Endo-polygalacturonase production from untreated lemon peel byAspergillus sp. CH-Y-1043

Summary Endo-polygalacturonase (endo-PG) production byAspergillus sp. CH-Y-1043 using untreated lemon peel as the sole carbon source was investigated. This strain was observed to produce more activity of endo-PG at 37°C than at 29°C. Untreated lemon peel proved to be a beeter substrate than citrus pectin for endo-PG production. Modification of the culture medium and lowering of the initial pH to 2.8 caused a 10-fold increase in the production of endo-PG activity using lemon peel.     

Production of pectinolytic enzymes pectinase and pectin lyase by <Emphasis Type="Italic">Bacillus subtilis</Emphasis> SAV-21 in solid state fermentation

Pectin-degrading enzymes (pectinase and pectin lyase) were produced in solid state fermentation by Bacillus subtilis SAV-21 isolated from fruit and vegetable market waste soil of Yamuna Nagar, Haryana, India, and identified by 16S rDNA sequencing. Under optimized conditions, maximum production of pectinase (3315 U/gds) and pectin lyase (10.5 U/gds) was recorded in the presence of a combination of orange peel and coconut fiber (4:1), with a moisture content of 60% at 35 °C and pH 4.0 after 4 days and 8 days of incubation, respectively. Pectinase yield was enhanced upon supplementation with galactose and yeast extract, whereas pectin lyase production was unaffected by adding carbon and nitrogen source to the basal medium. Thus, B. subtilis SAV-21 can be exploited for cost-effective production of pectinase and pectin lyase using agro-residues.     

Culture conditions for the production of pectinolytic enzymes by the white-rot fungus Trametes trogii on a laboratory scale

Different cultural parameters that regulate pectinolytic enzyme production in vitro by Trametes trogii were studied. When grown in a medium containing pectin, T. trogii produced extracellular polymethylgalacturonase, polygalacturonase and pectin lyase but no pectate lyase activity. No significant differences in the maximum enzyme activities measured were observed with the addition of xylan, carboxymethylcellulose or both to the medium containing pectin. The addition of glucose to that medium considerably decreases all the activities studied, and in a medium with glucose as the sole carbon source no galacturonase activity could be measured, and pectin lyase activity was at its minimum. The low synthesis of pectin lyase in cultures containing glucose suggests that this enzyme is constitutive in contrast to the polygalacturonases that were not detected. The increase in pectin concentration stimulated growth and enzyme production. The highest specific activities were attained with the greatest concentration tested (15 g/l). Casamino acids were the best nitrogen source for enzyme production. Maximum growth was measured at pH 3.3; pH values of around 4.5 stimulated enzyme production, but high pectinase activities were also detected in media with more alkaline initial pH values (6.2 for galacturonases and 6.6 for lyases), probably owing to the specific induction of particular isoforms. In the range of 23 to 28°C, good results were obtained in growth as well as in enzyme production. The addition of Tween 80 promoted growth and gave the highest yield of polymethylgalacturonase and pectin lyase (0.37 and 36.2 E.U./ml, respectively). The highest polygalacturonase activity (1.1 E.U/ml) was achieved with polyethylene glycol. Tween 20 and Triton X-100 inhibited growth and pectinase production.     

Hydrolysis of orange peel by a pectin lyase-overproducing hybrid obtained by protoplast fusion between mutant pectinolytic Aspergillus flavipes and Aspergillus niveus CH-Y-1043

Pectin lyases cleave the internal glycosidic bonds of pectin by β-elimination, producing non-saturated galacturonic oligomers. Genetic improvement of pectin lyase-overproducing strains is still necessary to improve industrial processes based on this enzyme. In the present study hybrids were obtained by protoplast fusion between mutant pectinolytic Aspergillus flavipes and Aspergillus niveus CH-Y-1043 strains. Prototrophic segregants showed different isoenzymatic profiles and produced increased levels of pectin lyase in cultures containing lemon peel as a sole carbon source. Hybrid HZ showed an increase of 450% and 1300% in pectin lyase production compared with that of A. niveus CH-Y-1043 and A. flavipes, respectively. Pectin lyase produced by the hybrid HZ was partially purified and used for the hydrolysis of orange peel. Pectin lyase was able to hydrolyze 56% of orange peel biomass. However, addition of 2 RFU and 20 U of endo- and exo-polygalacturonase, respectively, induced the hydrolysis of 92% of orange peel solids. In conclusion HZ is a pectin lyase-overproducing hybrid with potential applications in the pectin industry.     

Production of extracellular pectinase enzymes by a mutant (Pol6) of Penicillium occitanis

Summary Penicillium occitanis strain Pol6, a mutant developed for hyperproduction of cellulase and pectinase enzymes was used for the study of extracellular pectinase production when pectins from different sources (apple and citrus) and with varying degree of esterification (DE) were used as inducers. Highly esterified citrus pectins were found to be suitable substrates for polygalacturonase, pectinase and pectin methyl esterase production, while low esterified citrus pectin favoured pectin lyase (PL) production. Apple pectins induced other hydrolytic enzymes (e.g., -1,3-glucanase, -glucosidase, -galactosidase), in addition to pectolytic enzymes. Moreover, the combination of high and low esterified citrus pectins induced the production of a complete pectinase complex. The extent of degradation of the substrate and the affinity for PL decreased with decreasing DE irrespective of the source. There was no evidence of PL activity in this strain. No significant effect of cations (Ca⁺⁺, Mn⁺⁺, Na⁺) on PL activity was observed. However, EDTA (100 mm) inhibited 50% of the activity, when tested on highly esterified (rapid set citrus) pectin. Offprint requests to: S. Jain     

Development of novel economical methodologies for zymographic analysis of purified xylano–pectinolytic enzymes using agrowaste-based substrates

In this study, zymographic analysis for xylanase and pectinase enzymes has been carried out using agrowaste residues, wheat bran and citrus peel as well as their extracts. Isozymic forms of xylanase as well as pectinase enzyme displayed comparable zymographic bands onto agar petriplates containing either commercial substrates (xylan and pectin), agrowaste-based substrates (wheat bran and citrus peel), or polysaccharides extracted from these agrowastes (crude xylan and pectin extracted from wheat bran and citrus peel, respectively), indicating the fact that agro residues and their extracts can be utilized as a substitute of cost-intensive commercial substrates, xylan and pectin for zymographic analysis. This is the first report revealing the zymographic analysis of xylano–pectinolytic enzymes using agro-based solid residues particles or polysaccharides extracted from agro-based residues.     

Cost-effective and concurrent production of industrially valuable xylano-pectinolytic enzymes by a bacterial isolate Bacillus pumilus AJK

Simultaneous production of xylanase and pectinase by Bacillus pumilus AJK under submerged fermentation was investigated in this study. Under optimized conditions, it produced 315?±?16 IU/mL acidic xylanase, 290?±?20 IU/mL alkaline xylanase, and 88?±?9 IU/mL pectinase. The production of xylano-pectinolytic enzymes was the highest after inoculating media (containing 2% each of wheat bran and Citrus limetta peel, 0.5% peptone, 10?mM MgSO₄, pH 7.0) with 2% of 21-hr-old culture and incubated at 37°C for 60?hr at 200?rpm. Xylanase retained 100% activity from pH 6.0 to10.0 after 3?hr of incubation, while pectinase showed 100% stability from pH 6.0 to 9.0 even after 6?hr of incubation. Cost-effective and concurrent production of xylanase and pectinase by a bacterial isolate in the same production media suggests its potential for various biotechnological applications. This is the first report of simultaneous production of industrially important extracellular xylano-pectinolytic enzymes by B. pumilus.     

Production of Polysaccharidases in Different Carbon Sources by Leucoagaricus gongylophorus Möller (Singer), the Symbiotic Fungus of the Leaf-Cutting Ant Atta sexdens Linnaeus

Leucoagaricus gongylophorus, the fungus cultured by the leaf-cutting ant Atta sexdens, produces polysaccharidases that degrade leaf components by generating nutrients believed to be essential for ant nutrition. We evaluated pectinase, amylase, xylanase, and cellulase production by L. gongylophorus in laboratory cultures and found that polysaccharidases are produced during fungal growth on pectin, starch, cellulose, xylan, or glucose but not cellulase, whose production is inhibited during fungal growth on xylan. Pectin was the carbon source that best stimulated the production of enzymes, which showed that pectinase had the highest production activity of all of the carbon sources tested, indicating that the presence of pectin and the production of pectinase are key features for symbiotic nutrition on plant material. During growth on starch and cellulose, polysaccharidase production level was intermediate, although during growth on xylan and glucose, enzyme production was very low. We propose a possible profile of polysaccharide degradation inside the nest, where the fungus is cultured on the foliar substrate.     

Pectinase production bySclerotium rolfsii: Effect of culture conditions

Production of pectinase bySclerotium rolfsii was studied under submerged conditions. A 7.1-fold increase in the production of pectinase was obtained by optimizing the culture conditions. Pectinase was obtained in good yields only when pectin was used as carbon source, best at initial pH between 6 and 7. The enzyme was not induced on sorbose, lactose, mannitol, glycerol, maltose, fructose or raffinose and growth was poor on these substrates. Incorporation of corn-steep liquor in the medium containing pectin increased the production of the enzyme by 45%. Maximum yield of pectinase obtained was 500 nkat/mL.     

Hydrolysis of grapefruit peel waste with cellulase and pectinase enzymes

Approximately 1 million metric tons of grapefruit were processed in the 2003/04 season resulting in 500,000 metric tons of peel waste. Grapefruit peel waste is usually dried, pelletized, and sold as a low-value cattle feed. This study tested different loadings of commercial cellulase and pectinase enzymes and pH levels to hydrolyze grapefruit peel waste to produce sugars. Pectinase and cellulase loadings of 0, 1, 2, 5, and 10mgprotein/g peel dry matter were tested at 45 degrees C. Hydrolyses were supplemented with 2.1mg beta-glucosidase protein/g peel dry matter. Five mg pectinase/g peel dry matter and 2mgcellulase/g peel dry matter were the lowest loadings to yield the most glucose. Optimum pH was 4.8. Cellulose, pectin, and hemicellulose in grapefruit peel waste can be hydrolyzed by pectinase and cellulase enzymes to monomer sugars, which can then be used by microorganisms to produce ethanol and other fermentation products.     

β-Xylosidase and xylanase characterization and production by Streptomyces sp. CH-M-1035

Extracellular xylanase activity and cell-bound β-xylosidase production by a selected strain of Streptomyces sp. CH-M-1035 was characterized during growth on three xylans, sugar cane bagasse pith and lemon peel as sole carbon source. The cell-bound β-xylosidase and extracellular endoxylanase had pH optima of 6·0 and 5·0, and temperature optima of 50°C and 60°C, respectively. The highest level of β-xylosidase activity was obtained when Streptomyces sp. CH-M-1035 was grown on larchwood xylan, whereas the maximal endoxylanase production was found on lemon peel. Reducing sugars accumulated in the culture media when Streptomyces sp. CH-M-1035 was grown on xylans, but not on agroindustrial residues.     

Production,purification and characterization of pectinase from a Bacillus sp. DT7

A soil isolate, Bacillus sp. DT7 has been found to produce significant amounts of an extracellular pectinase subsequently characterized as pectin lyase (EC 4.2.2.10). By optimizing growth conditions, Bacillus sp. DT7 produced higher amount of pectin lyase (53 units/ml) than that has been reported in the literature. Using gel filtration and ion exchange chromatography, this enzyme was purified and found to have a molecular mass of 106 kDa. The purified enzyme exhibited maximal activity at a temperature of 60 C and pH 8.0. The presence of 100 mM concentrations of CaCl₂ and mercaptoethanol significantly enhanced pectinase activity of the purified enzyme. This pectinase has tremendous applications in textile industry, plant tissue maceration and fruit juice wastewater treatments.     

The characterization of a pectin-degrading enzyme from Aspergillus oryzae grown on passion fruit peel as the carbon source and the evaluation of its potential for industrial applications

An extracellular pectinase (PEC-I) was isolated from the crude extract of Aspergillus oryzae when grown on passion fruit peel (PFP) as the carbon source and partially purified by ultra filtration, gel filtration and ion-exchange chromatography procedures. Pectinase activity was predominantly found in the retentate. The pectinase from retentate (PEC-Ret) was most active at 50?°C and pH 7.0 and stable at 50?°C with a half-life of approximately 8?h. PEC-I showed higher activity at pH 4.5 and 55?°C, 70?°C and 75?°C and was inhibited by cations (Ag⁺, Fe²⁺, Fe³⁺, Co²⁺, Ca²⁺ and Hg²⁺), EDTA, tannic acid and vanillin. On the other hand, PEC-I was activated by Cu²⁺, ferulic acid, cinnamic acid and 4-hydroxybenzoic acid. The gel under denaturing conditions of PEC-Ret and PEC-I samples showed a protein band of ～45?kDa coincident with that found by staining for pectinase activity. In the bioscouring of cotton fabric the PEC-Ret pectinase preparation led to a better wettability and removed more pectin from the cotton fibers than the commercial enzyme preparation Viscozyme L, but was less effective than a commercial alkaline pectate lyase preparation and alkaline scouring. The incubation of PEC-Ret with guava juice resulted in a 4.15% decrease in juice viscosity.     

Microbial Production of Pectin from Citrus Peel

A new method for the production of pectin from citrus peel was developed. For this purpose, a microorganism which produces a protopectin-solubilizing enzyme was isolated and identified as a variety of Trichosporon penicillatum. The most suitable conditions for the pectin production were determined as follows. Citrus (Citrus unshiu) peel was suspended in water (1:2, wt/vol), the organism was added, and fermentation proceeded over 15 to 20 h at 30°C. During the fermentation, the pectin in the peel was extracted almost completely without macerating the peel. By this method, 20 to 25 g of pectin was obtained per kg of peel. The pectin obtained was special in that it contained neutral sugar at high levels, which was determined to have a molecular weight suitable for practical applications.     

Pectinolytic Systems of Two Aerobic Sporogenous Bacterial Strains with High Activity on Pectin

Strains Paenibacillus sp. BP-23 and Bacillus sp. BP-7, previously isolated from soil from a rice field, secreted high levels of pectinase activity in media supplemented with pectin. Production of pectinases in strain Paenibacillus sp. BP-23 showed catabolite repression, while in Bacillus sp. BP-7 production of pectin degrading enzymes was not negatively affected by glucose. The two strains showed lyase activities as the predominant pectinases, while hydrolase activity was very low. Analysis of Paenibacillus sp. BP-23 in SDS–polyacrylamide gels and zymograms showed five pectinase activity bands. The strict requirement of Ca²⁺ for lyase activity of the strain indicates that correspond to pectate lyases. For Bacillus sp. BP-7, zymograms showed four bands of different size. The strain showed a Ca²⁺ requirement for lyase activity on pectate but not on pectin, indicating that the pectinolytic system of Bacillus sp. BP-7 is comprised of pectate lyases and pectin lyases. The results show differences in pectin degrading systems between the two aerobic sporogenous bacterial strains studied.     

Mutants ofXanthomonas campestris defective in secretion of extracellular enzymes

Summary Mutants ofXanthomonas campestris B 1459 were isolated that are defective in secretion of both cellulase and amylase. Both enzymes accumulated in the periplasmic space. The defects in secretion of cellulase or amylase were partly overcome by introducing into the mutants specific multiple copies of DNA cloned fromX. campestris, and presumed to code for cellulase or amylase enzymes. The mutant strains also showed reduced amounts of extracellular pectinase and protease activities, as if the mutants were generally defective for secretion of extracellular enzymes. The mutants showed reduced pathogenesis for turnip seedlings. The secretion-defective mutants may allow production of xanthan gum with reduced cellulose, pectin, protein and starch-degrading enzyme activities, thereby allowing more widespread mixing of microbially produced xanthan gum with these commercially important water-soluble polymers.     

Scouring of cotton using marine pectinase

Bioscouring refers to the enzymatic removal of impurities from cotton fibre, which endows it with improved hydrophilicity for further wet processes. In this study, the efficacy of pectinase from newly isolated marine bacteria Bacillus subtilis, isolated from marine sediment; collected from Chinchani beach, Tarapore, India has been evaluated for scouring of cotton fabric and compared with conventional alkaline scouring of cotton. Use of Citrus limetta peel powder as pectin substrate for enzyme production renders pectinase production process more economically viable. Scouring carried out with pectinase dose of 10% (2.8 IU/g of the fabric) on the weight of the fabric at pH 7, 60 °C for 120 min yielded hydrophilic fabric. Physicochemical and mechanical properties of the pectinase scoured fabric were similar to alkaline scoured fabric. Scouring with pectinase preserves fiber's structure and prevents it from deterioration as observed from tensile strength, FTIR and SEM studies against alkaline scoured fabric. Enhanced dye uptake was also observed in case of pectinase scoured cotton fabric as compared to alkaline scoured fabric.     

Production of Pectinase and Cellulase by Cladosporium cucumerinum with Dissolved Carbohydrates and Isolated Cell Walls of Cucumber as Carbon Sources

The scab fungus Cladosporium cucumerinum can use pectins and polygalacturonic acid as sole sources of carbon. Cellulose and Ca-polygalacturonate are not available carbon sources for the fungus. When growing on sucrose or pectin, pectinase is produced. In these cases the production of cellulase is insignificant. On a mixture of pectin and carboxymethylcellulose also cellulase is produced. Both pectinase and cellulase are released into the culture filtrate when the fungus grows on cell walls without ionic proteins, whereas only cellulase is released when cell walls with ionic proteins are the carbon source. Pectinase produced by the pathogen can bind to isolated cell walls. The bound pectinase can be extracted with 1 M NaCl from cell walls without ionic proteins, but not from cell walls with ionic proteins. A water-extract or 1 M NaCl-extract of cucumber hypocotyls with visible disease symptoms contains cellulase but no pectinase activity. Lack of pectinase activity in the 1 M NaCl-extract may be due to inhibition by a component that could be extracted by NaCl from the cucumber cell walls.     

Fungal isolates from natural pectic substrates for polygalacturonase and multienzyme production

Pectin rich wastes and waste dump yard soils were screened and eighty pectinolytic fungal isolates were obtained by enrichment culturing and ruthenium red plate assay. Eight isolates with higher zones of pectin hydrolysis were selected and tested for polygalacturonase production. One isolate identified as Aspergillus awamori MTCC 9166 with highest polygalacturonase activity was tested for utilization of raw pectins for enzyme production. Polygalacturonase production was high in raw pectin sources like Orange peel (16.8 U/ml) Jack fruit rind (38 U/ml) Carrot peel (36U/ml) and Beet root peel (24U/ml). Selected Aspergillus awamori MTCC 9166 was found to be having good polygalacturonase, xylanase, cellulase and weak amylase and protease activities. This isolate with multi-enzyme production could have application for enzymes production and degradation of fruit and vegetable waste in the process of urban waste disposal.