Morphology-associated expression of NADP-dependent glutamate dehydrogenases during yeast-mycelium transition of a dimorphic fungus Benjaminiella poitrasii

Benjaminiella poitrasii, a dimorphic zygomycetous fungus possesses three glutamate dehydrogenases, one requiring NAD while the other two use NADP as a coenzyme. In the activity staining after electrophoresis on native polyacrylamide gel NAD- dependent glutamate dehydrogenase revealed the presence of one enzyme that was expressed in both, yeast- and mycelium-form cells. While in case of NADP- dependent glutamate dehydrogenase two distinct activity bands that were differentially expressed in yeast- and mycelium-form cells were seen. Interestingly, during yeast-mycelium transition and reverse, quantitative changes in form-specific native NADP-dependent glutamate dehydrogenase activities were seen. The biochemical data on temperature and pH optima, thermostability, and kinetic properties confirmed the presence of two NADP-dependent proteins in B. poitrasii, parent strain. The monomorphic mutant (Y-5, yeast form) showed NADP- glutamate dehydrogenase similar to parent yeast-form enzyme. For the first time the significance of differential expression of these enzymes during morphological transition in B. poitrasii has been suggested.     

Chitinolytic activities of <Emphasis Type="Italic">Clostridium</Emphasis> sp. JM2 isolated from stool of human administered per orally by chitosan

The novel chitinolytic bacterium Clostridium beijerinckii strain JM2 was isolated from the stool of healthy volunteers supplied daily per orally with 3 g of chitosan. The bacterium grown on colloidal chitin produced a complete array of chitinolytic enzymes. Significant activities of endochitinase, exochitinase and chitosanase were excreted into the medium (301, 282 and 268 nkat/μg protein, respectively). The high cellular activity of N-acetyl-β-glucosaminidase (NAGase) and chitosanase were detected (732.4 and 154 nkat/μg protein, respectively). NAGase activity represented the main activity associated with the cellular fraction. The activities of both enzymes tested increased from 20 to 50 °C; the optimum reaction temperature estimated being 50 °C. Endochitinase as well as NAGase showed an activity in the pH interval of 4.0–8.0; the optimum pH values were 6.5 and 6.0, respectively. The extracellular endochitinase complex consisted of six isoenzymes with molar mass of 32–76 kDa; in the cellular fraction five bands with molar mass of 45–86 kDa were detected. Exochitinase activity was demonstrated in the form of three bands (with molar mass of 30–57 kDa), NAGase activity displayed one band of 45 kDa.     

Possible involvement of cyclic adenosine 3',5'-monophosphate in the regulation of NADP-/NAD-glutamate dehydrogenase ratio and in yeast-mycelium transition of Benjaminiella poitrasii.

The effect of different adenine-containing compounds on the NADP-/NAD-glutamate dehydrogenase (GDH) ratio was studied as a function of yeast-mycelium transition in Benjaminiella poitrasii. Under in vivo conditions, at a 5.0 mM concentration, cyclic AMP (cAMP) and dibutyryl cAMP maintained the cells in the yeast form for up to 7 and 5 h, respectively, and this was reflected in the patterns of GDH ratios observed. In vitro studies of phosphorylation and dephosphorylation have also been carried out, and the results suggest a possible correlation between cAMP, the GDH ratio, and cell form in B. poitrasii.     

A multienzyme bioreactor based on a chitinase complex

A heterogeneous biocatalyst containing a complex of chitinolytic enzymes isolated from the culture medium of bacteria Clostridium paraputrificum on the surface of macroporous monolithic minidisc was obtained. The complex of chitinolytic enzymes was immobilized on the polymer matrix using a multistep method involving the introduction of an intermediate macromolecular spacer. The endochitinase and N-acetylglucosaminidase activity of the heterogeneous biocatalyst was studied.     

Identification and characterization of Clostridium paraputrificum,a chitinolytic bacterium of human digestive tract

A strictly anaerobic, mesophilic and chitinolytic bacterial strain was isolated from human feces. Based on morphological and physiological properties and 16S rRNA sequence analysis the strain was identified asClostridium paraputrificum. The strain utilized chitin andN-acetyl-d-glucosamine, grew on glucose and hydrolyzed starch. Cultivation of the strain with colloidal chitin as the growth substrate resulted in the production of gas (hydrogen and carbon dioxide) and formation of acetate and lactate (21.6 and 18.9 mmol/L, respectively) and only small quantities of propionate and butyrate (1.7 and 2.6 mmol/L, respectively). In the course of a 10-d cultivation with chitin, the endochitinase activity was detected after 1 d and gradually increased, reaching maximum after 3 d (251 nkat/LN-acetyl-d-glucosamine). The β-N-acetyl-glucosaminidase activity appeared just at the beginning of the cultivation, increased to day 2 and then remained nearly constant. More than 90% of chitin added was degraded within 2 d of cultivation. On the zymogram of the extracellular chitinolytic complex were visible at least 6 isoenzymes with molar mass 43.5–65.0 kDa. The temperature optimum of endochitinase and β-N-acetylglucosaminidase activities was 50°C; the optimum activity of both enzymes was found at pH 4–6.     

Isolation and regeneration of protoplasts from the yeast and mycelial form of the dimorphic zygomycete Benjaminiella poitrasii: role of chitin metabolism for morphogenesis during regeneration

Experimental parameters for isolation and regeneration of protoplasts from the mycelial and yeast form cells of the dimorphic zygomycete Benjamininiella poitrasii are reported. Using a chitosanase containing preparation from Streptomyces sp. MCl we obtained protoplasts after 5 h incubation with a yield of 2+/-0.3 x 10(6) ml(-1) and 3+/-0.4 x 10(7) ml(-1) for the mycelial and yeast form, respectively. During regeneration under conditions triggering dimorphism the two morphological forms were observed after 36 h. Initially, for 10-12 h only an irregular mass was formed as a result of deregulated cell wall synthesis. Among the tested inhibitors influencing cell wall metabolism, chitin metabolism inhibitors showed distinctive effects on the regeneration of protoplasts suggesting that the respective enzymes significantly contribute to determining the morphogenesis of the dimorphic fungus B. poitrasii.     

Significance of NADP/NAD glutamate dehydrogenase ratio in the dimorphic behavior of Benjaminiella poitrasii and its morphological mutants.

Studies on the levels of glutamate dehydrogenase (GDH), glutamine synthetase, and glutamate synthase were carried out as a function of temperature, nutritional conditions, and the morphological (yeast or mycelium) form of Benjaminiella poitrasii. Since both NAD- and NADP-dependent GDH activities were found in B. poitrasii, the quantitative relation between these two enzymes expressed as the NADP-GDH/NAD-GDH activity ratio (GDH ratio) was studied to evaluate its possible role in the morphogenesis. In the yeast-to-mycelium transition, a decrease in the GDH ratio occurred (between 1 and 2 h) and germ tube formation could be observed only at 3 h. Under similar sets of experimental conditions, exogenous addition 1.0 mM of alpha-ketoglutarate delayed germ tube emergence (4 h) compared with the control. On the other hand, in the presence of 1.0 mM glutamate an earlier onset of the germ tube formation was noted. The morphological (monomorphic) mutants, Y-2 and Y-5, showed a high GDH ratio and maintained the yeast morphology.     

Localization of chitinolytic enzymes in blood of turbot, Scophthalmus maximus, and their possible roles in defence

The intracellular localizations ofchitinase and β-N-acetylglucosaminidase were detected in turbot blood smears, using a novel method employing fluorogenic substrates. The two enzymes showed different distributions, with chitinase being more generally distributed and N-acetylglucosaminidase being strongly associated with distinct intracellular bodies, probably lysosomes. The fluorogenic substrates were used to analyse soluble and membrane fractions of homogenates of red and white blood cells prepared on Percoll gradients. In the leucocytes, the chitinase and N-acetylglucosaminidase activities were mostly in the soluble fraction. In the erythrocytes the activities were lower, at about one-hundredth and one-tenth specific activities, respectively, and were distributed between soluble and membrane-bound fractions at about 2 : 1 and 3 : 1, respectively. In contrast, lysozyme had a soluble distribution in leucocytes and was not detected in erythrocytes. Plasma was rich in chitinase and lysozyme activities but had no detectable N-acetylglucosaminidase. Two possible roles for the chitinolytic enzymes are discussed: defence against pathogens and processing of glycoproteins or glucosaminoglycans. Evidence for a defence role for the chitinase and lysozyme is provided by demonstrating that they had inhibitory activity against the chitinous fungus Mucor mucedo .     

Purification of a thermostable endochitinase from Streptomyces RC1071 isolated from a cerrado soil and its antagonism against phytopathogenic fungi

AIMS: The chitinolytic activity of an actinomycete, isolated from a tropical acidic ferrasol (FAO) under cerrado (savanna) vegetation, is reported. METHODS AND RESULTS: Selection of the strain was based on spot inoculation on solid colloidal chitin medium. The use of chemotaxonomic, morphological and physiological procedures placed it in the Streptomyces genus, but identification to species level could not be achieved. A protein with endochitinase activity was isolated and purified from the supernatant fluid by concentration, precipitation, hydrophobic interaction, gel filtration and adsorption procedures. The molecular size of the purified chitinase was estimated by gel filtration to be 70 kDa, and its pI was 6.1. The enzyme had temperature and pH optima of 40 degrees C and 8.0, respectively, and showed thermal (30-70 degrees C) and pH (4-9) stabilities. Antifungal activity of the selected strain was observed following in vitro experiments using growing cells, crude extract or the purified endochitinase, and by detecting growth inhibition of the tested phytopathogenic fungi. CONCLUSION: Strain Streptomyces RC 1071 could not be placed into any known species, suggesting a new taxon. The purified endochitinase presented similar molecular weight, optimum temperature and pH activity, and stability of other endochitinolytic enzymes reported in the literature. In all three in vitro experiments performed, inhibition of growth of the phytopathogenic fungi used as test organisms was observed. SIGNIFICANCE AND IMPACT OF THE STUDY: Some of the endochitinase characteristics such as thermal stability, as well as pH tolerance, are very interesting for biotechnological purposes. In addition, due to its antifungal activity, Streptomyces RC 1071 seems promising for use in biological control.     

The zygomycetous fungus,Benjaminiella poitrasii contains a large family of differentially regulated chitin synthase genes

Benjaminiella poitrasii is a zygomycetous, non-pathogenic dimorphic fungus. Chitin synthases are the membrane bound enzymes involved in the synthesis of chitin and are key enzymes in the cell wall metabolism. Multiplicity of these enzymes is a common occurrence. Here, we identify eight distinct CHS genes in B. poitrasii as confirmed through DNA sequence and Southern analysis. These genes are related to other fungal CHS genes. BpCHS1-4 are class I-III chitin synthases while BpCHS5-8 are class IV-V chitin synthases. These eight genes are differentially expressed during morphogenesis and under different growth conditions. Two of these genes viz. BpCHS2 and BpCHS3 appear to be specific to the mycelial growth form. These are the first B. poitrasii sequences to be reported. Based on CHS gene sequences, B. poitrasii chitin synthase genes place it with other zygomycetes on a fungal phylogenetic tree.     

Partial characterization of chitinolytic enzymes from Streptomyces albidoflavus

Streptomyces albidoflavus NRRL B-16746 secreted three types of chitinolytic enzymes: N -acetyl-glucosaminidase, chitobiosidase and endochitinase. Optimal activity for all three types of enzymes occurred at pH 4–6; however 55–74% of the chitobiosidase and endochitinase activity was detectable at pH 8–10. Chitobiosidase activity originated from two strongly acidic (pI < 3.0) proteins with molecular mass of 27 kDa and 34 kDa, while endochitinase activity originated from five major acidic proteins (pI 5.1, 5.3, 5.75, 5.8–5.9 and 6.4) with molecular mass of 59, 45, 38.5, 27 and 25.5 kDa. Purified chitobiosidases significantly reduced spore germination and germ tube elongation of Botrytis cinerea and Fusarium oxysporum. Chitinolytic enzymes with significant activity at pH 4–10 may be used, transgenically, to reduce the growth and/or development of a broad spectrum of insects and fungi that are major economic pests.     

Properties of chitinolytic enzymes from the hepatopancreas of the red king crab (Paralithodes camtschaticus)

Our study confirms the presence of chitinolytic, chitosanolytic, and deacetylase activities in the hepatopancreas of the red king crab, related to the specific diet of this species. The maximum rate of chitin/chitosan hydrolysis by an enzyme preparation from crab hepatopancreas occurs at 36.5-37.0 degrees C. Two pH optimums have been found for the enzymatic reaction under mildly alkaline and acidic conditions for both exo- and endochitinase activities. The enzyme preparation is most affine to partly deacetylated chitin with an acetylation degree within 40-50%.     

Chitinolytic Enterobacter agglomerans Antagonistic to Fungal Plant Pathogens

Three Enterobacter agglomerans strains which produce and excrete proteins with chitinolytic activity were found while screening soil-borne bacteria antagonistic to fungal plant pathogens. The chitinolytic activity was induced when the strains were grown in the presence of colloidal chitin as the sole carbon source. It was quantitated by using assays with chromogenic p-nitrophenyl analogs of disaccharide, trisaccharide, and tetrasaccharide derivatives of N-acetylglucosamine. A set of three fluorescent substrates with a 4-methylumbelliferyl group linked by (beta)-1,4 linkage to N-acetylglucosamine mono- or oligosaccharides were used to identify the chitinolytic activities of proteins which had been renatured following their separation by electrophoresis. This study provides the most complete evidence for the presence of a complex of chitinolytic enzymes in Enterobacter strains. Four enzymes were detected: two N-acetyl-(beta)-d-glucosaminidases of 89 and 67 kDa, an endochitinase with an apparent molecular mass of 59 kDa, and a chitobiosidase of 50 kDa. The biocontrol ability of the chitinolytic strains was demonstrated under greenhouse conditions. The bacteria decreased the incidence of disease caused by Rhizoctonia solani in cotton by 64 to 86%. Two Tn5 mutants of one of the isolates, which were deficient in chitinolytic activity, were unable to protect plants against the disease.     

Optimisation of culture medium and conditions for alpha-l-Arabinofuranosidase production by the extreme thermophilic eubacterium Rhodothermus marinus

The culture medium for Rhodothermus marinus was optimised on a shake-flask scale by using statistical factorial designs for enhanced production of a highly thermostable alpha-L-arabinofuranosidase (AFase). The medium containing 3.6 g/l birch wood xylan and 8.2 g/l yeast extract yielded a maximum of 110 nkat/ml AFase activity together with 125 nkat/ml xylanase and 65 nkat/ml beta-xylosidase activity. In addition, low levels of beta-mannanase (30 nkat/ml), alpha-galactosidase (0.2 nkat/ml), beta-galactosidase (0.3 nkat/ml), endoglucanase (5 nkat/ml) and beta-glucosidase (30 nkat/ml) were detected in the culture filtrate. Among the various carbon sources tested, birchwood xylan was most effective for the formation of AFase and xylanase activities, followed by oat spelt and beechwood xylans, and xylan-rich lignocelluoses (e.g., starch-free sugar beet pulp and wheat bran). Constitutive levels of enzyme activities were detected when the bacterium was grown on other polysaccharides and low-molecular-weight carbohydrates. A fermentation in a 5-l fermenter (3-l working volume) using the optimised medium yielded 60 nkat/ml AFase associated with 65 nkat/ml xylanase and 35 nkat/ml beta-xylosidase activities. The crude AFase displayed optimal activity between pH 5.5 and 7 and at 85 degrees C. It had half-lives of 8.3 h at 85 degrees C and 17 min at 90 degrees C. It showed high stability between pH 5 and 9 (24 h at 65 degrees C). The combined use of AFase-rich xylanase and mannanase from R. marinus in the prebleaching of softwood kraft pulp gave a brightness increase of 1.8% ISO. To our knowledge, this is the first report on the production of a high AFase activity by an extreme thermophilic bacterium and this enzyme is the most thermostable AFase reported so far.     

Extracellular complex of chitinolytic enzymes of <Emphasis Type="Italic">Clostridium paraputrificum</Emphasis> strain J4 separated by membrane ultrafiltration

Membrane diafiltration was used for separation of the extracellular complex of chitinolytic enzymes of C. paraputrificum J4 free from contaminants with molar mass higher than 100 kDa and lower than 30 kDa. The enzyme complex containing β-N-acetylglucosaminidase (NAGase) and six endochitinases was concentrated on a membrane with cut-off 30 kDa. In this retentate, the NAGase/endochitinase specific activity was 13.5/6.5-times higher than in the initial culture filtrate. The proportion (in %) of endochitinases: 23 (90 kDa), 42 (86 kDa), 8 (72 kDa), 16 (68 kDa) and 8 (60 kDa) was calculated from their peak areas (determined by densitometry) in images of zymograms. NAGase (38 kDa) was less active and stable at pH lower than 4 and higher than 8 but it was more temperature-stable than endochitinases, especially at 40–60 °C. In contrast to endochitinases, the pH optimum of NAGase activity was shifted by ca. 0.7 pH units to the alkaline region. Extracellular NAGase together with six endochitinases secreted by C. paraputrificum J4 were separated by membrane diafiltration and characterized by molar mass, stability and activity in dependence on pH and temperature. The knowledge of composition of chitinolytic enzymes, their pH and temperature stability is useful for optimization of the separation process.     

Proteinases and exopeptidases from the phytopathogenic fungus Ustilago maydis

The proteolytic system of the phytopathogenic and dimorphic fungus Ustilago maydis is not known. In this work, we report the presence of at least four proteases from two haploid strains of U. maydis. Activities of two proteinases pumA and pumB, aminopeptidase pumAPE, and dipeptidylaminopeptidase pumDAP were measured under several nutritional and morphological conditions, including the yeast-mycelium transition. The activity of pumA was found in the intracellular and extracellular fractions, pumAi and pumAe, respectively. The latter activity was detected only during the yeast-mycelium dimorphic transition induced by growth at acid pH in a medium containing ammonium as the sole nitrogen source. Activity of pumAe was partially inhibited by Pepstatin A, which also inhibited mycelium formation. Activity of pumAi was inhibited by this specific inhibitor of aspartyl-proteases. Activity of pumB was detected in intracellular and extracellular fractions, mostly bound to an endogenous inhibitor, which was removed by treatment at acid pH. This fungus contains at least two soluble pumAPE, which might be metallo-proteases, because they were inhibited by EDTA and 1-10, phenanthroline. When the fungus was grown in media containing proline or corn infusion as the nitrogen source, an intracellular pumDAP activity was detected. No carboxypeptidase activity was found with N-benzoyl-l-tyrosine-4-nitroanilide as substrate in any of the conditions tested in any of the U. maydis strains analyzed.     

Cuticular and non-cuticular substrate influence on expression of cuticle-degrading enzymes from conidia of an entomopathogenic fungus,Nomuraea rileyi

Larval cuticle fromTrichoplusia ni, Helicoverpa (=Heliothis)zea, andHeliothis virescens and a cellulose substrate were used to quantify release of proteolytic, chitinolytic, and lipolytic enzymes by germinating conidia of the entomopathogenic fungus,Nomuraea rileyi. There was no significant difference in conidial viability incubated withT. ni, H. zea or cellulose substrates. Conidial viability onH. virescens cuticle, however, was significantly lower (ca. 19–25%) than the other three substrates. The presence of cuticle substrates, especially cuticle ofT. ni, stimulated germination. The nature of the substrate influenced both the time and quantity of the enzymes expressed. Specific proteases (aminopeptidase, chymoelastase, trypsin) generally were expressed earlier and/or in greater quantities on cuticular than on the cellulose substrate. Although both chitinolytic enzymes (endochitinase, N-acetylglucosaminidase) were detected on all three cuticular substrates, their activity was substantially lower than that of the proteolytic enzymes. Lipase activity was only minimally present. Early concurrent release of both proteases and chitinases suggested that both may be important in the penetration of the larval integument by germinating conidia ofN. rileyi. Expression of proteases and chitinases, especially aminopeptidase and endochitinase was probably a specific response to cuticle, because little or no activity was expressed on the non-host, cellulose substrate.This article reports the results of research only. Mention of a proprietary product in this paper does not constitute a recommendation for use by the US Department of Agriculture.     

Improved mannan-degrading enzymes' production by Aspergillus niger through medium optimization

The effect of different carbon and nitrogen sources on the production of mannan-degrading enzymes, focussing on β-mannanase, by Aspergillus niger was investigated using shake flask culture. The β-mannanase activity obtained during growth of A. niger on guar gum (GG, 1495 nkat mL(-1)) was much higher than those observed on other carbon substrates, locust bean gum (1148 nkat mL(-1)), α-cellulose (10.7 nkat mL(-1)), glucose (8.8 nkat mL(-1)) and carboxymethylcellulose (4.6 nkat mL(-1)). For fermentation using GG as a carbon source, bacteriological peptone gave the highest β-mannanase activity (1744 nkat mL(-1)) followed by peptone from meat (1168 nkat mL(-1)), yeast extract (817 nkat mL(-1)), ammonium sulphate (241 nkat mL(-1)), ammonium nitrate (113 nkat mL(-1)) and ammonium chloride (99 nkat mL(-1)) when used as a nitrogen source. The composition of bacteriological peptone and initial pH of the medium were further optimized using response surface methodology (RSM). Medium consisted of 21.3 g L(-1) GG and 57 g L(-1) peptone with initial culture pH of 5.5 was optimum for β-mannanase production (2063 nkat mL(-1)) by A. niger. The β-mannanase production obtained in this study using A. niger was significantly higher than those reported in the literature.     

Dimorphism of Benjaminiella poitrasii: Isolation and biochemical studies of morphological mutants

The yeast-mycelium dimorphims of the genus Benjaminiella poitrasii has been investigated. To understand the mechanism of dimorphism two stable yeast-phase mutants (Y-1 & Y-2) and one slow growing mycelial mutant (M-1) of B. poitrasii were isolated after NTG treatment of parent strain spores and studied for their biochemical characteristics. Effects of (i) kind and concentration of carbon source, (ii) presence of complex organic nitrogen and (iii) C:N ratio in the growth medium on the morphology of parent and mutant strains were carried out at 28°C under shaking conditions. Ethanol induced morphological change and its reversal were studied in all the strains in order to elucidate the possible mechanism of morphogenesis.