Carbon source,cyclic nucleotide,and protein inhibitor effects on protein and cellulase secretions inNeocallimastix frontalis EB188

Protein and cellulase secretion inNeocallimastix frontalis EB188 was studied. Induction of secretion in this ruminal fungus was dependent on the amount of medium cellulose and on de novo protein synthesis. Medium glucose repressed secretions and diminished the utilization of medium cellulose. Exogenously added cyclic nucleotides failed to derepress glucose repression. Medium glycerol had no effect on protein and cellulase secretion, would not support cell growth, and was nontoxic.     

Cellulases from Neocallimastix frontalis EB188 synthesized in the presence of protein glycosylation inhibitors: measurement of protein molecular weights and isoelectric focusing values

Summary Protein and cellulase secreted in the presence of glycosylation inhibitors by Neocallimastix frontalis EB188 were studied using gel electrophoresis. Tunicamycin and 2-deoxy-D-glucose added to established cultures inhibited the production and secretion of proteins and cellulases. Schiff reagent staining of proteins after denaturing polyacrylamide gel electrophoresis confirmed the presence of extracellular glycoproteins. Intracellular or extracellular cellulases from cultures treated with inhibitors possessed distinct isoelectric focusing values and native gel R _f values. In N. frontalis EB188, glycosylation of protein occurred and was important for the production, secretion and activity of cellulases. Offprint requests to: R. E. Calza     

Optimization of protein and cellulase secretion in Neocallimastix frontalis EB188

Variations in culture feeding protocols were used to optimize the secretion of protein and cellulase in Neocallimastix frontalis EB188. High numbers (2000/ml) of zoospores, culture feeding at 55 h using a 1:3 dilution and cotton cellulose [0.25% (w/v) final] as the carbon source increased secretion. Endoglucanase reached 1.6±0.06 IU/ml, exoglucanase reached 0.032±0.006 IU/ml and -glucosidase reached 0.874±0.090 IU/ml. Medium containing twice the concentration of non-carbon-source components failed to increase secretions. Gel electrophoresis demonstrated that eleven cellulases were present. Two cellulases were secreted only in stationary cultures. rotein and cellulase secretion in N. frontalis EB188 may be dependent on the dilution of fermentation products. Correspondence to: R. E. Calza     

Regulation of protein and cellulase excretion in the ruminal fungusNeocallimastix frontalis EB188

Extracellular protein and cellulase excretion secretions were studied in the ruminal fungusNeocallimastix frontalis EB188. Cellulase assay and polyacrylamide gel electrophoresis was used to characterize protein excretion patterns caused by media switches of established cultures. Glucose switch medium caused the excretion of low levels of cellulase and increased amounts of low-molecular-weight proteins. Cellulose switch medium caused the excretion of high levels of cellulase and increased amounts of high-molecular-weight proteins. Several proteins were excreted uniquely or in greater amounts in cellulose cultures than in glucose cultures. Distinct protein excretion patterns suggested that regulation of cellulase was a closely controlled process in ruminal fungi.     

The effect of Aspergillus oryzae fermentation extract on the anaerobic fungi Neocallimastix frontalis EB 188, Piromyces communis DC 193 and Orpinomyces ssp. RW 206: generalized effects and component analysis

Three fungi Neocallimastix frontalis EB 188, Piromyces communis DC 193 and Orpinomyces ssp. RW 206, representing the predominant cultures isolated from cattle, were shown to respond to the addition of Aspergillus oryzae fermentation extract (i.e., Amaferm; BioZyme Inc., St. Joseph, Mo.) stimulation. Growth rates, protein and cellulase secretion and fungal mass production were all accelerated in the presence of the extract. Analysis of volatile fatty acids produced by these three species suggested that extract addition increased and altered gas production. Fractionation and preliminary analysis of the components present in the soluble extract, which stimulated the growth of the cellulolytic fungus N. frontalis EB 188, were also attempted. Soluble and filtered, sterilized extract was treated prior to use as a stimulant. Pretreatments included dialysis, ultraviolet irradiation, freeze thaw cycling, boiling, autoclaving, digestion with protease, autodigestion, organic extraction, decolorizing-carbon binding and polyethylene glycol concentration. Boiling, protease treatment, organic extraction, freeze thaw cycling and decolorizing-carbon binding reduced the ability of the extract to stimulate fungal cultures. Gel electrophoresis methods demonstrated that protein- and cellulasesecretion profiles were not identical in control and stimulated cultures. High-performance liquid chromatography methods allowed the separation of the extract into a limited number of ultraviolet-absorbing peaks, of which several stimulated the physiology of the fungus. Received: 6 December 1995/Received revision: 7 February 1996/Accepted: 4 March 1996     

Cellulases from Neocallimastix frontalis EB188 synthesized in the presence of glycosylation inhibitors: measurement of pH and temperature optima,protease and ion sensitivities

Summary The effects of protein glycosylation inhibitors were studied in Neocallimastix frontalis EB188. Low concentrations of tunicamycin and 2-deoxy-D-glucose inhibited zoospore germination, rhizoidal elongation, carbon source utilization and the production and secretion of cellulases and proteins. The carbohydrate-trimming inhibitors, deoxynojirimycin and glucono--lactone, had no measurable effect on rhizoidal growth and carbon source utilization. Cellulases (intracellular or extracellular) synthesized in the presence of glycosylation inhibitors were sensitive to -endoglycosidase H digestion, periodate modification, certain salts, changes in incubation temperature and pH, and protease. Anthrone staining of extracellular proteins confirmed the presence of glycoproteins. In N. frontalis EB188, glycosylation of protein and cellulase occurred and was important for cellular development and the production, secretion and activity of cellulases. Offprint requests to: R. E. Calza     

Media carbon induction of extracellular cellulase activities inNeocallimastix frontalis isolate EB188

Extracellular cellulase induction in the ruminal fungusNeocallimastix frontalis isolate EB188 was followed. Glucose media-established cultures produced cellulase when switched to a variety of cellulose-containing media. High levels of cellulase and xylanase activities were present in cultures switched to sigma cell 100, solka floc, avicel, sisal fiber, and wheat straw, but not those switched to glucose, carboxymethylcellulose, or wood chips. Several assay substrates were used to show differential cellulase induction as well as-glucosidase activity. Cellulases hydrolyzed short oligosaccharides and released glucose from insoluble cellulose. Cellobiase activity was also indicated. Cellulase activity tolerated brief exposure to high temperature, was insensitive to certain metal ions, and possessed pH optima between 5.0 and 6.5.     

The effect of Aspergillus oryzae fermentation extract on the anaerobic fungus Neocallimastix frontalis EB 188: effects on physiology

 Aspergillus oryzae fermentation extract (Amaferm) was used to stimulate the in vitro growth of the cellulolytic fungus Neocallimastix frontalis EB 188. Soluble and filter-sterilized extract was added either at the start or throughout culture growth. Culture mass, protein secretion and cellulase secretion were measured in stationary test-tubes or round-bottom flasks and a stirred (desktop) fermenter. The soluble extract increased culture mass and protein and cellulase secretion in a dose-dependent manner. Maximum stimulation caused the supernatant cellulase to nearly double (i.e., 87% over controls; P<0.05), cell mass increased by 27% (P<0.05) over controls and secreted protein increased 37% (P<0.05) over controls. The timing of extract addition did not alter the culture response and suggested a recycling of components. The robustness of fungal zoospores used as inoculum, however, greatly influenced the effectiveness of the extract to stimulate secretions. Extracts did not directly influence the pH of the culture medium or the endogenous levels of enzymes. The rate of carbon source utilization and morphology of the fungus were unchanged by soluble-extract additions at any level tested. The extract was inhibitory when added to concentrations exceeding an amount equivalent to 20 g animal^-1 day^-1. Received: 6 December 1995/Received revision: 7 February 1996/Accepted: 4 March 1996     

Expression of a catalytic domain of a Neocallimastix frontalis endoxylanase gene (xyn3) in Kluyveromyces lactis and Penicillium roqueforti

A cDNA fragment encoding the A catalytic domain of the Neocallimastix frontalis endoxylanase XYN3 was amplified and cloned by the polymerase chain reaction technique. The xyn3A DNA fragment was inserted between the Saccharomyces cerevisiae phosphoglycerate kinase gene promoter and terminator sequences on a multicopy episomal plasmid for Kluyveromyces lactis. The XYN3A domain was successfully expressed in K. lactis and functional endoxylanase was secreted by the yeast cells with the K. lactis killer toxin secretion signal. The XYN3A domain was also expressed in a strain of Penicillium roqueforti as a fusion protein (ShBLE::XYN3A) of the phleomycin-resistance gene product and the endoxylanase. Active endoxylanase was efficiently secreted from the fungal cells with the Trichoderma viride cellobiohydrolase (CBH1) secretion signal and processed by a related KEX2 endoprotease of the secretion pathway. Several differently glycosylated forms of the recombinant enzymes were secreted by the yeast and the filamentous fungus. Received: 10 November 1998 / Received revision: 8 March 1999 / Accepted: 14 March 1999     

Fractionation of cellulases from the ruminal fungus Neocallimastix frontalis EB188.

Cellulases from the ruminal fungus Neocallimastix frontalis EB188 were separated by using hydroxylapatite column chromatography. Seven carboxymethylcellulases, six avicelases, and four beta-glucosidases accounted for the majority of the activities. The separation of enzymes was confirmed by using polyacrylamide gel electrophoresis. Electrophoretic migration, analysis of hydrolysis products, and substrate specificity measurements suggested that several different cellulases were secreted in N. frontalis EB188. The possible relationship of cellulase diversity to protein glycosylation is discussed.     

Fractionation of cellulases from the ruminal fungus Neocallimastix frontalis EB188.

Cellulases from the ruminal fungus Neocallimastix frontalis EB188 were separated by using hydroxylapatite column chromatography. Seven carboxymethylcellulases, six avicelases, and four beta-glucosidases accounted for the majority of the activities. The separation of enzymes was confirmed by using polyacrylamide gel electrophoresis. Electrophoretic migration, analysis of hydrolysis products, and substrate specificity measurements suggested that several different cellulases were secreted in N. frontalis EB188. The possible relationship of cellulase diversity to protein glycosylation is discussed.     

Kinetic study of a cellobiase purified from Neocallimastix frontalis EB188

A cellobiase was purified from the culture supernatant of Neocallimastix frontalis EB188. This enzyme possessed a molecular weight of 85,000 and an isoelectric point of 6.95. The enzyme rapidly hydrolyzed cellobiose, p-nitrophenyl (pNP) beta-D-glucopyranoside (pNPG) and cellotriose and slowly hydrolyzed cellopentaose and salicin. The enzyme did not hydrolyze pNP alpha-D-glucopyranoside or pNP beta-D-cellobioside. Substrate inhibition was observed when cellobiose or pNPG were used as the substrates and glucose production was measured. The kinetic parameters were: K = 0.053 mM, V = 5.88 U/mg of protein and Ki = 0.95 mM for cellobiose; K = 0.36 mM, V = 1.05 U/mg and Ki = 8.86 mM for pNPG. Substrate inhibition was not detected during the hydrolysis of pNPG when pNP production was measured. The kinetic parameters for pNPG were: K = 0.67 mM and V = 1.49 U/mg of protein. The presence of an enzyme.glucose.substrate complex and transglucosylation was evident during the catalysis. Glucose, cellobiose, glucono-delta-lactone, galactose, lactose, maltose and salicin acted as competitive inhibitors during the hydrolysis of pNPG with the apparent inhibition constants (Kis) of 4.8 mM, 0.035 mM, 0.062 mM, 28.5 mM, 0.38 mM, 15.0 mm and 31.0 mM, respectively.     

Utilization of cellulose,starch, xylan,and other hemicelluloses for growth by the rumen phycomyceteNeocallimastix frontalis

The rumen phycomyceteNeocallimastix frontalis was found to utilize for growth a wide range of plant polysaccharides, including cellulose, starch, and xylan. The ability to utilize polysaccharides was absent after prolonged culture in vitro on glucose, but present after subculture on grass particles. Grass-grown organisms were capable of growing at the expense of cellobiose, maltose, and xylose, capacities absent before exposure to grass particles.N. frontalis cultures digested at least 41% of the dry weight of water-insoluble grass tissue, and up to 75% of the dry weight of filter paper.     

Characterization of Aspergillus oryzae fermentation extract effects on the rumen fungus Neocallimastix frontalis,EB 188. Part 2. Carbon source utilization and effects on zoospore production

The effect of a commercial Aspergillus oryzae fermentation extract on the utilization of carbon source and zoospore production by the rumen fungus Neocallimastix frontalis EB 188 was determined. In addition, the composition of a soluble extract prepared from the commercial product was analyzed. This extract was added to N. frontalis EB 188 cultures grown on a variety of substrates and periodically assayed for protein, enzymes, zoospore production, and carbon source utilization. The powdered product contained 93% dry matter, more than 3,000 A. oryzaespores per gram, and did not contain strong buffers or high concentrations of salt. Measurable concentrations of DNA, protein, carbohydrate and several enzymes including cellulase and amylase were also found. Soluble extract increased fungal physiology and treated cultures produced significantly higher levels of supernatant protein and enzymes including amylase, cellulase and beta-glucosidase. The fungal response depended on culture carbon source. However, culture zoospore production was increased regardless of substrate provided. Culture utilization of glucose was more rapid in treated cultures, yet high levels of the extract greatly inhibited glucose utilization.     

Degradation of lignified secondary cell walls of lucerne (Medicago sativa L.) by rumen fungi growing in methanogenic co-culture

Aims: To compare the abilities of the monocentric rumen fungi Neocallimastix frontalis, Piromyces communis and Caecomyces communis, growing in coculture with Methanobrevibacter smithii, to colonize and degrade lignified secondary cell walls of lucerne (alfalfa) hay. Methods and Results: The cell walls of xylem cylinders isolated from stems of lucerne contained mostly xylans, cellulose and lignin together with a small proportion of pectic polysaccharides. All of these major components were removed during incubation with the three fungi, and differing cell wall polysaccharides were degraded to different extents. The greatest dry weight loss was found with N. frontalis and least with C. communis, and scanning electron microscopy revealed that these extensively colonized different cell types. C. communis specifically colonized secondary xylem fibres and showed much less degradation than N. frontalis and P. communis. Conclusions: Neocallimastix frontalis and P. communis were efficient degraders of the cell walls of lucerne xylem cylinders. Degradation occurred of pectic polysaccharides, xylan and cellulose. Loss of lignin from the xylem cylinders probably resulted from the cleavage of xylan releasing xylan–lignin complexes. Significance and Impact of the Study: Unlike rumen bacteria, the rumen fungi N. frontalis, P. communis and C. communis are able to degrade lignified secondary walls in lucerne stems. These fungi could improve forage utilization by ruminants and may have potential in the degradation of lignocellulosic biomass in the production of biofuels.     

Ultrastructural study of two rumen fungi:Piromonas communis andSphaeromonas communis

Two species of strictly anaerobic rumen fungi,Sphaeromonas communis andPiromonas communis, were examined by light and electron microscopy (scanning and transmission). Although morphologically different (vegetative body, number of flagella per zoospore), the ultrastructure of these two microorganisms was rather similar to that ofNeocallimastix frontalis andN. patriciarum. Two types of organelles were regularly found, i.e., isolated or associated ribosomes in the form of aggregates and hydrogenosome-like organelles with an amorphous content that may be involved in energy generation for these mitochondria-free strictly anaerobic fungi. UnlikeN. frontalis, the distribution of organelles was homogenous.     

Temperature limited fed-batch technique for control of proteolysis in <Emphasis Type="Italic">Pichia pastoris</Emphasis> bioreactor cultures

Background  

A temperature limited fed-batch (TLFB) technique is described and used for Pichia pastoris Mut⁺ strain cultures and compared with the traditional methanol limited fed-batch (MLFB) technique. A recombinant fusion protein composed of a cellulose-binding module (CBM) from Neocallimastix patriciarum cellulase 6A and lipase B from Candida antarctica (CALB), was produced and secreted by this strain.     

Increased enzyme secretion by 2-deoxy-d-glucose in presence of succinate by suppression of metabolic enzymes in Termitomyces clypeatus

Regulatory mode of secretion of proteins was detected for the industrial glycosidase, cellobiase, under secreting conditions (in presence of TCA cycle intermediates like succinate etc.) in the filamentous fungus Termitomyces clypeatus. The titers of key metabolic enzymes were investigated under secreting and non-secreting conditions of growth and compared to the corresponding production of intra and extracellular levels of cellobiase. Results were compared in presence of 2-deoxy-d-glucose, a potent glycosylation inhibitor in the secreting media. Inclusion of 2-deoxy-d-glucose in presence of succinate caused about 10 to 100 times decrease in titers of the metabolic enzymes hexokinase, fructose-1,6-bisphosphatase, isocitrate lyase and malate dehydrogenase leading to increased secretion of cellobiase by more than 100 times. The intracellular concentration of cAMP (86-fold decrease in presence of 2-deoxy-d-glucose under secreting conditions) and turnover rate of proteins also dropped significantly. In this suppressed metabolic state, a 10-fold increase in the titer of the secreted cellobiase was noticed. The results indicated elucidation of carbon catabolite repression like phenomenon in the fungus under secreting conditions which was more pronounced by 2-deoxy-d-glucose. The interdependence between secretion and regulation of metabolic enzymes will help in better understanding of the physiology of these highly adapted organisms for increasing their secretion potential of glycosidases like cellobiase with high industrial value.     

Development of high-molar-mass cellobiase complex by spontaneous protein-protein interaction in the culture filtrate ofTermitomyces clypeatus

The 450 kDa cellobiase fromTermitomyces clypeatus which migrates as a single band on IEF, PAGE and SDS-PAGE, was found to possess appreciable sucrase activity. The fungus produced sucrase and cellobiase constitutively in different media but with different activity ratios. The kinetics of secretion of the two enzymes was similar underin vivo andin vitro conditions. HPGPLC analysis of the culture filtrates indicated the presence of both sucrase and cellobiase in the same protein fractions of different molar mass, even in the 30-kDa protein fraction. No free sucrase or cellobiase could be detected in the culture filtrates. It was also observed that fractionation of cellobiase by (NH₄)₂SO₄ precipitation was different with different amounts of associated sucrase activity present in the culture filtrate. The (NH₄)₂SO₄-precipitated cellobiase fraction also contained cellobiases in proteins of widely varied molar mass ranges. However, none of the low-molar mass proteins other than the 450-kDa enzyme could be purified, as all low-molar-mass fractions spontaneously aggregated to the 450-kDa enzyme. Hydrophobic chromatography of the (NH₄)₂SO₄-precipitated fractions followed by HPGPLC of the eluted active fraction yielded both cellobiase-free sucrase and a very low sucrase-containing cellobiase fraction. The cellobiase fraction, homogeneous in PAGE, was also a high-molar-mass protein complex dissociating into a number of protein bands on SDS-PAGE. It was suggested that the 450-kDa cellobiase was not liberated by the fungus as a preformed enzyme complex but that the complex developed through interaction of cellobiase with sucrase underin vitro conditions and the possibility of the involvement of other proteins in the aggregation cannot be excluded.     

Characterization of<Emphasis Type="Italic"> Aspergillus oryzae</Emphasis> fermentation extract effects on the rumen fungus<Emphasis Type="Italic"> Neocallimastix frontalis</Emphasis>, EB 188. Part 1. Zoospore development and physiology

Experiments were performed to determine the effect of Aspergillus oryzae (AO) fermentation extract on zoospore development in the rumen fungus Neocallimastix frontalis EB 188. Powdered product, or liquid extract prepared from such powder, was added at the recommended value for supplementation in dairy cattle. Stationary and stirred cultures were periodically sampled and assayed for extracellular and intracellular protein and enzymes, gas production, zoospore production and maturation, and carbon source utilization. Soluble extract increased fungal physiology when grown in stirred vessels or stationary cultures. Treated cultures produced higher levels of enzymes (nearly double). Mobile zoospores matured into germination entities more rapidly in treated cultures, and when powdered product was used, nearly 3 times more motile zoospores were produced at 56 h of fungal growth. Levels of the intracellular enzyme malate dehydrogenase increased by 6-fold in the presence of powdered product. Product wheat bran carrier used as soluble extract or powder had very little effect on fungal cultures. Medium cellulose was completely hydrolyzed in all cultures but this occurred earlier in those containing AO treatment.