed culture BOC 25 yielded major levels of acetate and ethanol (39.6 and 12.0 mmol/l, respectively) and minor levels of propionate (2.5 mmol/l) and digested filter paper cellulose to the extent of 32.5% w/v. BOC 25 digested cellulosic and lignocellulosic substrates and produced filter paper cellulase, carboxymethyl cellulase, Avicelase and -glucosidase. Strain DC 25, a cellulolyticClostridium was purified from one of the mixed cultures. The fermentation products of DC 25 from cellulose, cellobiose or glucose were ethanol, acetate, formate, H₂ and CO₂.     

Production and activity of Thermomonospora curvata cellulases on protein-extracted lucerne fibers

Summary Protein-extracted lucerne fibre (PELF) was evaluated as a carbon/energy source for cellulase production by Thermomonospora curvata and as a substrate for enzymatic conversion to soluble sugars. In shake cultures grown at 53°C, pH 8, maximal cellulase (50 endoglucanase IU and 0.7 filter paper IU/ml) was attained at a PELF concentration of 1.3% (w/v) in a vitamin-mineral salts medium buffered with 0.05 M concentrations of phosphate and N-2-hydroxyethylpiperazine-N-2-ethanesulfonate. Multiple endoglucanase enzymes were produced. The major form had an apparent molecular weight of 22 000 and K _m values of 0.23% and 0.56% for carboxymethylcellulose and PELF respectively. NaOH treatment of PELF increased its susceptibility to enzymatic hydrolysis. During enzymatic hydrolysis of NaOH-treated PELF (60°C, pH 6.1, 24h) two-thirds of total fibre carbohydrate was solubilized as cellobiose, melibiose, cellopentaose, cellotetraose, xylose and glucose in descending order of concentration.     

Carboxymethylcellulase and avicelase activities from a cellulolytic Clostridium strain A11

The extracellular cellulase enzyme system of Clostridium A11 was fractionated by affinity chromatography on Avicel: 80% of the initial carboxymethylcellulase (CMCase) activity was adhered. This cellulase system was a multicomponent aggregate. Several CMCase activities were detected, but the major protein P1 had no detectable activity. Adhered and unadhered cellulases showed CMCase activity with the highest specific activity in Avicel-adhered fraction. However, only afhered fractions could degrade Avicel. Thus, efficiency of the enzymatic hydrolysis of Avicel was related to the cellulase-adhesion capacity. Carboxymethylcellulase and Avicelase activities were studied with the extracellular enzyme system and cloned cellulases. Genomic libraries from Clostridium A11 were constructed with DNA from this Clostridium, and a new gene cel1 was isolated. The gene(s) product(s) from cel1 exhibited CMCase and p-nitrophenylcellobiosidase (pNPCbase) activities. This cloned cellulase adhered to cellulose. Synergism between adhered enzyme system and cloned endoglucanases was observed on Avicel degradation. Conversely, no synergism was observed on CMC hydrolysis. Addition of cloned endoglucanase to cellulase complex led to increase of the V_max without significant K _m variation. Cloned endoglucanases can be added to cellulase complexes to efficiently hydrolyze cellulose.     

Cellulolytic and physiological properties of Clostridium thermocellum

Three strains of Clostridium thermocellum obtained from various sources were found to have nearly identical deoxyribonucleic acid guanosine plus cytosine contents that ranged from 38.1–39.5 mole-%. All strain examined fermented only cellulose and cellulose derivatives, but not glucose, or xylose or other sugars. The principal cellulose fermentation products were ethanol, lactate, acetate, hydrogen and carbon dioxide. Growth of C. thermocellum on cellulose resulted in the production of extracellular cellulase that was non-oxygen labile, was thermally stable at 70° C for 45 min and adsorbed strongly on cellulose. Production of cellulase during fermentation correlated linearly with growth and cellulose degradation. Both the yield and specific activity of crude cellulase varied considerably with the specific growth substrates. Highest cellulase yield was obtained when grown on native cellulose, -cellulose and low degree of polymerization cellulose but not carboxymethylcellulose or other carbohydrate sources. Cellulase activity was not detected when cells were grown on cellobiose. Crude extracellular protein preparations lacked proteolytic and cellobiase activity. The pH and temperafure optima for endoglucanase activity were 5.2 and 65° C, respectively, while that of the exoglucanase activity were 5.4 and 64° C, respectively. The specific activity at 60° c for exoglucanase and endoglucanase of crude cellulase obtained from cells grown on cellulose (MN 300) was 3.6 moles reducing sugar equivalents released per h (unit)/mg of protein and 1.5 mole reducing sugar equivalent released per min (unit)/mg of protein, respectively. The yield of endoglucanase was 125 units per g of cellulose MN 300 degraded and that of exoglucanase was 300 units per g of cellulose MN 300 degraded. Glucose and cellobiose were the hydrolytic end products of crude cellulase action on cellulose, cellotraose and cellotriose in vitro.     

The anaerobic fungus Neocallimastix frontalis: isolation and properties of a cellulosome-type enzyme fraction with the capacity to solubilize hydrogen-bond-ordered cellulose

Summary A minor component isolated from the extra-cellular cellulase of the anaerobic rumen fungus Neocallimastix frontalis by adsorption on cellulose had a remarkable capacity to degrade crystalline hydrogen-bond-ordered cellulose. When produced in a semi-defined medium the component comprised normally less than 4% of the total protein and only 0.3% of the protein in cultures containing rumen fluid. The minor component showed endoglucanase (carboxymethylcellulase) and -glucosidase activity and effected the extensive hydrolysis of crystalline cellulose in the form of the cotton fibre when acting alone. Glucose was the sole product of hydrolysis. The specific activity of the crystalline cellulose solubilizing factor (CCSF) in degrading cotton fibre was much higher than any other cellulase or cellulase component reported so far. The activity of the CSSF to crystalline hydrogen-bond-ordered cellulose resides in a high molecular mass complex of 670 kDa, that comprised a number of subunits ranging in size from 68 to 135 kDa. Offprint requests to: T. M. Wood     

Inhibitors of Trichoderma reesei β-glucosidase activity derived from autohydrolysis-exploded Eucalyptus regnans

Summary Enzymic saccharification of Eucalyptus regnans pulps pretreated by autohydrolysis-steam explosion resulted in low cellulose conversions into glucose when using trichodermal cellulase preparations. The reduced levels of glucose were attributable to the production of compounds during enzymic hydrolysis which were inhibitory to -d-glucosidase of Trichoderma reesei C-30 and in Meicelase, but not to the cellulases. Aspergillus niger -glucosidase was not inhibited, nor were -d-xylosidase(s) and 1,4--d-xylanase(s). The inhibitory compound(s) could be extracted from the enzymic hydrolyzates with ethyl acetate. The ethyl acetate extractives inhibited -glucosidase in a competitive manner, and inhibitory action was not affected by pH. Addition of the inhibitory compound(s) to trichodermal cellulase digests of cellulose resulted in reduced glucose yields compared to a control. The inhibitory effects could be overcome when cellulase digests were supplemented with A. niger -glucosidase resulting in higher cellulose-to-glucose conversions. The inhibitory compound(s) were localized mainly in the heartwood of E. regnans. An inhibitor compound of this type has not hitherto been reported. The presence of inhibitory compound(s) in the autohydrolysis liquor fraction is also reported.     

Induction of the halobenzoate catabolic pathway and cometabolism of ortho-chlorobenzoates in Pseudomonas aeruginosa 142 grown on glucose-supplemented media

The aerobic cometabolism of ortho-substitutedchlorobenzoates by Pseudomonas aeruginosa strain 142 growing on glucose-supplemented medium was analyzed. The strain, which can use 2-chlorobenzoate (2-CBA) and 2,4-dichlorobenzoate (2,4-DCBA) as sole carbon and energy sources, showed high rates of 2-CBA metabolism in glucose-fed cells. In contrast, 2,4-DCBA was metabolized only after extended incubation of the full grown culture and depletion of glucose.In addition to the ortho-dehalogenation (ohb ₁₄₂) genes encoding the and subunits of the oxygenase component of a 2-halobenzoate dioxygenase, strain 142 harbours a closely relatedohbABCDFG gene cluster previously identified inP. aeruginosa JB2 (ohb _JB2). The genes for the chlorocatechol ortho-catabolic pathway were identified andsequenced in this strain, showing a near complete identity with the clcABD operon of the pAC27 plasmid. Relative quantification of mRNA by RT-PCR shows apreferential induction of ohb ₁₄₂ by 2-CBA, which is abolished in glucose-grown cultures. The alternate ohb _JB2and clc genes were expressed preferentially in 2,4-DCBAgrown cultures. Only ohb _JB2appears to be expressed in the presence of the carbohydrate. Detection of chlorocatechol-1,2-dioxygenase activity in 2,4-DCBA plus glucose grown cultures suggests the presence of an alternate system for the ortho-cleavage of chlorobenzoates. The recruitment of elements from two halobenzoate dioxygenase systems with different induction patterns, together with achlorocatechol degradative pathway not repressed by carbon catabolite, may allow P. aeruginosa 142 to cometabolize haloaromatics in carbohydrate grown cultures.     

Selection of Penicillium funiculosum Strains with High Glucose Oxidase Activity

Metabolic inhibitors, riboflavin, and end products of glucose oxidation were shown to be effective for the selection ofPenicillium funiculosum mutant strains with a high glucose oxidase activity. The incidence of positive mutations was highest in clones resistant to sodium azide, riboflavin, and -D-glucono--lactone. Enzyme activity in Penicillium funiculosum mutants was studied in submerged culture. The level of glucose oxidase synthesis in seven cultures was 24–56% higher than that in the parent strain of Penicillium funiculosum NMM95.132.     

Cellulase production byPenicillium janthinellum

The maximal carboxymethyl cellulase, filter paper (FP) cellulase and -glucosidase activities achieved byPenicillium janthinellum grown in a fermenter were 60, 5 and 9 U/ml, respectively. Enzymic hydrolysis of 5m NaOH-pre-treated straw, cotton and FP was 57 to 58% in 48 h at 50°C, with glucose as the major product.     

Purification and properties of trehalase in Frankia ArI3

Trehalase was purified from cultures of Frankia strain ArI3 grown on media with or without NH₄Cl. The purified enzyme was specific for trehalose, exhibited a broad pH optimum of pH 4.5 to 5.3 and had a K _m for trehalose of 4.2 mM. The trehalase was inhibited in vitro completely by sucrose, glucose and mannose and partially by mannitol and sorbitol. In addition to the specific trehalase, a mixture of non-specific - and -glucosidases which exhibited some activity with ,-trehalose as a substrate were also partially purified in Frankia extracts made from nitrogen-fixing cells. These enzymes were not detected in the purifications of crude extracts made from non-nitrogen-fixing cells (grown on media supplemented with NH₄Cl). Trehalase activity in crude extracts increased over time when cells were induced to fix nitrogen, and the maximum specific activity of trehalase from nitrogen-fixing cultures was 4 times the maximum activity from non-fixing cultures. Trehalase activity was also examined in crude extracts made from Frankia vesicle clusters isolated from Alnus rubra nitrogen-fixing nodules infected with ArI3. The maximum activity of trehalase in these clusters was 6–7 times greater than in the nitrogenfixing pure cultures of ArI3 and 26–33 times greater than the non-fixing pure cultures.Abbreviations pcv packed cell volume - DTE dithioerythritol - PMSF phenylmethylsulphonylfluoride - EDTA sodium ethylenediaminetetraacetate     

Comparison of methods for quantifying the hydrolytic potential of cellulase enzymes

Summary The adequacy of -glucosidase activity in various cellulase enzyme mixtures was assessed by monitoring the accumulation of cellobiose in the reaction mixture. The influence of accumulated glucose and cellobiose on a filter paper (FP) assay indicated the relative susceptibility of the different enzyme preparations to end-product inhibition. An HPLC analysis of the profile of sugars released also provided a better means of predicting the hydrolytic potential of the various cellulase mixtures. An accurate prediction of the hydrolytic potential of a cellulase preparation could not be based on the conventional FP assay alone. The hydrolytic potential of a Celluclast/Novozym mixture was superior to that of Trichoderma harzianum even when the latter system was supplemented with increased concentrations of -glucosidase (Novozym).     

Evolution of the response patterns to dietary carbohydrates and the developmental differentiation of gene expression of α-amylase in Drosophila

Intraspecific variation of -amylase activity in D. melanogaster and D. immigrans, which is distantly related to D. melanogaster, and interspecific variation of -amylase activity in 18 Drosophila species were examined. The amount of intraspecific variation of -amylase activities measured in terms of coefficient of variation in D. melanogaster and D. immigrans was one-half and one-tenth or less, respectively, of the interspecific variation in 18 Drosophila species. We also surveyed the response patterns of -amylase activity to dietary carbohydrates at the larval and adult stages. The levels of -amylase activity depended on both repression by dietary glucose (glucose repression) and induction by dietary starch (starch induction). In general, our data suggest that glucose repression was conserved among species at both stages while starch induction was mainly observed in larvae, although the degree of the response depended on species. In D. lebanonensis lebanonensis and D. serrata, larvae expressed electrophoretically different -amylase variants (isozymes) from those of adult flies. These results may suggest that the regulatory systems responsible both for the response to environment and developmental expression are different among species in Drosophila. Correspondence to: T. Yamazaki     

Induction of cellulase formation in Trichoderma reesei by cellobiono-1,5-lacton

Induction of synthesis of cellulolytic enzymes in Trichoderma reesei QM 9414 by cellobiono-1,5-lactone (CBL) has been investigated in a replacement system lacking additional carbon source. CBL induced cellulase secretion optimally at pH 5 and a concentration of 70 g/ml. Higher concentrations lead to lower induction. De novo induction of cellulases was proven by the inhibitory effect of cycloheximide addition. Induction by CBL was shown to act synergistically on induction by sophorose, as it decreased the concentration of sophorose required for maximal induction. Maximal endo--1,4-glucanase activities induced by either sophorose or CBL were comparable. The CBL-induced cellulase system contained all the major cellulolytic enzymes of T. reesei, i.e. cellobiohydrolase I and II, and endoglucanase I, as shown by SDS-PAGE, Western blotting and detection with specific mono- and polyclonal antibodies. No differences were seen in the types of individual enzymes formed upon induction by either sophorose or CBL. No other hydrolytic enzymes appear to be induced by CBL (i.e. amylase, laminarinase, xylanase).Abbreviations SDS-PAGE polyacrylamide gel electrophoresis in the presence of sodium-dodecylsulfate - CBL cellobiono-1,5-lacton - CBH cellobiohydrolase - EG endoglucanase - IgG immunoglobulin G