Pectinase production by a Brazilian thermophilic fungus <Emphasis Type="Italic">Thermomucor indicae-seudaticae</Emphasis> N31 in solid-state and submerged fermentation

Thermophilic organisms produce thermostable enzymes, which have a number of applications, justifying the interest in the isolation of new thermophilic strains and study of their enzymes. Thirty-four thermophilic and thermotolerant fungal strains were isolated from soil, organic compost, and an industrial waste pile based on their ability to grow at 45°C and in a liquid medium containing pectin as the only carbon source. Among these fungi, 50% were identified at the genus level as Thermomyces, Aspergillus, Monascus, Chaetomium, Neosartoria, Scopulariopsis, and Thermomucor. All isolated strains produced pectinase during solid-state fermentation (SSF). The highest polygalacturonase (PG) activity was obtained in the culture medium of thermophilic strain N31 identified as Thermomucor indicae-seudaticae. Under SSF conditions on media containing a mixture of wheat bran and orange bagasse (1 : 1) at 70% of initial moisture, this fungus produced the maximum of 120 U/ml of exo-PG, while in submerged fermentation (SmF) it produced 13.6 U/ml. The crude PG from SmF was more thermostable than that from SSF and exhibited higher stability in acidic pH.     

Glycosidases of moulds

Selection of a large number of different strains of hyphal fungi of the genusAspergillus, capable of production of extracellular mannosidase and mannanase type enzymes, was carried out. Before cultivating the strains on liquid synthetic medium containing 0.5%Saccharomyces cerevisiae mannan as the carbon source, they were adapted by multiple passage on solid synthetic media containingd-mannose,d-mannose and α-mannan and lastly only α-mannan. The extracellular enzymatic preparations of the mould fungi were tested for their ability to hydrolyse three different substrates—Saccharomyces cerevisiae, Torulopsis ingeniosa andTorulopsis colliculosa mannan. The production of α-mannosidase was found to be specifically dependent on the character of the substrate used for cultivation of the fungus.     

Selection and characterization of mannanase-producing bacteria useful for the formation of prebiotic manno-oligosaccharides from copra meal

In order to select bacterial strains effectively secreting mannanase activity for the production of prebiotic mannooligosaccharides, a two-step screening procedure was performed. Enriched cultures from isolation medium containing copra meal were primary screened on an isolation agar medium containing 1% locust bean gum (LBG), which resulted in 48 mannanase-producing bacterial isolates with significant clearing zones on the mannan-containing agar. However, only nine isolates showed appreciable mannanase activities against copra meal in their culture supernatants (0.054–0.185 U/mg of protein) as determined in a standard assay based on the detection of reducing sugars released from this substrate. The isolates CW2-3 and ST1-1 displayed the highest activity against LBG and copra meal, respectively. Copra mannan hydrolysates that were obtained by using crude mannanase from these nine isolates were further used for a secondary screening towards a growth-enhancing activity on Lactobacillus reuteri and inhibitory activity against Escherichia coli as well as Salmonella Enteritidis, resulting in 0.09–2.15 log CFU/ml enhancing activity and low inhibitory activity of 0.46–1.78 log CFU/ml as well as 0.37–1.72 log CFU/ml, respectively. The hydrolysate of CW2-3 mannanase showed the highest enhancing activity of 2.15 log CFU/ml while isolate ST1-1 was most effective with respect to growth inhibition against E. coli E010 and S. Enteritidis S003 with 0.76 and 1.61 log CFU/ml, respectively. Based on morphological, physical, biochemical and genetics properties, isolates CW2-3 and ST1-1 were identified as Klebsiella oxytoca and Acinetobacter sp., respectively. Crude mannanase activity from these two strains was characterized preliminarily. The pH optima of mannanase activity from Klebsiella oxytoca CW2-3 and Acinetobacter sp. ST1-1 were 7 and 6, respectively. The enzymes were stable at 4°C over a pH range of 3–6 and 3–10, respectively.     

Production and characterization of a highly active cellobiase from Aspergillus niger grown in solid state fermentation

Summary Aspergillus niger produced extracellular cellobiase when grown on different lignocellulosic substrates in solid state fermentation. The enzyme activity and yield were variable according to the carbon source. In Vogel’s medium, the cellobiase productivity was significantly higher on wheat bran, followed by Leptochloa fusca (kallar grass) straw augmented with corn steep liquor. Maximum yield of cellobiase/g wheat bran was significantly higher than the values reported on other potent fungi, bacteria and recombinants, harboring heterologous gene for cellobiase. This enzyme in the presence and absence of Trichoderma reesei and celluloclast, saccharified the biomass and the percentage saccharification as well as glucose yield from lignocellulosic biomass was doubled in its presence. The partially purified enzyme was thermotolerant as evidenced by melting temperature, activation energy demand for active catalysis, enthalpy and entropy of activation for reversible or irreversible thermal inactivation.     

Hyperproduction of Proteinase and Some Hydrolytic Enzymes by Mutants of Aspergillus sojae

Mutant strains of Aspergillus sojae exhibited coordinate increases of acid proteinase, α-amylase, and cellulase and a decrease of pectin trans-eliminase accompanied with the hyperproduction of alkaline proteinase in wheat bran koji culture. The production of these enzymes in the wheat bran solid medium, liquid wheat bran-defatted soybean medium, and liquid glucose-peptone medium were surveyed. The analyses on the production patterns of these enzymes under the different cultural conditions suggest that mutation in these mutants producing elevated levels of the above enzymes is due to a more complex alteration than a single gene mutation.     

Cellulase-free xylanase by thermophilic fungi: a comparison of xylanase production by two Thermomyces lanuginosus strains

Thermomyces lanuginosus strains RT9 and MH4 were studied to find favourable cultivation conditions and to compare their abilities to produce xylanolytic enzymes in three media on different substrates at 50° C or 55° C under shake-culture conditions. Both organisms produced xylanases free of cellulase at widely different levels in all cultivation conditions employed. Wheat bran, corn cobs and xylan induced xylanases in increasing order of producing with both cultures. T. lanuginosus RT9 demonstrated the highest xylanase production in all cultivation conditions but with lower soluble protein, reducing sugar, -xylosidase and debranching enzymes levels (arabinosidase, acetylxylanesterase, mannanase) when compared to T. lanuginosus MH4. The study reveals that xylanase production was highly influenced by nitrogen sources and their concentrations and by the initial pH in the cultures. The two strains may therefore be unique, when technical application is considered in terms of the quantity and quality of the xylanolytic enzymes produced.     

Hemicellulolytic enzymes of the ligninolytic white-rot fungus phlebia radiata. determination of enzyme activities

The ligninolytic fungus Phlebia radiata growing in a low-nitrogen medium, with wheat bran as the sole carbon source, produces a wide spectrum of hemicellulolytic enzymes. During the growth of the fungal culture, some properties of these enzymes were investigated.     

Influence of pectin and glucose on growth and polygalacturonase production by Aspergillus niger in solid-state cultivation

The solid-state production of endo- and exo-polygalacturonases (PG) by Aspergillus niger was studied in a media containing wheat bran, salts, and different citric pectin and/or glucose concentrations. Kinetic analysis of the process indicated that the formation of PG and the growth of A. niger are associated processes. By increasing citric pectin from 0 to 16% (w/w), the maximum A. niger concentration (X _m) was raised from 94 to 121 mg/g dry medium suggesting that pectin can be used by A. niger as a growth substrate besides its role as an inducer. With 16% (w/w) pectin, 281 U exo-PG/gdm and 152 U endo-PG/gdm were obtained. Otherwise, pectin concentrations from 20 to 30% (w/w) hindered both production and growth. A. niger concentrations of 108–113 mg/gdm were achieved in runs with glucose from 5 to 12% (w/w), whereas at 16 and 20% (w/w) glucose, lower X _m values (ca. 100 mg/gdm) were measured. The addition of glucose to the wheat bran medium, up to 10% (w/w) led to maximum endo-PG titers slightly lower than those found in the absence of glucose. Nevertheless, exo-PG formation in these media was strongly increased and activities over 370 U/gdm were achieved. The results suggest that in experiments with pectin concentrations until 16% (w/w), exo-PG production was repressed by pectin-degradation products although these same substances had favored biomass growth. When glucose concentrations over 10% (w/w) were added to the media, the maximum activities of both enzymes decreased drastically, suggesting that glucose at high concentrations also exerts a repressive effect on PG production.     

Pectinolytic enzyme production by Bacillus species and their potential application on juice extraction

Five Bacillus strains isolated from decaying vegetable material were cultivated on wheat bran and endo-polygalacturonases, exo-polygalacturonase and pectin lyase activities in the crude enzymatic solution obtained were determined. Highest activity was observed for all enzymes when fermentation was carried out at 28 °C, the highest activity values were obtained after 120 h of cultivation for exo-PG and after 48 h for endo-PG and PL. The use of the enzymatic solution for treatment of fruits and vegetable mash afforded a high juice extraction and a pulp with good pressing characteristics.     

Hemicellulolytic enzymes of the ligninolytic white-rot fungus Phlebia radiata. Influence of phenolic compounds on the synthesis of hemicellulolytic enzymes

The ligninolytic fungus Phlebia radiata growing in a low-nitrogen medium with wheat bran as the sole carbon source was induced by some lignin monomers, e.g. vanillic, veratric and ferulic acids. In the medium these substances showed a mainly stimulating influence on the hemicellulolytic enzymes activity except for arabinofuranosidase and ferulic acid esterase.     

Pectolytic enzymes activity and pathogenicity ofGaeumannomyces graminis var.tritici and related Phialophora-like fungi

Gaeumannmyces graminis var.tritici (Ggt), Phialophora sp. (lobed hyphopodia) andPhialophora graminicola vere grown in a liquid medium with pectin and on autoclaved wheat roots (root media) and the activity of pectolytic enzymes in culture filtrates was measured. Most strains of the fungi exhibited polygalacturonate trans-eliminase activity but no pectin methylesterase activity was detected.Ggt polygalacturonase was found in culture filtrates from all the media used whilePhialophora sp. did not exhibit activity of this enzyme in the unbuffered root media. No polygalacturonase activity was demonstrated forP. graminicola. A correlation was found (r=0.548) betweenin vitro polygalacturonase activity and the pathogenicity ofGgt to wheat seedlings.     

Influence of the mycelium growth conditions on the production of amylolytic,proteolytic and pectinolytic enzymes by Aspergillus niger C

Various nitrogen and carbon sources, as well as natural products, were examined as inducers of the production of amylases, proteases and pectinases by A. niger C. A. niger C grown on wheat bran extract medium provided culture supernatants with the highest enzymatic activities. Some culture conditions, e.g. pH, medium temperature and time period of cultivation, were optimalized to improve the growth and enzymes biosynthesis by A. niger C.     

Studies on Pectic Enzymes of Microorganisms

To pick out potent strains which specifically produce one of several pectic enzymes, endo- and exo-polygalacturonase, pectin esterase, macerating, and apple juice clarifying activities were examined with regard to 344 strains of mold (containing 71 strains of phytopathogenic mold) grown on a bran culture medium and 56 strains of shakingly cultured yeast. As the result of screening, Asper gillus saitoi and Penicillium islandicum were isolated as potent specific producers of endo-polygalacturonase. And the composition of pectic enzymes of mold was found to be rather genus or species specific. So far as examined in crude enzyme systems, there was no parallelism between anyone of pectic enzyme activities and apple juice clarifying or macerating activities.     

Characterization and <Emphasis Type="Italic">in vitro</Emphasis> expression patterns of extracellular degradative enzymes from non-pathogenic binucleate <Emphasis Type="Italic">Rhizoctonia</Emphasis> AG-G

Many filamentous fungi produce an array of extracellular enzymes that acting in cell walls release elicitors of the plant defense response These enzymes may therefore be important in biocontrol applications. The aim of this study was to characterize extracellular degradative enzymes produced by a non-pathogenic binucleate isolate of Rhizoctonia AG-G. The fungus was grown in liquid culture supplemented with pectin, polygalacturonic acid or glucose as a carbon sources and filtrates of the culture media were analyzed for the detection of pectinolytic and glucan hydrolytic enzymes. Using only pectin as a carbon source, secretion of polygalacturonases and methylesterases was found. When the liquid medium was supplemented with polygalacturonic acid, only polygalacturonase activity was detected. However, when glucose was used as carbon source -1,3 and -1,6 glucanases activities were detected, using laminarin and pustulan as substrates, but none of the pectinolytic activities were found. These enzymes were partially purified and characterized. The -(1,3)(1,6) glucanase and polygalacturonase enzymes showed to be active against cell wall polysaccharides from potato sprouts. These enzymes may have an important role in fungus-plant cell wall interaction. This is the first study about the production of extracellular enzymes by non-pathogenic binucleate Rhizoctonia AG-G.     

Polygalacturonase, Pectate Lyase and Pectin Methylesterase Activity in Pathogenic Strains of Phytophthora capsici Incubated under Different Conditions

Pectolytic enzymes are found mainly in fungi and bacteria. The most widely occurring enzymes are polygalacturonase (PGs), pectin methylesterase (PMEs) and pectate lyase (PLs) produced during the infection process and during culturing. The secretion of these enzymes results in the disorganization of the plant cell walls, which is responsible for the pathogenicity of the pathogens. These enzymes degrade the pectin of plants causing maceration of plant tissues and the enzyme activity increases under favourable environmental conditions. We have found that Phytophthora capsici , a pathogenic oomycete, produces levels of these three enzymes equal to those produced by soft-rotting Erwinia chrysanthemi . The activity of PGs, PLs and PMEs was investigated at the optimum temperature, pH and ionic strength in highly pathogenic P. capsici strains cultivated in two kinds of liquid medium containing either crude pepper extracts plus pectin or pectin as the carbon source. Virulence tests and enzymes activity showed that there was a high correlation between the enzyme activity and the pathogenicity of P. capsici . The effects of different carbon sources on the enzyme activity showed that pepper extract plus pectin was the best source for the carbon source.     

Fibrinolytic activity of some fungi isolated from self-heated composted fertilizer

Mesophilic fungi isolated from organic fertilizer compost samples accounted for 70.94% of the total fungal count, while thermophilic and thermotolerant fungi constituted 29.05% of that count. Eight mesophilic fungal species, namelyAspergillus niger, Monilia sitophila, Paecilomyces divaricata, Penicillium chrysogenum, P. fellutanum, Scopulariopsis brevicaulis, S. brumptii andZygorhynchus japonicus; two thermophilic fungiHumicola grisea andOidiodendron flavum and three thermotolerant speciesAspergillus fumigatus, Thermomyces lanuginosus andZygorhynchus vuilleminii were isolated during the study. Most of the tested fungi showed a proteolytic activity and liquified gelatin in the test tube method and in cup plates. The thermophilic fungusO. flavum was the most potent proteolytic fungus. The comparative fibrinolytic assay revealed the following sequence in the ability of the tested fungi to hydrolyse fibrin:O. fiavum>S. brevicaulis>H. grisea>A. fumigatus>T. lanuginosus.     

Extracellular mannanases and galactanases from selected fungi

Summary Eight thermophilic fungi were tested for production of mannanases and galactanases. Highest mannanase activities were produced byTalaromyces byssochlamydoides andTalaromyces emersonii. Mannanases from all strains tested were induced by locust bean gum except in the case ofThermoascus aurantiacus, where mannose had a greater inducing effect. Locust bean gum was also the best inducer of -mannosidase and galactanase except in the case ofT. emersonii where galactose was a better inducer of both these enzymes. Highest mannanase activity was produced byTalaromyces species when peptone was used as nitrogen source whereas sodium nitrate promoted maximum production of this enzyme byThielavia terrestris andT. aurantiacus. The pH optima of mannanases from the thermophilic fungi were in the range 5.0–6.6 and contrasted with the low pH optimum (3.2) of the enzyme fromAspergillus niger. Galactanases had pH optima in the range 4.3–5.8. The mannanase fromT. emersonii and the galactanase fromT. terrestris were most thermostable, each retaining 100% activity for 3 h at 60°C.     

Response surface methodology for the optimization of <Emphasis Type="Italic">α</Emphasis>-amylase production by <Emphasis Type="Italic">Streptomyces</Emphasis> sp. ML12 using agricultural byproducts

Amylases constitute one of the most important groups of enzymes for commercial use. In the present study, production of α-amylase was optimized using a newly isolated actinobacterial strain from the coral reef environment of the Gulf of Mannar Biosphere Reserve, India. It was identified as Streptomyces sp. ML12 based on chemotaxonomy, cultural and morphological characteristics, carbon source utilization and 16S rRNA gene sequencing. Fermentation variables were selected in accordance with the Plackett-Burman design and were optimized by response surface methodology. Five significant variables (rice bran and wheat bran — both agricultural byproducts, sodium chloride, magnesium sulphate and incubation period) were selected for the optimization via central composite design. The optimal features were rice bran (5.5 g/100 mL), wheat bran (5.3 g/100 mL), sodium chloride (2.8 g/100 mL), magnesium sulphate (1.4 g/100 mL) and 8 days of incubation period. Optimization of the medium with the above tested features increased the amylase yield by 4.4-fold.     

不同真菌纤维素酶一些生物化学性质的比较

比较了属于6个属,即青霉(Penicillium)、曲霉(Aspergillus)、木霉(Trichoderma)、漆斑菌(Myrothecium)、镰孢霉(Fusarium)和腐质霉(Humicola),总计9株真菌在麦麸液体培养基中所产纤维素酶的一些生物化学性质。此外,还比较了这9株真菌在麦麸固体培养基上所产纤维素酶的活力以及对脱脂棉、水曲柳木屑、水曲柳木粉、废报纸和玉米芯糠醛废渣的糖化能力。