Cryopreservation of the anaerobic rumen fungus Neocallimastix patriciarum

A rapid extraction and purification procedure is described for the preparation of toxic peptides from freshwater blooms and laboratory isolates of Microcystis aeruginosa . Extraction with methanol/butanol, followed by C₁₈ cartridge concentration; gel filtration and high performance liquid chromatography yields discrete toxin peaks. Elution profiles for the laboratory isolates and bloom extracts are compared and the applicability of the method for detecting cyanobacterial toxins in natural waters is discussed.     

Production of xylanase by the ruminal anaerobic fungus Neocallimastix frontalis.

Xylanase (1,4-beta-D-xylan xylanohydrolase, EC 3.2.1.8) production was investigated in the ruminal anaerobic fungus Neocallimastix frontalis. The enzyme was released principally into the culture fluid and had pH and temperature optima of 5.5 and 55 degrees C, respectively. In the presence of low concentrations of substrate, the enzyme was stabilized at 50 degrees C. Xylobiose was the principal product of xylanase action, with lesser amounts of longer-chained xylooligosaccharides. No xylose was detected, indicating that xylobiase activity was absent. Activities of xylanase up to 27 U ml-1 (1 U represents 1 micromol of xylose equivalents released min-1) were obtained for cultures grown on xylan (from oat spelt) at 2.5 mg ml-1 in shaken cultures. No growth occurred in unshaken cultures. Xylanase production declined with elevated concentrations of xylan (less than 2.5 mg ml-1), and this was accompanied by an accumulation of xylose and, to a lesser extent, arabinose. Addition of either pentose to cultures grown on low levels of xylan in which neither sugar accumulated suppressed xylanase production, and in growth studies with the paired substrates xylan-xylose, active production of the enzyme occurred during growth on xylan only after xylose had been preferentially utilized. When cellobiose, glucose, and xylose were tested as growth substrates for the production of xylanase (each initially at 2.5 mg ml-1), they were found to be less effective than xylan, and use of xylan from different origins (birch wood or larch wood) as the growth substrate or in the assay system resulted in only marginal differences in enzyme activity. However, elevated production of xylanase occurred during growth on crude hemicellulose (barley straw leaf). The results are discussed in relation to the role of the anaerobic fungi in the ruminal ecosystem, and the possible application of the enzyme in bioconversion processes is also considered.     

Production of xylanase by the ruminal anaerobic fungus Neocallimastix frontalis

Xylanase (1,4-beta-D-xylan xylanohydrolase, EC 3.2.1.8) production was investigated in the ruminal anaerobic fungus Neocallimastix frontalis. The enzyme was released principally into the culture fluid and had pH and temperature optima of 5.5 and 55 degrees C, respectively. In the presence of low concentrations of substrate, the enzyme was stabilized at 50 degrees C. Xylobiose was the principal product of xylanase action, with lesser amounts of longer-chained xylooligosaccharides. No xylose was detected, indicating that xylobiase activity was absent. Activities of xylanase up to 27 U ml-1 (1 U represents 1 micromol of xylose equivalents released min-1) were obtained for cultures grown on xylan (from oat spelt) at 2.5 mg ml-1 in shaken cultures. No growth occurred in unshaken cultures. Xylanase production declined with elevated concentrations of xylan (less than 2.5 mg ml-1), and this was accompanied by an accumulation of xylose and, to a lesser extent, arabinose. Addition of either pentose to cultures grown on low levels of xylan in which neither sugar accumulated suppressed xylanase production, and in growth studies with the paired substrates xylan-xylose, active production of the enzyme occurred during growth on xylan only after xylose had been preferentially utilized. When cellobiose, glucose, and xylose were tested as growth substrates for the production of xylanase (each initially at 2.5 mg ml-1), they were found to be less effective than xylan, and use of xylan from different origins (birch wood or larch wood) as the growth substrate or in the assay system resulted in only marginal differences in enzyme activity. However, elevated production of xylanase occurred during growth on crude hemicellulose (barley straw leaf). The results are discussed in relation to the role of the anaerobic fungi in the ruminal ecosystem, and the possible application of the enzyme in bioconversion processes is also considered.     

Respiration of the hydrogenosome-containing fungus Neocallimastix patriciarum

Mass spectrometric determinations of O₂ affinities by the rumen fungus Neocallimastix patriciarum indicated a stable respiration under liquid phase O₂ concentrations up to 10 M, the apparent K _m for O₂ under these conditions was 4.0 M. Exposure to O₂ concentrations in excess of 10 M resulted in rapid inactivation of the observed respiration. Calculated H₂ evolution rates for the organism are 8.1 nmol min^-1 per mg of protein. Exposure to liquid-phase O₂ concentrations in excess of 1.4 M caused 50% inhibition of H₂ production. That superoxide and peroxide are amongst the products of respiration was shown by the use of ESR spectroscopy with the spin trapping agent 5,5-dimethyl-l-pyrroline-N-oxide. An active superoxide dismutase was present, but catalase could not be detected.Abbreviations ESR electron spin resonance - DMPO 5,5-dimethyl-l-pyrroline-N-oxide - DETAPAC diethylene-triamine pentaacetic acid     

Hydrogenosomes in the rumen fungus Neocallimastix patriciarum.

Sedimentable hydrogenase activity was demonstrated in cell-free extracts from both zoospores and vegetative growth of the anaerobic rumen fungus Neocallimastix patriciarum. Electron micrographs of the fraction enriched in hydrogenase activity contained finely granular microbody-like organelles, about 0.5 micron in diameter and having an equilibrium density of about 1.2 g X ml-1 in sucrose, 1.12 g X ml-1 in Percoll and 1.27-1.28 g X ml-1 in Metrizamide. These organelles, which are sedimentable at 10(5) g-min, bear no similarity to mitochondria, but are morphologically similar to hydrogen-evolving organelles possessed by certain anaerobic protozoa and termed 'hydrogenosomes'. Other typical hydrogenosomal enzymes, namely 'malic' enzyme, pyruvate:ferredoxin oxidoreductase and NADPH:ferredoxin oxidoreductase, were enriched in the same particle fraction as hydrogenase. The synthesis of pyruvate:ferredoxin oxidoreductase was found to be suppressed when the organism was cultured under an atmosphere of CO2, and an alternative pathway is proposed for growth under these conditions.     

Supernatant protein and cellulase activities of the anaerobic ruminal fungus Neocallimastix frontalis EB188.

Protein and cellulose activities were measured in culture supernatants of the anaerobic ruminal fungus Neocallimastix frontalis EB188 established in glucose medium and switched to either glucose, cellobiose, or cellulose media. Polyacrylamide gel electrophoresis was used to show differences caused by changing medium carbon source. Culture supernatants contained proteins with molecular weights ranging from greater than 116,000 to about 19,000. Low levels of cellulose activity were evident in glucose-grown cultures. Increased amounts of slowly migrating cellulase activities appeared in the supernatants of glucose-grown cultures switched to cellulose. Cellulase activities which reacted differentially during colorimetric and in situ assays were produced. Isoelectric points of cellulase activities varied from 3.7 to 8.3, and activities possessed optimal pHs of between 5.9 and 6.5.     

Supernatant protein and cellulase activities of the anaerobic ruminal fungus Neocallimastix frontalis EB188

Protein and cellulose activities were measured in culture supernatants of the anaerobic ruminal fungus Neocallimastix frontalis EB188 established in glucose medium and switched to either glucose, cellobiose, or cellulose media. Polyacrylamide gel electrophoresis was used to show differences caused by changing medium carbon source. Culture supernatants contained proteins with molecular weights ranging from greater than 116,000 to about 19,000. Low levels of cellulose activity were evident in glucose-grown cultures. Increased amounts of slowly migrating cellulase activities appeared in the supernatants of glucose-grown cultures switched to cellulose. Cellulase activities which reacted differentially during colorimetric and in situ assays were produced. Isoelectric points of cellulase activities varied from 3.7 to 8.3, and activities possessed optimal pHs of between 5.9 and 6.5.     

Remarkably AT-rich genomic DNA from the anaerobic fungus Neocallimastix.

The genomic DNA of an anaerobic rumen phycomycete of the genus Neocallimastix has been purified and characterized. The non-repetitive fraction of the DNA has a G.C content of only 13%. The ribosomal RNA genes are highly reiterated, making up about 30% of the total DNA, and are evident as a more G.C-rich satellite with a repeating unit of about 9.4 kilobases (Kb). A.T-rich regions of DNA are highly dispersed and possess some sequence complexity. Chemical analysis of the DNA constituents reveals no evidence of modified bases. The genome of this anaerobic fungus has the highest A.T content of any organism so far described.     

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.     

Xylanolysis by cocultures of the rumen fungus Neocallimastix frontalis and ruminal bacteria

The effect of fibrolytic and saccharolytic rumen bacteria on xylanolysis by the rumen fungus Neocallimastix frontalis has been investigated. In cocultivations N. frontalis interacted synergistically with Bacteroides ruminicola, Succinivibrio dextrin-osolvens and Selenomonas ruminantium during xylan utilization. Xylan utilization decreased in cocultures containing Lachnospira multiparus or Streptococcus bovis. Ruminococcus flavefaciens appeared to inhibit fungal growth.     

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.     

Inhibition of the rumen anaerobic fungus Neocallimastix frontalis by fermentation products

The effects of bacterial fermentation products on cellulose degradation by the rumen fungus Neocallimastix frontalis have been investigated. H₂, formate, lactate and ethanol were strong inhibitors, particularly at high concentrations. Acetate and malate also inhibited, whereas succinate had a variable effect. Butyrate and propionate had no inhibitory effects.     

An acetylxylan esterase and a xylanase expressed from genes cloned from the ruminal fungus Neocallimastix patriciarum act synergistically to degrade acetylated xylans

A Neocallimastix patriciarum acetylxylan esterase (BnaA) was expressed from the cloned gene in Escherichia coli. Purified recombinant BnaA efficiently released acetate from soluble acetylated birchwood xylan (ABX), with a specific activity of 76 U mg⁻¹. In contrast, release of acetate was very inefficient from the insoluble substrates, spear grass and delignified spear grass. Addition of a recombinant xylanase, XynA, also expressed from a cloned N. patriciarum gene, had no effect on the release of acetate from ABX. However, the combination of recombinant BnaA and XynA released more acetate from spear grass and delignified spear grass than did BnaA alone. Significantly more reducing sugar was also released from all three substrates by the combination of recombinant XynA and BnaA than by XynA alone. Thus the extent of digestion of acetylated xylans by XynA appears to be limited by the acetylation. In this system BnaA does not appear to increase the rate of cleavage of insoluble substrates by XynA, but probably allows the release of shorter xylose oligomers from already solubilised acetylated xylan polymers. Received: 11 January 1999 / Accepted: 28 February 1999     

Glycosidases of the rumen anaerobic fungus Neocallimastix frontalis grown on cellulosic substrates.

The rumen anaerobic fungus Neocallimastix frontalis was grown on cellulosic substrates, and the cellular distribution and types of glycosidases produced by the organism were studied. Fungal cultures were fractionated into extracellular, insoluble (membrane), and intracellular fractions and assayed for glycosidase activity by using Avicel, carboxymethylcellulose, xylan, starch, polygalacturonic acid, and the p-nitrophenyl derivatives of galactose, glucose, and xylose as substrates. Enzymic activity was highest in the extracellular fraction; however, the membrane fraction also displayed appreciable activity. The intracellular fraction was inactive towards all substrates. Polygalacturonic acid was the only substrate not hydrolyzed by the active fractions, indicating that pectinase was absent. The results show that N. frontalis, a common rumen anaerobic fungus, produces enzymes for degrading cellulose and hemicellulose, key components of plant fiber.     

Production and regulation of cellulase by two strains of the rumen anaerobic fungus Neocallimastix frontalis.

Cellulase production was examined in two strains of Neocallimastix frontalis, namely, PN-1 isolated from the ovine rumen, and PN-2 from the bovine rumen. For both strains, carboxymethylcellulase (CMCase) had a pH optimum of 6.0 and a temperature optimum of 50 degrees C. CMCase resided mainly in the culture fluid, and activities up to 170 U ml-1 (1 U represents 1 microgram of glucose equivalents released per min) were obtained for cultures grown on 2.5 mg of cellulose ml-1. For resting cultures of strain PN-1, the yield of CMCase increased from 9.9 X 10(3) to 10.4 X 10(4) U per g of cellulose degraded, as the initial cellulose concentration decreased from 10 to 0.58 mg ml-1. The range for PN-2 was 8.1 X 10(3) to 11 X 10(4) U g-1. Shaking cultures improved yields for strain PN-1 but not for PN-2. Decreased CMCase production at high initial cellulose concentrations concurred with accumulation of glucose, and addition of glucose (4 mg ml-1) to cultures grown on low cellulose in which none of the sugar accumulated repressed CMCase. Adsorption of CMCase was excluded as a likely explanation for decreased yields at high initial cellulose as only a low proportion (less than 20%) of the enzyme was adsorbed onto the growth substrate. Exoglucanase, measured with alkali-treated Sigmacell or Avicel, gave low levels of activity in the culture fluid (less than 2 U ml-1) and did not appear to be associated with the fungal rhizoid, as treatment with various solubilizing agents failed to give increased activity.(ABSTRACT TRUNCATED AT 250 WORDS)     

Plant seed oil-bodies as an immobilization matrix for a recombinant xylanase from the rumen fungus Neocallimastix patriciarum

Canola seed oil-bodies were investigated as a production vehicle and immobilization matrix for xylanases. A recombinant xynC gene from Neocallimastix patriciarum encoding a xylanase (XynC) was fused to an oleosin coding sequence suitable for targeting the xylanase to the oil-body membrane. This fusion gene was introduced into Brassica napus using Agrobacterium-mediated transformation. Transgenic Canola plants were obtained expressing xylanase which was targeted to the oil-bodies of seeds as shown by analysis with XynC-specific antibodies. Oil-bodies extracted from transgenic seeds exhibited xylanase activity, indicating the immobilization of XynC on the surface of oil bodies and the functioning of the xylanase as a fusion protein. The immobilized XynC retained its optimal temperature, K_m value and specificity. However, it exhibited reduced sensitivity to pH. Furthermore, it was shown that the enzyme immobilized on oil-bodies could be recycled by flotation several times without loss of activity.     

Extracellular pectin lyase produced by Neocallimastix sp. LM1, a rumen anaerobic fungus

A viscometric assay was used to assess the extracellular pectinolytic enzyme activity produced by Neocallimastix sp. LM1 during growth in a medium containing grass leaves as substrate. The highest activity was measured at pH 8.0, in the presence of CaCl₂. This anaerobic fungus apparently produced an endo-acting pectin lyase (EC 4.2.2.10), which was induced in the presence of pectin.     

Production and regulation of cellulase by two strains of the rumen anaerobic fungus Neocallimastix frontalis

Cellulase production was examined in two strains of Neocallimastix frontalis, namely, PN-1 isolated from the ovine rumen, and PN-2 from the bovine rumen. For both strains, carboxymethylcellulase (CMCase) had a pH optimum of 6.0 and a temperature optimum of 50 degrees C. CMCase resided mainly in the culture fluid, and activities up to 170 U ml-1 (1 U represents 1 microgram of glucose equivalents released per min) were obtained for cultures grown on 2.5 mg of cellulose ml-1. For resting cultures of strain PN-1, the yield of CMCase increased from 9.9 X 10(3) to 10.4 X 10(4) U per g of cellulose degraded, as the initial cellulose concentration decreased from 10 to 0.58 mg ml-1. The range for PN-2 was 8.1 X 10(3) to 11 X 10(4) U g-1. Shaking cultures improved yields for strain PN-1 but not for PN-2. Decreased CMCase production at high initial cellulose concentrations concurred with accumulation of glucose, and addition of glucose (4 mg ml-1) to cultures grown on low cellulose in which none of the sugar accumulated repressed CMCase. Adsorption of CMCase was excluded as a likely explanation for decreased yields at high initial cellulose as only a low proportion (less than 20%) of the enzyme was adsorbed onto the growth substrate. Exoglucanase, measured with alkali-treated Sigmacell or Avicel, gave low levels of activity in the culture fluid (less than 2 U ml-1) and did not appear to be associated with the fungal rhizoid, as treatment with various solubilizing agents failed to give increased activity.(ABSTRACT TRUNCATED AT 250 WORDS)