الملخص
Abstract This study aimed to evaluate the effects of variables on the process of lipases production by Aspergillus niger C by submerged fermentation (SmF). The production assays were performed in shake flasks for 72 hours at 150 rpm and 32°C. First, a fractional factorial design 25-1 (FFD) was carried out to evaluate the effect of the following process variables: sucrose, ammonium sulphate, soybean oil, yeast extract concentration and pH. After the selection of the variables that significantly influenced the lipase production, a central composite rotational design 22 (CCRD) was used, aiming to find the most favorable operational conditions. The selected assay condition (15.0 g.L-1 sucrose, 4.0 g.L-1 ammonium sulphate, 4.0 g.L-1 soybean oil and 1.0 g.L-1 yeast extract at pH 5.0) was the one that presented a lipase activity of 27.46 U.mL-1. It was very close to that best assay (30.76 U.mL-1), but using half of the inducer concentration, consequently reducing process cost. The kinetics of lipase production showed that the highest specific activity was 57.17 U.mg-1. The pH and temperature effects on lipase activity produced in this study was investigated. The optimum activity was found in a more acidic pH (5.0-6.0) and 55°C.
الموضوعات
Aspergillus niger/enzymology , Lipase/analysis , Research Design , Fermentationالملخص
Background: α-Amylase is widely used in the starch processing, food and paper industries, hydrolyzing starch, glycogen and other polysaccharides into glucose, maltose and oligosaccharides. An α-amylase gene family from Aspergillus niger CBS513.88 encode eight putative α-amylases. The differences and similarities, biochemical properties and functional diversity among these eight α-amylases remain unknown. Results: The eight genes were cloned and expressed in Pichia pastoris GS115 by shaking-flask fermentation under the induction of methanol. The sequence alignment, biochemical characterizations and product analysis of starch hydrolysis by these α-amylases were investigated. It is found that the eight α-amylases belonged to three different groups with the typical structure of fungal α-amylase. They exhibited maximal activities at 3040°C except AmyG and were all stable at acidic pH. Ca2+ and EDTA had no effects on the activities of α-amylases except AmyF and AmyH, indicating that the six amylases were Ca2+ independent. Two novel α-amylases of AmyE and AmyF were found. AmyE hydrolyzed starch into maltose, maltotriose and a small amount of glucose, while AmyF hydrolyzed starch into mainly glucose. The excellent physical and chemical properties including high acidic stability, Ca2+-independent and high maltotriose-forming capacity make AmyE suitable in food and sugar syrup industries. Conclusions: This study illustrates that a gene family can encode multiple enzymes members having remarkable differences in biochemical properties. It provides not only new insights into evolution and functional divergence among different members of an α-amylase family, but the development of new enzymes for industrial application.
الموضوعات
Aspergillus niger/enzymology , alpha-Amylases/genetics , alpha-Amylases/chemistry , Pichia/metabolism , Starch , Temperature , Food Industry , Cloning, Molecular , Fermentation , Hydrogen-Ion Concentration , Hydrolysisالملخص
Abstract The aim of this study was obtain a model that maximizes growth and production of inulinase and invertase by Aspergillus niger ATCC 20611, employing response surface methodology (RSM). The RSM with a five-variable and three-level central composite design (CCD) was employed to optimize the medium composition. Results showed that the experimental data could be appropriately fitted into a second-order polynomial model with a coefficient of determination (R2) more than 0.90 for all responses. This model adequately explained the data variation and represented the actual relationships between the parameters and responses. The pH and temperature value of the cultivation medium were the most significant variables and the effects of inoculum size and agitation speed were slightly lower. The intra-extracellular inulinase, invertase production and biomass content increased 10-32 fold in the optimized medium condition (pH 6.5, temperature 30 °C, 6% (v/v), inoculum size and 150 rpm agitation speed) by RSM compared with medium optimized through the one-factor-at-a-time method. The process development and intensification for simultaneous production of intra-extracellular inulinase (exo and endo inulinase) and invertase from A. niger could be used for industrial applications.
الموضوعات
Aspergillus niger/metabolism , beta-Fructofuranosidase/biosynthesis , Glycoside Hydrolases/biosynthesis , Industrial Microbiology/methods , Aspergillus niger/enzymology , Aspergillus niger/genetics , Aspergillus niger/growth & development , beta-Fructofuranosidase/genetics , Bioreactors/microbiology , Culture Media/chemistry , Culture Media/metabolism , Fermentation , Glycoside Hydrolases/genetics , Temperatureالملخص
Background: ß-Galactosidases catalyze both hydrolytic and transgalactosylation reactions and therefore have many applications in food, medical, and biotechnological fields. Aspergillus niger has been a main source of ß-galactosidase, but the properties of this enzyme are incompletely studied. Results: Three new ß-galactosidases belonging to glycosyl hydrolase family 35 from A. niger F0215 were cloned, expressed, and biochemically characterized. In addition to the known activity of LacA encoded by lacA, three putative ß-galactosidases, designated as LacB, LacC, and LacE encoded by the genes lacB, lacC, and lacE, respectively, were successfully cloned, sequenced, and expressed and secreted by Pichia pastoris. These three proteins and LacA have N-terminal signal sequences and are therefore predicted to be extracellular enzymes. They have the typical structure of fungal ß-galactosidases with defined hydrolytic and transgalactosylation activities on lactose. However, their activity properties differed. In particular, LacB and lacE displayed maximum hydrolytic activity at pH 45 and 50°C, while LacC exhibited maximum activity at pH 3.5 and 60°C. All ß-galactosidases performed transgalactosylation activity optimally in an acidic environment. Conclusions: Three new ß-galactosidases belonging to glycosyl hydrolase family 35 from A. niger F0215 were cloned and biochemically characterized. In addition to the known LacA, A. niger has at least three ß-galactosidase family members with remarkably different biochemical properties.
الموضوعات
Aspergillus niger/enzymology , beta-Galactosidase/chemistry , Substrate Specificity , Kinetics , Amino Acid Sequence , Cloning, Molecular , beta-Galactosidase/genetics , beta-Galactosidase/metabolismالملخص
Background: Current commercial production of isomalto-oligosaccharides (IMOs) commonly involves a lengthy multistage process with low yields. Results: To improve the process efficiency for production of IMOs, we developed a simple and efficient method by using enzyme cocktails composed of the recombinant Bacillus naganoensis pullulanase produced by Bacillus licheniformis, α-amylase from Bacillus amyloliquefaciens, barley bran ß-amylase, and α-transglucosidase from Aspergillus niger to perform simultaneous saccharification and transglycosylation to process the liquefied starch. After 13 h of reacting time, 49.09% IMOs (calculated from the total amount of isomaltose, isomaltotriose, and panose) were produced. Conclusions: Our method of using an enzyme cocktail for the efficient production of IMOs offers an attractive alternative to the process presently in use.
الموضوعات
Oligosaccharides/metabolism , Starch/metabolism , Enzymes/metabolism , Isomaltose/metabolism , Oligosaccharides/biosynthesis , Aspergillus niger/enzymology , Temperature , Bacillus/enzymology , beta-Amylase/metabolism , Glycosylation , Liquefaction , alpha-Amylases/metabolism , Fermentation , Glucosidases/metabolism , Glycoside Hydrolases/metabolism , Hydrogen-Ion Concentrationالملخص
Las amilasas (alfa-amilasa, EC 3.2.1.1 y glucoamilasa, EC 3.2.1.3) son enzimas extracelulares que hidrolizan el almidón en dextrinas hasta glucosa y tienen gran aplicación industrial, especialmente alimentaria; detergentes y en la producción de alcohol a partir de granos. El objetivo del trabajo es seleccionar un hongo filamentoso que presente alta producción de amilasas con características particulares para ser empleadas en biodetergentes. Se estudiaron los siguientes hongos: Penicillium expansum; P. digitatum; P. islandicum; Aspergillus clavatus; A. niger; A. ochraceus; A. fumigatus; A. flavus; A. oryzae; A. nidulans y Geotrichum candidum; Los ensayos se realizaron en un medio de hidrolizado de papa de descarte (variedad Spunta) suplementado con las siguientes sales: KH2 PO4 1,0; NaNO3 3,0; MgSO4 .7H2 O 0,5, a pH 4,0; se inoculó con 2 x106 conidios/mL y se incubaron a 25ºC en un agitador rotatorio a una velocidad de agitación de 250 rpm. Con los extractos enzimáticos parcialmente purificados con (NH4 )2 SO4 al 60 por ciento de saturación, se estudió el efecto del pH (2,5; 3,5; 4,0; 4,5; 5,0; 5,5; 6,0, 7,0 y 8,0) y la temperatura (20; 25; 30; 35 y 40ºC). Los resultados mostraron que la máxima producción de enzima (128 U/L) se obtuvo con Aspergillus niger, en las condiciones ensayadas, a las 48 h de incubación, con alto rendimiento de producto respecto a la biomasa (Yp/x= 18,3 U/g) y productividad volumétrica (Pdv=2,7 U/L). El análisis cualitativo de las enzimas del complejo amilolítico de A. niger mostró que las amilasas implicadas son alfa-amilasa y glucoamilasa y se caracterizaron por hidrolizar en un tiempo de 3 min. manchas mixtas de almidón y grasas de muestras textiles en un rango de pH 4,0 a 8,0 y de 20 a 40 ºC.
The amylases (alpha-amylase, EC 3.2.1.1 and glucoamylase, EC 3.2.1.3) are extracellular enzymes that hydrolyze starch into dextrins to glucose and have great application industrial, especially food, detergents and in the production of alcohol from grains. The objective of the study is to select a filamentous fungus that present high production of amylases showing attractive features to be used in biodetergentes. Were studied following fungus: Penicillium expansum; P. digitatum; P. islandicum; Aspergillus clavatus; A niger; A. ochraceus; A. fumigatus; A. flavus; A. oryzae; A. nidulans and Geotrichum candidum. The tests were conducted in the medium of hydrolyzed potato discard (variety Spunta) supplemented with the following sales: KH2 PO4 , 1.0; NaNO3 , 3.0 and MgSO4 .7H2 O, 0.5, to pH 4.0. Were inoculated with 2 x 106 conidia/ mL and incubated at 25 °C on a rotary Shaker at a speed of 250 rpm. With partially purified enzyme extracts with (NH4 )2 SO4 at 60 percent of saturation, we studied the effect of pH (2.5; 3.5; 4.0; 4.5; 5.0; 5.5; 6.0, 7.0 and 8.0) and temperature (20; 25; 30; 35, and 40 ° C). The results showed that the maximum production of enzyme (128 U/L) was obtained with Aspergillus niger, under the conditions tested, at 48 h of incubation, with high product formation rate with respect to biomass (Yp/x = 18.3 U/g) and volumetric productivity (Pdv = 2,7 U/ hL). The qualitative analysis of the enzymes of the complex amylolític of A. niger showed that involved amylases are α-amylase and glucoamylase and characterized by hydrolyze in 3 min spots mixed starch and fats of textile samples over a range of pH 4.0 to 8.0 and 20 to 40 ° C.
الموضوعات
Amylases/analysis , Aspergillus niger/isolation & purification , Aspergillus niger/enzymology , Fungi/enzymology , Biodegradation, Environmental , Detergents , Hydrogen-Ion Concentration , Hydrolysis , Starch , Temperatureالملخص
Background The effects of exposure to copper, during growth, on the production of biomass, total protein, catalase, glutathione-S transferase, glutathione peroxidase, peroxidase, polyphosphate, acid and alkaline phosphatases, ultrastructure and the ability to remove this metal from Aspergillus niger, obtained from caatinga soil, were evaluated. Results All parameters tested were influenced by the concentration of metal in the culture medium. The presence of metal induced high levels of antioxidant enzymes, including lipid peroxidation, thereby revealing the appearance of an oxidative stress response. The variation in polyphosphate levels indicates the participation of the polymer in response to stress induced by copper. The activities of the phosphatases were positively influenced by growing them in the presence of copper. Ultrastructure changes in the cell surface, electron density, thickness, and septation were visualized by exposing cells to increasingly larger concentrations of metal. The isolate was able to remove the agent from the growth medium, while maintaining its physiological functions. The metal removed from the cultures exposed to 0.5 mM, 1 mM and 2 mM copper exhibited percentages of removal equivalent to 75.78%, 66.04% and 33.51%. Conclusions The results indicate that the isolate was able to grow in high concentrations of copper, activates mechanisms for adaptation and tolerance in the presence of metal, and is highly efficient at removing the agent. Such data are fundamental if a better understanding is to be reached of the cellular and molecular abilities of native isolates, which can be used to develop bioprocesses in environmental and industrial areas.
الموضوعات
Aspergillus niger/enzymology , Aspergillus niger/physiology , Adaptation, Biological , Oxidative Stress , Copper/chemistry , Polyphosphates , Microscopy, Electron, Scanning , Lipid Peroxidation , Enzymes , Antioxidantsالملخص
Background Aspergillus niger has the ability to secrete feruloyl esterase. However, for economically viable industrial applications, it is necessary to increase their catalytic activities and/or protein yields to satisfy the increasing needs for feruloyl esterases. Results The gene AnFaeA that encodes a type A feruloyl esterase was successfully expressed in Pichia pastoris by a two-copy engineered yeast. After a screen in shaker flask, a one-copy strain GSKFA3 having the highest feruloyl esterase activity of 2.4 U/mL was obtained. Then, the pPICZaA-AnFaeA plasmid was transformed into GSKFA3 and the transformants were grown on YPDS plates with antibiotic Zeocin. After cultivation, a two-copy strain GSKZaFA20 with the highest feruloyl esterase activity of 15.49 U/mL was obtained. The expressed protein (recombinant AnFaeA) may be a glycoprotein with an apparent molecular weight of 40 kDa. It displayed the maximum activity at pH 6.0 and 50°C, and was stable at a pH range of 4.0-6.5 and at below 45°C. Its activity was not significantly affected by K+, Ca2 +, Mg2 +, Cu2 +, Zn2 +, Mn2 +, Na+ and EDTA, but activated by Fe2 +. The Km and Vmax toward 4-nitrophenyl ferulate were 5.5 mM and 69.0 U/mg, respectively. Conclusions The two-copy strain GSKZaFA20 showed a 4.4-fold increase in extracellular enzyme activity compared with the one-copy strain GSKFA3. Construction of two-copy strain improved secretion of recombinant AnFaeA in P. pastoris.
الموضوعات
Pichia/enzymology , Aspergillus niger/enzymology , Carboxylic Ester Hydrolases/metabolism , Yeasts , Blotting, Westernالملخص
A new inulinase-producing strain was isolated from rhizosphere soils of Jerusalem artichoke collected from Shihezi (Xinjiang, China) using Jerusalem artichoke power (JAP) as sole carbon source. It was identified as an
الموضوعات
Aspergillus niger/enzymology , Aspergillus niger/genetics , Bioreactors/microbiology , Glycoside Hydrolases/metabolism , Helianthus/microbiology , Aspergillus niger/metabolism , China , Culture Media , Ethanol/metabolism , Fermentation/physiology , Inulin/metabolism , Molecular Typing , Mutation , Mycological Typing Techniques , Rhizosphere , /genetics , Soil Microbiologyالملخص
Nineteen fungi and seven yeast strains were isolated from sugarcane bagasse piles from an alcohol plant located at Brazilian Cerrado and identified up to species level on the basis of the gene sequencing of 5.8S-ITS and 26S ribosomal DNA regions. Four species were identified:
الموضوعات
Aspergillus fumigatus/enzymology , Aspergillus niger/enzymology , Cellulose/metabolism , /metabolism , Kluyveromyces/enzymology , Saccharum/microbiology , Xylosidases/metabolism , beta-Glucosidase/metabolism , Aspergillus fumigatus/isolation & purification , Aspergillus fumigatus/metabolism , Aspergillus niger/isolation & purification , Aspergillus niger/metabolism , Base Sequence , Biomass , Brazil , DNA, Fungal/genetics , DNA, Intergenic/genetics , Fermentation , Kluyveromyces/isolation & purification , Kluyveromyces/metabolism , Lignin/metabolism , Molecular Typing , Mycological Typing Techniques , RNA, Ribosomal/genetics , Sequence Analysis, DNAالملخص
In an effort to develop alternate techniques to recover metals from waste electrical and electronic equipment (WEEE), this research evaluated the bioleaching efficiency of gold (Au), copper (Cu) and nickel (Ni) by two strains of
الموضوعات
Aspergillus niger/metabolism , Cell Phone , Computers , Copper/metabolism , Electronic Waste , Gold/metabolism , Nickel/metabolism , Polychlorinated Biphenyls/metabolism , Aspergillus niger/enzymology , Aspergillus niger/isolation & purification , Bioreactors/microbiology , Waste Management/methodsالملخص
Aspergillus niger β-glucosidase was modified by covalent coupling to periodate activated polysaccharides (glycosylation). The conjugated enzyme to activated starch showed the highest specific activity (128.5 U/mg protein). Compared to the native enzyme, the conjugated form exhibited: a higher optimal reaction temperature, a lower Ea (activation energy), a higher Km (Michaelis constant) and Vmax (maximal reaction rate), and improved thermal stability. The calculated t1/2 (half-life) values of heat in-activation at 60 °C and 70 °C were 245.7 and 54.5 min respectively, whereas at these temperatures the native enzyme was less stable (t1/2 of 200.0 and 49.5 min respectively). The conjugated enzyme retained 32.3 and 29.7%, respectively from its initial activity in presence of 5 mM Sodium Dodecyl Sulphate (SDS) and p-Chloro Mercuri Benzoate (p-CMB), while the native enzyme showed a remarkable loss of activity (retained activity 1.61 and 13.7%, respectively). The present work has established the potential of glycosylation to enhance the catalytic properties of β-glucosidase enzyme, making this enzyme potentially feasible for biotechnological applications.
الموضوعات
Aspergillus niger/enzymology , beta-Glucosidase/chemistry , beta-Glucosidase/metabolism , Enzyme Stability , Enzyme Inhibitors/metabolism , Glycosylation , Kinetics , Temperatureالملخص
An Aspergillus niger UFV-1 phytase was characterized and made available for industrial application. The enzyme was purified via ultrafiltration followed by acid precipitation, ion exchange and gel filtration chromatography. This protein exhibited a molecular mass of 161 kDa in gel filtration and 81 kDa in sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE), indicating that it may be a dimer. It presented an optimum temperature of 60 °C and optimum pH of 2.0. The KM for sodium phytate hydrolysis was 30.9 mM, while the kcat and kcat/KM were 1.46 ×105 s−1 and 4.7 × 106 s−1.M−1, respectively. The purified phytase exhibited broad specificity on a range of phosphorylated compounds, presenting activity on sodium phytate, p-NPP, 2- naphthylphosphate, 1- naphthylphosphate, ATP, phenyl-phosphate, glucose-6-phosphate, calcium phytate and other substrates. Enzymatic activity was slightly inhibited by Mg2+, Cd2+, K+ and Ca2+, and it was drastically inhibited by F−. The enzyme displayed high thermostability, retaining more than 90% activity at 60 °C during 120 h and displayed a t1/2 of 94.5 h and 6.2 h at 70 °C and 80 °C, respectively. The enzyme demonstrated strong resistance toward pepsin and trypsin, and it retained more than 90% residual activity for both enzymes after 1 h treatment. Additionally, the enzyme efficiently hydrolyzed phytate in livestock feed, liberating 15.3 μmol phosphate/mL after 2.5 h of treatment.
الموضوعات
/isolation & purification , /metabolism , Aspergillus niger/enzymology , /chemistry , Chemical Precipitation , Chromatography, Gel , Chromatography, Ion Exchange , Electrophoresis, Polyacrylamide Gel , Enzyme Stability , Enzyme Inhibitors/analysis , Hydrogen-Ion Concentration , Hydrolysis , Kinetics , Molecular Weight , Protein Multimerization , Proteolysis , Peptide Hydrolases/metabolism , Phytic Acid/metabolism , Substrate Specificity , Temperature , Ultrafiltrationالملخص
The catabolism of fungal 4-aminobutyrate (GABA) occurs via succinic semialdehyde (SSA). Succinic semialdehyde dehydrogenase (SSADH) from the acidogenic fungus Aspergillus niger was purified from GABA grown mycelia to the highest specific activity of 277 nmol min-1 mg-1, using phenyl Sepharose and DEAE Sephacel chromatography. The purified enzyme was specific for its substrates SSA and NAD+. The substrate inhibition observed with SSA was uncompetitive with respect to NAD+. While product inhibition by succinate was not observed, NADH inhibited the enzyme competitively with respect to NAD+ and noncompetitively with respect to SSA. Dead-end inhibition by AMP and p-hydroxybenzaldehyde (pHB) was analyzed. The pHB inhibition was competitive with SSA and uncompetitive with NAD+; AMP competed with NAD+. Consistent with the kinetic data, a sequential, ordered Bi Bi mechanism is proposed for this enzyme.
الموضوعات
Adenosine Monophosphate/metabolism , Adenosine Monophosphate/pharmacology , Aspergillus niger/enzymology , Aspergillus niger/metabolism , Benzaldehydes/metabolism , Benzaldehydes/pharmacology , Binding, Competitive , Biocatalysis/drug effects , Fungal Proteins/isolation & purification , Fungal Proteins/metabolism , Kinetics , Mycelium/enzymology , Mycelium/metabolism , NAD/metabolism , NAD/pharmacology , Protein Binding , Substrate Specificity , Succinate-Semialdehyde Dehydrogenase/isolation & purification , Succinate-Semialdehyde Dehydrogenase/metabolism , gamma-Aminobutyric Acid/analogs & derivatives , gamma-Aminobutyric Acid/metabolism , gamma-Aminobutyric Acid/pharmacologyالملخص
Plant cell wall is mainly composed by cellulose, hemicellulose and lignin. The heterogeneous structure and composition of the hemicellulose are key impediments to its depolymerization and subsequent use in fermentation processes. Thus, this study aimed to perform a screening of thermophilic and thermotolerant filamentous fungi collected from different regions of the São Paulo state, and analyze the production of β-xylosidase and arabinanase at different temperatures. These enzymes are important to cell wall degradation and synthesis of end products as xylose and arabinose, respectively, which are significant sugars to fermentation and ethanol production. A total of 12 fungal species were analyzed and 9 of them grew at 45 ºC, suggesting a thermophilic or thermotolerant character. Additionally Aspergillus thermomutatus anamorph of Neosartorya and A. parasiticus grew at 50 ºC. Aspergillus niger and Aspergillus thermomutatus were the filamentous fungi with the most expressive production of β-xylosidase and arabinanase, respectively. In general for most of the tested microorganisms, β-xylosidase and arabinanase activities from mycelial extract (intracellular form) were higher in cultures grown at high temperatures (35-40 ºC), while the correspondent extracellular activities were favorably secreted from cultures at 30 ºC. This study contributes to catalogue isolated fungi of the state of São Paulo, and these findings could be promising sources for thermophilic and thermotolerant microorganisms, which are industrially important due to their enzymes.
الموضوعات
Aspergillus niger/enzymology , Aspergillus niger/isolation & purification , Glycoside Hydrolases/analysis , Neosartorya/enzymology , Neosartorya/isolation & purification , Xylosidases/analysis , Aspergillus niger/growth & development , Aspergillus niger/radiation effects , Brazil , Mass Screening , Neosartorya/growth & development , Neosartorya/radiation effects , Temperatureالملخص
Immobilization of cellulase from Aspergillus niger on TiO2 nanoparticles was studied by two different approaches — physical adsorption and covalent coupling. A. niger was selected, as it is generally non-pathogenic, is found in nature in the broad range of habitats and produces cellulase extracellulary. For covalent method, TiO2 nanoparticles were modified with aminopropyltriethoxysilane (APTS). The adsorbed and covalently immobilized enzymes showed 76% and 93% activity, respectively, as compared to the free enzyme. The catalytic efficiency Vmax/Km increased from 0.4 to 4.0 after covalent attachment, whereas in adsorption method, it increased slightly from 0.4 to 1.2. The covalently-immobilized and adsorbed cellulase lost only 25% and 50% of their activity, respectively after 60 min of incubation at 75°C. The reusability and operational stability data also showed that covalent coupling increased the stability of the enzyme. The presence of enzyme on TiO2 nanoparticles was confirmed by Fourier-transform infrared spectroscopy. The high-resolution transmission electron microscopy (HR-TEM) and atomic force microscopy (AFM) studies indicated aggregation of enzyme when adsorbed on TiO2 surface and a monolayer of enzyme in covalent attachment. In conclusion, covalently attached cellulase retained good activity and thermal stability, as compared to physically adsorbed enzyme. The lower amount of enzyme activity and thermal stability in case of physically adsorbed immobilized enzyme was due to aggregation of the enzyme after adsorption on TiO2 nanoparticles, as revealed by HR-TEM and AFM. Thus, TiO2 nanoparticles could be suitable candidates for immobilization of cellulase for industrial applications like paper, textile, detergent and food industries.
الموضوعات
Aspergillus niger/enzymology , Cellulase/chemistry , Enzymes, Immobilized/chemistry , Kinetics , Microscopy, Atomic Force , Microscopy, Electron, Transmission , Spectroscopy, Fourier Transform Infrared , Titanium/chemistryالملخص
In the present study enhanced production of glucose aerodehydrogenase from Aspergillus niger has been achieved after optimizing the dose of chemical mutagen ethyl methane sulfonate (EMS) that has not been reported earlier. Different doses of mutagen were applied and a strain was developed basing upon the best production. The selected strain Aspergillus niger EMS-150-F was optimized for nutrient requirements in order to produce enzyme through fermentation and the results showed the best yield at 2% corn steep liquor (CSL), 36 hours fermentation time, pH 5, 30°C temperature, 0.3% KH2PO4, 0.3% urea and 0.06% CaCO3. The enzyme was then purified and resulted in 57.88 fold purification with 52.12% recovery. On kinetic characterization, the enzyme showed optimum activity at pH 6 and temperature 30°C. The Michaelis-Menton constants (Km, Vmax, Kcat and Kcat/Km) were 20 mM, 45.87 U mL-1, 1118.81 s-1 and 55.94 s-1 mM-1, respectively. The enzyme was found to be thermaly stable and the enthalpy and free energy showed an increase with increase in temperature and ΔS* was highly negative proving the enzyme from A. niger EMS-150-F resistant to temperature and showing a very little disorderliness.
الموضوعات
Aspergillus niger/enzymology , Glucose/metabolism , Mutagenesis , Metabolic Engineering/methods , Mutagens/metabolism , Oxidoreductases/metabolism , Aspergillus niger/drug effects , Culture Media/chemistry , Enzyme Stability , Hydrogen-Ion Concentration , Kinetics , Oxidoreductases/chemistry , Oxidoreductases/isolation & purification , Temperatureالملخص
One variable at a time procedure was used to evaluate the effect of qualitative variables on the production of tannase from Aspergillus niger Van Tieghem. These variables including: fermentation technique, agitation condition, tannins source, adding carbohydrates incorporation with tannic acid, nitrogen source type and divalent cations. Submerged fermentation under intermittent shaking gave the highest total tannase activity. Maximum extracellular tannase activity (305 units/ 50 mL) was attained in medium containing tannic acid as tannins source and sodium nitrate as nitrogen source at 30 ºC for 96 h. All added carbohydrates showed significant adverse effects on the production of tannase. All tested divalent cations significantly decreased tannase production. Moreover, split plot design was carried out to study the effect of fermentation temperature and fermentation time on tannase production. The results indicated maximum tannase production (312.7 units/50 mL) at 35 ºC for 96 h. In other words, increasing fermentation temperature from 30 ºC to 35 ºC resulted in increasing tannase production.
الموضوعات
Aspergillus niger/enzymology , Carboxylic Ester Hydrolases/metabolism , Cations, Divalent/metabolism , Culture Media/chemistry , Enzyme Inhibitors/metabolism , Fermentation , Temperature , Time Factorsالملخص
A partir de jarabe de fructosa se aislaron e identificaron microorganismos productores de invertasa. Aspergillus niger IB56 fue el que produjo mayor concentración de la enzima con actividad transferasa (5,6U/ml). Se estudió la producción de fructooligosacáridos (FOS) a diferentes pH (3,0; 4,0; 4,5; 5,0 y 5,5); temperaturas (20, 25, 30 y 40 ºC), concentración de sacarosa (150; 300 y 450 g/l) y tiempos de incubación (60; 90 y 120 min.). La máxima producción de FOS (105 g/l) se obtuvo con una concentración de sacarosa de 300 g/l; a pH 5,0; temperatura 20ºC y a los 60 min de incubación. La enzima invertasa posee especificidad para producir FOS como 1-cestosa y nistosa, prebióticos de importancia en la industria farmacéutica porque tienen efectos benéficos sobre la salud y estimulan la flora microbiana del intestino humano y animal como Lactobacillus y Bifidobacterium.
Several microorganisms that produce invertase were isolated from fructose syrup and identified. Aspergillus nigerIB56 was the one that produced the greatest concentration of the enzyme with transferase activity (5.6 U/ml). We studied the production of fructooligosaccharides (FOS) at different pH (3.0, 4.0, 4.5, 5.0 and 5.5), temperatures (20, 25, 30 and 40ºC), sucrose concentrations (150, 300 and 450 g/l) and incubation times (60, 90 and 120 min.). Maximum FOS production (105 g/l) was obtained with a sucrose concentration of 300 g/l, pH 5.0, at 20 ºC after 60 min of incubation. The enzyme invertase specifically produces FOSsuch as 1-kestose and nistose, which are important prebioticsin the pharmaceutical industry because they have beneficial health effects and stimulate the intestinal microbial flora such as Lactobacillus and Bifidobacterium in humans and animals.
الموضوعات
Aspergillus niger/isolation & purification , Aspergillus niger/growth & development , Aspergillus niger/enzymology , Fructose , Fungi , Hydrogen-Ion Concentration , Oligosaccharides , Prebiotics , Sucrose , Temperatureالملخص
Aspergillus niger F7 isolated from soil was found to be the potent producer of cellulase and xylanase. The residue of forest species Toona ciliata, Celtris australis, Cedrus deodara and Pinus roxburghii was selected as substrate for biodegradation study due to its easy availability and wide use in industry. It was subjected to alkali (sodium hydroxide) treatment for enhancing its degradation. Biodegradation of forest waste by hydrolytic enzymes (cellulase and xylanase) secreted by A. niger under solid state fermentation (SSF) was explored. SSF of pretreated forest biomass was found to be superior over untreated forest biomass. Highest extracellular enzyme activity of 2201±23.91 U/g by A. niger was shown in pretreated C. australis wood resulting in 6.72±0.20 percent hydrolysis and 6.99±0.23 biodegradation index (BI). The lowest BI of 1.40±0.08 was observed in untreated saw dust of C. deodara having the least enzyme activity of 238±1.36 U/g of dry matter. Biodegradation of forest biomass under SSF was increased many folds when moistening agent i.e. tap water had been replaced with modified basal salt media (BSM). In BSM mediated degradation of forest waste with A. niger, extracellular enzyme activity was increased up to 4089±67.11 U/g of dry matter in turn resulting in higher BI of 15.4±0.41 and percent hydrolysis of 19.38±0.81 in pretreated C. australis wood. A. niger exhibited higher enzyme activity on pretreated biomass when moistened with modified BSM in this study. Statistically a positive correlation has been drawn between these three factors i.e. enzyme activity, BI and percent hydrolysis of forest biomass thus proving their direct relationship with each other.