Streptococcus bovis as a host for the expression of cloned polysaccharidase genes

The shuttle vector, pVA838, was used to introduce the xynD gene from the cellulolytic rumen anaerobe, Ruminococcus flavefaciens 17, into Streptococcus bovis JB1. Expression of xylanase and -(1,3-1,4)-glucanase activity due to xynD was demonstrated in culture supernatants. SDS-PAGE zymograms revealed the full-length xynD 90 kDa product, together with some proteolytic products. Activities due to the cloned xynD gene, and to the R. flavefaciens 17 endA endoglucanase gene present in the construct pVACMC1, decreased after early growth stages in batch cultures of S. bovis JB1, reflecting the sensitivity of the cloned R. flavefaciens 17 enzymes to inactivation in the presence of accumulated lactic acid. Of xynD activity, 40–80% was detected in the culture supernatant, indicating recognition of the xynD signal peptide by S. bovis JB1.     

Streptococcus shiloi andStreptococcus difficile: Two new streptococcal species causing a meningoencephalitis in fish

The cellulolytic rumen bacteriumRuminococcus flavefaciens 17 was found to produce multiple xylanases ranging in apparent molecular weight from 55 to 200 kDa. A 55 kDa xylanase showed constitutive synthesis, but formation of the larger enzymes was increased in cultures grown with avicel, straw, or xylan, compared with cellobiose, as the energy source. At least six xylanases were detected in cultures grown with oat straw or oat xylan. Polyclonal antibodies were raised against the amino (A) or carboxy terminal (C) domains of the bifunctional XYNA product of the clonedR. flavefaciens xynA gene. Both antibody preparations recognized several xylanases larger than 80 kDa fromR. flavefaciens cells grown with avicel, straw, or xylan, indicating the production of multiple, antigenically related enzymes during growth on these substrates. Neither antibody preparation recognized the constitutive 55-kDa xylanase.     

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     

Degradation and Utilization of Xylans by the Rumen AnaerobePrevotella bryantii(formerlyP. ruminicolasubsp.brevis) B14

Freshly harvested whole cells from cultures ofP. bryantiiB₁4 grown with oat spelt xylan (OSX) as an energy source showed less than 25% of the enzyme activity against OSX, and less than 15% of the activity against birchwood xylan (BWX) and carboxymethylcellulose, that was detectable in sonicated cell preparations. This indicates that much of this hydrolytic activity is either periplasmic, membrane-associated or intracellular and may be concerned with the processing of transported oligosaccharides.P. bryantiiB₁4 cultures were able to utilise up to 45% and 51% of the total pentose present in OSX and BWX, respectively, after 24 h, but could utilize 84% of a water-soluble fraction of BWX. Analysis of the xylan left undegraded after incubation withP. bryantiishowed that while xylose and arabinose were removed to a similar extent, uronic acids were utilized to a greater extent than xylose. Predigestion of xylans with two cloned xylanases from the cellulolytic rumen anaerobeRuminococcus flavefaciensgave little increase in overall pentose utilization suggesting that externalP. bryantiixylanases are as effective as the clonedR. flavefaciensenzymes in releasing products that can be utilised byP. bryantiicells. The xylanase system ofP. bryantiiis able to efficiently utilise not only xylo-oligosaccharides but also larger water-soluble xylan fragments.     

Competition Between Ruminal Cellulolytic Bacteria for Adhesion to Cellulose

Competition for adhesion to cellulose among the three main ruminal cellulolytic bacterial species was studied using differential radiolabeling (¹⁴C/³H) of cells. When added simultaneously to cellulose, Ruminococcus flavefaciens FD1 and Fibrobacter succinogenes S85 showed some competition; however, both species were surpassed competitively by Ruminococcus albus 20. When R. flavefaciens FD1 and F. succinogenes S85 were already adherent, R. albus 20 adhesion occurred without inhibition but involved R. flavefaciens FD1 detachment. Received: 28 October 1996 / Accepted: 28 January 1997     

Degradation and fermentation of cellulose by the rumen anaerobic fungi in axenic cultures or in association with cellulolytic bacteria

Three rumen anaerobic fungi—Neocallinastix frontalis MCH3,Piromyces (Piromonas) communis FL, andCaecomyces (Sphaeromonas) communis FG10—were cultured on cellulose filter paper alone or in association with one of two rumen cellulolytic bacteria,Ruminococcus flavefaciens 007 andFibrobacter succinogenes S85. Cocultures ofN. frontalis orP. communis andR. flavefaciens were markedly less effective than the fungal monocultures in degrading cellulose but more effective than the bacterial monocultures.R. flavefaciens had an antagonistic effect against both of the fungal species. In contrast, no interaction was observed between the two fungal species andF. succinogenes. Cellulose was more effectively degraded by the cocultureC. communis-R. flavefaciens than by the corresponding fungal and bacterial monocultures. The effectiveness of degradation of the cocultureC. communis-F. succinogenes was comparable to that of the bacterial strains but greater than that of the fungi; no interaction was observed between these two microorganisms.     

Nucleotide sequence of the celA gene encoding a cellodextrinase of Ruminococcus flavefaciens FD-1

Summary The nucleotide sequence of a 3.6 kb DNA fragment containing a cellodextrinase gene (celA) fromRuminococcus flavefaciens FD-1 was determined. The gene was expressed from its own regulatory region inEscherichia coli and a putative consensus promoter sequence was identified upstream of a ribosome binding site and a TTG start codon. The complete amino acid sequence of the CeIA enzyme (352 residues) was deduced and showed no significant homology to cellulases from other oganisms. Two lysozymetype active sites were found in the amino-terminal third of the enzyme. InE. coli the cloned CeIA protein was translocated into the periplasm. The lack of a typical signal sequence, and the results of transposonphoA mutagenesis experiments indicated that CeIA is secreted by a mechanism other than a leader peptide.Abbreviations CMCase carboxymethylcellulase - celA gene coding for CeIA - CelA cellodextrinase - ORF open reading frame - phoA gene encoding alkaline phosphatase - pNPC p-nitrophenyl--d-cellobioside     

Effect ofMethanobrevibactersp MF1 Inoculation on Glycoside Hydrolase and Polysaccharide Depolymerase Activities, Wheat Straw Degradation and Volatile Fatty Acid Concentrations in the Rumen of Gnotobiotically-reared Lambs

Four naturally born lambs were placed in sterile isolators 24 h after birth before the natural establishment of cellulolytic microorganisms and archaea methanogens. At the age of 6 weeks they were inoculated with pure cultures of the strains FD1 and 007 ofRuminococcus flavefaciensand at the age of 4 months with a pure culture ofMethanobrevibactersp. MF1. Following the establishment of MF1, the population ofR. flavefaciensslightly increased in the rumen of the four lambs, there was also an increase in straw degradation, in the activity of some glycoside and polysaccharide hydrolases of the adherent microbial populations and in the concentration of acetate in ruminal contents.     

Differential expression of cellulases and xylanases by <Emphasis Type="Italic">Cellulomonas flavigena</Emphasis> grown on different carbon sources

The diversity of cellulases and xylanases secreted by Cellulomonas flavigena cultured on sugar cane bagasse, Solka-floc, xylan, or glucose was explored by two-dimensional gel electrophoresis. C. flavigena produced the largest variety of cellulases and xylanases on sugar cane bagasse. Multiple extracellular proteins were expressed with these growth substrates, and a limited set of them coincided in all substrates. Thirteen proteins with carboxymethyl cellulase or xylanase activity were liquid chromatography/mass spectrometry sequenced. Proteins SP4 and SP18 were identified as products of celA and celB genes, respectively, while SP20 and SP33 were isoforms of the bifunctional cellulase/xylanase Cxo recently sequenced and characterized in C. flavigena. The rest of the detected proteins were unknown enzymes with either carboxymethyl cellulase or xylanase activities. All proteins aligned with glycosyl hydrolases listed in National Center for Biotechnology Information database, mainly with cellulase and xylanase enzymes. One of these unknown enzymes, protein SP6, was cross-induced by sugar cane bagasse, Solka-floc, and xylan. The differences in the expression maps of the presently induced cultures revealed that C. flavigena produces and secretes multiple enzymes to use a wide range of lignocellulosic substrates as carbon sources. The expression of these proteins depends on the nature of the cellulosic substrate.     

Application of cellulases from Acrophialophora nainiana and Penicillium echinulatum in textile processing of cellulosic fibres

New cellulases from the fungi Acrophialophora nainiana and Penicillium echinulatum were used in the finishing of knitted cotton fabrics (biopolishing) and compared with the well established enzymes from Trichoderma reesei. Both cellulases reduced the pilling tendency with a lower weight loss than T. reesei cellulases. Cellulases from P. echinulatum were also studied in stonewashing of denim fabrics to obtain the fashionable aged look in indigo dyed jeans ware and were found to remove more colour from denim fabrics and produce less indigo dye redeposition (back-staining) than commercial acid or neutral cellulases under the test conditions. Efficiency was found to be influenced by pH during textile processing and the substrate used for the production of cellulases. Cellulases produced by P. echinulatum grown on cellulose showed better stonewashing results (higher colour removal and less back-staining) than cellulases produced on sugar cane bagasse. The substrate used during enzyme production of P. echinulatum cellulases seems to have a significant influence on cellulose composition, which affects textile processing results.     

Efficient expression of a Paenibacillus barcinonensis endoglucanase in Saccharomyces cerevisiae

The endoglucanase coded by celA (GenBank Access No. Y12512) from Paenibacillus barcinonensis, an enzyme with good characteristics for application on paper manufacture from agricultural fibers, was expressed in Saccharomyces cerevisiae by using different domains of the cell wall protein Pir4 as translational fusion partners, to achieve either secretion or cell wall retention of the recombinant enzyme. Given the presence of five potential N-glycosylation sites in the amino acid sequence coded by celA, the effect of glycosylation on the enzymatic activity of the recombinant enzyme was investigated by expressing the recombinant fusion proteins in both, standard and glycosylation-deficient strains of S. cerevisiae. Correct targeting of the recombinant fusion proteins was confirmed by Western immunoblot using Pir-specific antibodies, while enzymatic activity on carboxymethyl cellulose was demonstrated on plate assays, zymographic analysis and colorimetric assays. Hyperglycosylation of the enzyme when expressed in the standard strain of S. cerevisiae did not affect activity, and values of 1.2 U/ml were obtained in growth medium supernatants in ordinary batch cultures after 24 h. These values compare quite favorably with those described for other recombinant endoglucanases expressed in S. cerevisiae. This is one of the few reports describing the expression of Bacillus cellulases in S. cerevisiae, since yeast expressed recombinant cellulases have been mostly of fungal origin. It is also the first report of the yeast expression of this particular endoglucanase.     

Sequence of a cellulase gene from the rumen anaerobe Ruminococcus flavefaciens 17

Summary A cellulase gene (endA) was isolated from a library of Ruminococcus flavefaciens strain 17 DNA fragments inserted in pUC13. The endA product showed activity against acid-swollen cellulose, carboxymethyl-cellulose, lichenan, cellopentaose and cellotetraose, but showed no activity against cellotriose or binding to avicel. Nucleotide sequencing indicated an encoded product of 455 amino acids which showed significant sequence similarity (ranging from 56% to 61%) with three endoglucanases from Ruminococcus albus, and with Clostridium thermocellum endoglucanase E. Little relatedness was found with a cellodextrinase previously isolated from R. flavefaciens FD1.     

A GHF7 CELLULASE FROM THE PROTIST SYMBIONT COMMUNITY OF Reticulitermes flavipes ENABLES MORE EFFICIENT LIGNOCELLULOSE PROCESSING BY HOST ENZYMES

Termites and their gut microbial symbionts efficiently degrade lignocellulose into fermentable monosaccharides. This study examined three glycosyl hydrolase family 7 (GHF7) cellulases from protist symbionts of the termite Reticulitermes flavipes. We tested the hypotheses that three GHF7 cellulases (GHF7‐3, GHF7‐5, and GHF7‐6) can function synergistically with three host digestive enzymes and a fungal cellulase preparation. Full‐length cDNA sequences of the three GHF7s were assembled and their protist origins confirmed through a combination of quantitative PCR and cellobiohydrolase (CBH) activity assays. Recombinant versions of the three GHF7s were generated using a baculovirus‐insect expression system and their activity toward several model substrates compared with and without metallic cofactors. GHF7‐3 was the most active of the three cellulases; it exhibited a combination of CBH, endoglucanase (EGase), and β‐glucosidase activities that were optimal around pH 7 and 30°C, and enhanced by calcium chloride and zinc sulfate. Lignocellulose saccharification assays were then done using various combinations of the three GHF7s along with a host EGase (Cell‐1), beta‐glucosidase (β‐glu), and laccase (LacA). GHF7‐3 was the only GHF7 to enhance glucose release by Cell‐1 and β‐glu. Finally, GHF7‐3, Cell‐1, and β‐glu were individually tested with a commercial fungal cellulase preparation in lignocellulose saccharification assays, but only β‐glu appreciably enhanced glucose release. Our hypothesis that protist GHF7 cellulases are capable of synergistic interactions with host termite digestive enzymes is supported only in the case of GHF7‐3. These findings suggest that not all protist cellulases will enhance saccharification by cocktails of other termite or fungal lignocellulases.     

Use of sorbose to enhance cellobiase activity in a Trichoderma reesei cellulase system produced on wheat hydrolysate

Summary Several methods were investigated for increasing cellobiase activity of T. reesei cellulases produced using an acid-hydrolyzed wheat flour. The use of sorbose in cellulase production is preferred to mixed cultures with Aspergillus niger. Using 13.5 g/L wheat hydrolysate and 1.0 g/L sorbose, the culture of T. reesei produced 3.72 IU/mL of filter paper activity (FPA) and 0.53 IU/mL of cellobiase activity. The addition of sorbose resulted in 89% increase in cellobiase activity and 47% increase in FPA.     

Organisation and Variable Incidence of Genes Concerned with the Utilization of Xylans in the Rumen Cellulolytic Bacterium Ruminococcus flavefaciens

Strains of the rumen cellulolytic bacterium Ruminococcus flavefaciens vary in their ability to utilise isolated plant xylans for growth. Here an 11.5 kb fragment of genomic DNA from the xylan-utilizing R. flavefaciens strain 17 that contains the xynD gene, which encodes an extracellular xylanase/β -(1,3-1,4)-glucanase, was analysed. Sequencing revealed five consecutive open reading frames downstream from xynD on the same strand, preceded by the divergently transcribed ORF3. These include the following genes likely to be involved in utilisation of xylan breakdown products: xylA, encoding a β -(1,4)-xylosidase, xsi, encoding a xylose isomerase and ORF8 encoding part of an ABC-type sugar transporter. The products of ORF3 and of a partial ORF1 found upstream of xynD, show significant sequence similarity to AraC-type regulatory proteins while ORF4 and ORF7 show no close relationship to other known proteins. Homologues of the xylA and xsi genes, and inducible β -xylosidase activity, were readily detectable in three xylan-utilizing R. flavefaciens strains 17, B1a and C94 but not in two xylan non-utilizing strains, C1a and B34b, suggesting that this cluster may be absent from xylan non-utilizing strains.     

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     

Effect of exogenous cycllc amp on catabolite repression of cellulase formation in aspergillus nidulans

The addition of 1 mM cyclic AMP to induced and repressed cultures of Aspergillus nidulans and its mutant strain (CRR 141) resistant to catabolite repression was fully capable of releasing the wild type from catabolite repression while it caused hyperproduction of cellulases in glycerol repressed cultures. The relief of the catabolite repression was also accompanied by a dramatic drop in enhanced protease levels, thereby indicating that the synthesis of proteases (during the catabolite repression) is under the control of cyclic AMP.     

Screening of Optimal Cellulases from Symbiotic Protists of Termites through Expression in the Secretory Pathway of Saccharomyces cerevisiae

For direct and efficient ethanol production from cellulosic materials, we screened optimal cellulases from symbiotic protists of termites through heterologous expression with Saccharomyces cerevisiae. 11 cellulases, belonging to glycoside hydrolase families 5, 7, and 45 endoglucanases (EGs), were confirmed to produce with S. cerevisiae for the first time. A recombinant yeast expressing SM2042B24 EG I was more efficient at degrading carboxylmethyl cellulose than was Trichoderma reesei EG I, a major EG with high cellulolytic activity.     

Effects of Physicochemical Factors on the Adhesion to Cellulose Avicel of the Ruminal Bacteria Ruminococcus flavefaciens and Fibrobacter succinogenes subsp. succinogenes

Ruminococcus flavefaciens adhered instantly to cellulose, while Fibrobacter succinogenes had the highest percentage of adherent cells after about 25 min of contact between bacteria and cellulose. Adhesion of R. flavefaciens was unaffected by high concentrations of sugars (5%), temperature, pH, oxygen, metabolic inhibitors, and lack of Na⁺. In contrast, the attachment was affected by the removal of divalent cations (Mg²⁺ and Ca²⁺), the presence of cellulose derivatives (methylcellulose and hydroxyethylcellulose), and cystine. Adhesion of F. succinogenes was sensitive to low and high temperatures, high concentrations of glucose and cellobiose (5%), hydroxyethylcellulose (0.1%), redox potential, pH, lack of monovalent cations, and the presence of an inhibitor of membrane ATPases or lasalocid and monensin. Cells of F. succinogenes heated at 100°C no longer were adherent. On the other hand, adhesion was insensitive to the lack of divalent cations (Mg²⁺ and Ca²⁺), the presence of 2,4-dinitrophenol, tetrachlorosalicylanilide, or inhibitors of the electron transfer chains. Adhesion of F. succinogenes seems to be related to the metabolic functions of the cell. External proteins and/or cellulases themselves might play a part in the attachment process. Several mechanisms are probably involved in the adhesion of R. flavefaciens, the main one being the interaction between the large glycocalyx and the divalent cations Ca²⁺ and Mg²⁺. Hydrophobic bonds and enzymes may also be involved.