Production, purification and characterization of cholesterol oxidase from a newly isolated Streptomyces sp.

Cholesterol oxidase production (COD) by a new isolate characterized as Streptomyces sp. was studied in different production media and fermentation conditions. Individual supplementation of 1 % maltose, lactose, sucrose, peptone, soybean meal and yeast extract enhanced COD production by 80–110 % in comparison to the basal production medium (2.4 U/ml). Supplementation of 0.05 % cholesterol (inducer) enhanced COD production by 150 %. COD was purified 14.3-fold and its molecular weight was found to be 62 kDa. V_max (21.93 μM/min mg) and substrate affinity K_m (101.3 μM) suggested high affinity of the COD for cholesterol. In presence of Ba²⁺ and Hg²⁺ the enzyme activity was inhibited while Cu²⁺ enhanced the activity nearly threefold. Relative activity of the enzyme was found maximum in triton X-100 whereas sodium dodecyl sulfate inactivated the enzyme. The enzyme activity was also inhibited by the thiol-reducing reagents like Dithiothreitol and β-mercaptoethanol. The COD showed moderate stability towards all organic solvents except acetone, benzene and chloroform. The activity increased in presence of isopropanol and ethanol. The enzyme was most active at pH 7 and 37 °C temperature. This organism is not reported to produce COD.     

Purification and thermodynamic characterization of glucose oxidase from a newly isolated strain of Aspergillus niger

An intracellular glucose oxidase (GOD) was isolated from the mycelium extract of a locally isolated strain of Aspergillus niger NFCCP. The enzyme was partially purified to a yield of 28.43% and specific activity of 135 U mg(-1) through ammonium sulfate precipitation, anion-exchange chromatography, and gel filtration. The enzyme showed high specificity for D-glucose, with a K(m) value of 25 mmol L(-1). The enzyme exhibited optimum catalytic activity at pH 5.5. Optimum temperature for GOD-catalyzed D-glucose oxidation was 40 degrees C. The enzyme displayed a high thermostability having a half-life (t(1/2)) of 30 min, enthalpy of denaturation (H*) of 99.66 kJ mol(-1), and free energy of denaturation (G*) of 103.63 kJ mol(-1). These characteristics suggest that GOD from A. niger NFCCP can be used as an analytical reagent and in the design of biosensors for clinical, biochemical, and diagnostic assays.     

Production, purification and properties of endoglucanase from a newly isolated strain of Mucor circinelloides

A newly isolated strain of the fungus, Mucor circinelloides (NRRL 26519), when grown on lactose, cellobiose, or Sigmacell 50 produces complete cellulase (endoglucanase, cellobiohydrolase, and β-glucosidase) system. The extracellular endoglucanase (EG) was purified to homogeneity from the culture supernatant by ethanol precipitation (75%, v/v), CM Bio-Gel A column chromatography, and Bio-Gel A-0.5 m gel filtration. The purified EG (specific activity 43.33 U/mg protein) was a monomeric protein with a molecular weight of 27 000. The optimum temperature and pH for the action of the enzyme were at 55 °C and 4.0–6.0, respectively. The purified enzyme was fully stable at pH 4.0–7.0 and temperature up to 60 °C. It hydrolysed carboxymethyl cellulose and insoluble cellulose substrates (Avicel, Solka-floc, and Sigmacell 50) to soluble cellodextrins. No glucose, cellobiose, and short chain cellooligosaccarides were formed from these substrates. The purified EG could not degrade oat spelt xylan and larch wood xylan. It bound to Avicell, Solka-floc, and Sigmacell 50 at pH 5.0 and the bound enzyme was released by changing the pH to 8.0. The enzyme activity was enhanced by 27±5 and 44±14% by the addition of 5 mM MgCl₂ and 0.5 mM CoCl₂, respectively, to the reaction mixture. Comparative properties of this enzyme with other fungal EGs are presented.     

Production and partial characterization of lipases from a newly isolated Penicillium sp. using experimental design

Aims:  The objective of this work was to investigate the lipase production by a newly isolated Penicillium sp . , using experimental design technique, in submerged fermentation using a medium based on peptone, yeast extract, NaCl and olive oil, as well as to characterize the crude enzymatic extracts obtained.
Methods and Results:  Lipase activity values of 9·5 U ml⁻¹ in 96 h of fermentation was obtained at the maximized operational conditions of peptone, yeast extract, NaCl and olive oil concentrations (g l⁻¹) of 20·0, 5·0, 5·0 and of 10·0 respectively. The partial characterization of crude enzymatic extract obtained by submerged fermentation showed optimum activity at pH range from 4·9 to 5·5 and temperature from 37°C to 42°C. The crude extract maintained its initial activity at freezing temperatures up to 100 days.
Conclusions:  A newly isolated strain of Penicillium sp . used in this work yielded good lipase activities compared to the literature.
Significance and Impact of the Study:  The growing interest in lipase production is related to the potential biotechnological applications that these enzymes present. New lipase producers are relevant to finding enzymes with different catalytic properties of commercial interest could be obtained, without using genetically modified organisms (GMO).     

一株嗜松青霉JP-NJ4的解磷特性

【目的】土壤中磷素供应不足是造成马尾松林地力衰退的原因之一。本研究对前期从马尾松根际土样中分离筛选出的一株解磷能力较强的嗜松青霉JP-NJ4的解无机磷及解有机磷能力进行探讨。【方法】探究嗜松青霉JP-NJ4对4种无机磷源及2种有机磷源的降解能力,并对其分泌的有机酸和酶类进行测定,对其解磷特性进行初步分析。【结果】表明JP-NJ4菌株可在4种不同无机磷源的培养基中生长,其中对磷酸钙[Ca3(PO4)2]的解磷效果最好,对4种磷源的解磷能力大小为:磷酸钙磷酸铝磷酸氢钙磷酸铁;其分泌的有机酸种类主要为葡萄糖酸、草酸及丙二酸;JP-NJ4菌株的磷酸酶活性较高,并具有一定的植酸酶活性;同时对草甘膦具有较好的生物降解功能,降解率达49.6%。【结论】嗜松青霉JP-NJ4解磷能力受磷源的结构组成影响,且解磷能力与发酵液pH值呈负相关关系;该菌株分泌的葡萄糖酸和草酸对磷酸钙及磷酸铝的溶解效果较明显。本研究供试菌株嗜松青霉JP-NJ4具有良好的解磷功能,在作为林业生物菌肥方面具有极大的应用潜力。     

Isolation, purification and characterization of a novel glucose oxidase from Penicillium sp. CBS 120262 optimally active at neutral pH

A novel glucose oxidase (GOX), a flavoenzyme, from Penicillium sp. was isolated, purified and partially characterised. Maximum activities of 1.08U mg(-1)dry weight intracellular and 6.9U ml(-1) extracellular GOX were obtained. Isoelectric focussing revealed two isoenzymes present in both intra- and extracellular fractions, having pI's of 4.30 and 4.67. GOX from Penicillium sp. was shown to be dimeric with a molecular weight of 148kDa, consisting of two equal subunits with molecular weight of 70k Da. The enzyme displayed a temperature optimum between 25 and 30 degrees C, and an optimum pH range of 6-8 for the oxidation of beta-d-glucose. The enzyme was stable at 25 degrees C for a minimum of 10h, with a half-life of approximately 30 min at 37 degrees C without any prior stabilisation. The lyophilized enzyme was stable at -20 degrees C for a minimum of 6 months. GOX from Penicillium sp. Tt42 displayed the following kinetic characteristics: Vmax, 240.5U mg(-1); Km, 18.4mM; kcat, 741 s(-1) and kcat/Km, 40 s(-1)mM(-1). Stability at room temperature, good shelf-life without stabilisation and the neutral range for the pH optimum of this GOX contribute to its usefulness in current GOX-based biosensor applications.     

Isolation, partial purification and characterization of a bacteriocin produced by a newly isolated Bacillus subtilis strain

A wild type micro-organism producing antibacterial substances has been isolated from a Chinese fermented soybean seasoning and identified as Bacillus subtilis. A crude antibacterial preparation (CABP) was obtained by ammonium sulphate precipitation. Isoelectric focusing assay revealed at least four antimicrobial components in the CABP. However, in SDS-PAGE analysis, only one peptide band displayed antimicrobial activity against pathogenic Bacillus cereus and Listeria monocytogenes. This inhibitory peptide had a molecular weight of approximately 3.4 kDa and a pI value of approximately 4.7. Results of this study suggest that at least one antimicrobial substance produced by this wild type strain of B. subtilis may be a new bacteriocin. Its sensitivity to gastric peptidases and activity against the food-borne pathogens make this bacteriocin potentially useful as an antimicrobial agent in foods.     

Purification and biochemical characterization of endoglucanase from Penicillium pinophilum MS 20

Cellulases find increasing prominence in sustainable production of fuel and feedstock from lignocellulosic biomass. The purification and biochemical characterization of individual components of cellulase complex is important to understand the mechanism of their action for the solubilization of crystalline cellulose. In this study, an extra-cellular endoglucanase isolated from culture filtrate of Penicillium pinophilum MS 20 was purified to homogeneity by ammonium sulphate precipitation, ion-exchange chromatography and gel filtration. The purified endoglucanase (specific activity 69 U/mg) was a monomeric protein with molecular mass of 42 kDa, as determined by SDS-PAGE. The endoglucanase was active over a broad range of pH (4-7) with maximum activity at pH 5 and showed optimum temperature of 50 degrees C. It retained 100% activity at 50 degrees C for 6 h and half- lives of 4 h and 3 h at 60 degrees C and 70 degrees C, respectively. The kinetic constants for the endoglucanase determined with carboxymethyl cellulose as substrate were V(max) of 72.5 U/mg and apparent K(m) of 4.8 mg/ml. The enzyme also showed moderate activity towards H3PO4 swollen cellulose and p-nitrophenyl beta-D-glucoside, but no activity towards filter paper, Avicel and oat spelt xylan. The activity was positively modulated by 47, 32 and 25% in the presence of Co2+, Zn2+ and Mg2+, respectively to the reaction mixture. The wide pH stability (4-7) and temperature stability up to 50 degrees C of endoglucanase makes the enzyme suitable for use in cellulose saccharification at moderate temperature and pH.     

Purification and properties of a cellobiohydrolase from Penicillium pinophilum

Cellobiohydrolase II, isolated from the extracellular cellulase system of Penicillium pinophilum by chromatography on DEAE-Sephadex and DEAE-Sepharose followed by chromatofocusing, gave a single homogeneous band in SDS-gel electrophoresis and gel electrophoresis and gel electrofocusing. It had a molecular weight of 50,700 and of pI of 5.0, and was associated with 19% of carbohydrate. Cellobiose was the sole product of hydrolysis of the cellulosic materials, Avicel and H₃PO₄-swollen cellulose. No cross reaction was observed with antiserum prepared with another purified cellobiohydrolase (I) isolated from the same cellulase system. Cellobiohydrolase II showed no capacity for producing short fibres from filter paper. Avicel was hydrolysed extensively, but little or no hydrolysis of cotton fibre was apparent. However, cotton fibre was hydrolysed with a reconstituted mixture of the purified cellobiohydrolase II and the four major endo-(1→4)-β-d-glucanases isolated during fractionation. The action of cellobiohydrolase II on H₃PO₄-swollen cellulose was stimulated by high concentrations of cellobiose, but inhibited by high concentrations of d-glucose. Other notable inhibitors were Mn²⁺ and carbodi-imide. The properties of cellobiohydrolase II and the immunologically unrelated cellobiohydrolase I are compared.     

一株产葡萄糖氧化酶菌株的筛选、鉴定及酶学性质表征

[背景]海洋中蕴藏着大量未被开发利用的微生物种质资源,而且海洋微生物产的酶类因其具有耐低温、耐高压和耐高盐等明显区别于陆地微生物所产酶类的特点而备受关注.[目的]从渤海海域海泥样品中分离筛选产葡萄糖氧化酶的菌株,并研究其酶学性质.[方法]通过平板初筛和酶活复筛,确定产葡萄糖氧化酶的菌株;通过形态学鉴定和构建系统发育树分...     

Isolation and characterization of extracellular glucose oxidase from Penicillium adametzii LF F-2044.1

Hydroxides of magnesium and zinc, aluminum oxide, zinc phosphate, and co-precipitated Ca₃(PO₄)₂ and Mg(OH)₂ were efficient in binding extracellular glucose oxidase (GO) of P. adametzii LF F-2044.1 in a culture liquid filtrate (CLF). Basic Al₂O₃ was the most appropriate adsorbent for GO isolation from the CLF of the fungus. A GO isolation method was developed, which allowed for obtaining an enzyme with a high degree of purification. Spectral properties of the enzyme, its catalytic activity, and stability were characterized. The GO of P. adametzii LF F-2044.1 exhibited high pH stability, retaining activity within the range 4.5–9.0. The rate that GO-catalyzed D-glucose oxidation increased as the temperature increased (up to approximately 60°C). The catalytic activity and thermal stability of GO depended on its concentration in the medium. Under optimum conditions, the fractions GO-1 and GO-2 were characterized by K _M values of 1.56 × 10^?2 and 2.19 × 10^?2 M, respectively; the corresponding values of k _cat equaled 235.1 and 318.2 s^?1.     

Isolation and characterization of extracellular glucose oxidase from Penicillium adametzii LF F-2044.1

Hydroxides of magnesium and zinc, aluminum oxide, zinc phosphate, and co-precipitated Ca3(PO4)2 and Mg(OH)2 were efficient in binding extracellular glucose oxidase (GO) of P. adametzii LF F-2044.1 in a culture liquid filtrate (CLF). Basic Al2O3 was the most appropriate adsorbent for GO isolation from the CLF of the fungus. A GO isolation method was developed, which allowed for obtaining an enzyme with a high degree of purification. Spectral properties of the enzyme, its catalytic activity, and stability were characterized. The GO of P. adametzii LF F-2044.1 exhibited high pH stability, retaining activity within the range 4.5-9.0. The rate that GO-catalyzed D-glucose oxidation increased as the temperature increased (up to approximately 60 degrees C). The catalytic activity and thermal stability of GO depended on its concentration in the medium. Under optimum conditions, the fractions GO-1 and GO-2 were characterized by KM values of 1.56 x 10(-2) and 2.19 x 10(-2) M, respectively; the corresponding values of kcat equaled 235.1 and 318.2 s(-1).     

Production,purification, characterization and usage of a detergent additive of endoglucanase from isolated halotolerant Amycolatopsis cihanbeyliensis mutated strain Mut43

The Amycolatopsis cihanbeyliensis Mut43, which is obtained by UV radiation, exhibited endoglucanase activity of 5.21?U/mL, which was ～2.3-fold higher than that of the wild strain (2.04?U/mL). The highest enzyme activity was obtained after 3 days of incubation at 32?°C, pH 7.0, 150?rpm, and 6% NaCl in a liquid medium containing 1.5% (w/v) wheat straw (0.25?mm of particle size) and 0.6% (w/v) yeast extract. Enzyme activity was eluted as a single peak (gel filtration chromatography), and Sodium dodecyl sulfate–polyacrylamide gel electrophoresis (SDS–PAGE) analysis of the corresponding peak revealed a molar mass of 30?kDa. Zymogram analysis confirmed the presence of a single active endoglucanase component. The enzyme was purified to ～21-fold, and the mean overall yield was ～6%. The purified endoglucanase was active up to 80?°C and showed a half-life of 214?min at 60?°C in the absence of substrate at pH 8.0. The apparent K_m value for the purified endoglucanase was 0.70?mg/mL, while the V_max value was 6.20 Units/μg. Endoglucanase activity was reduced (25%) by treatment with 30?U of proteinase K/mg. The addition of Mg⁺² and Ca⁺² (5?mM) enhanced endoglucanase activity. Additionally, endoglucanase activity in the presence of 5?mM SDS or organic solvents was 75 and 50% of maximum activity, respectively. The high levels of enzyme production from A. cihanbeyliensis Mut43 achieved under batch conditions, coupled with the temperature stability, activity over a broad pH range, relatively high stability (70–80%) in the presence of industrial laundry detergents and storage half-lives of 45 days at +4?°C and 75 days at ?20?°C signify the suitability of this enzyme for industrial applications as detergent additive.     

Intracellular glucose oxidase from Penicillium funiculosum 46.1

A method for isolating extracellular glucose oxidase from the fungus Penicillium funiculosum 46.1, using ultrafiltration membranes, was developed. Two samples of the enzyme with a specific activity of 914-956 IU were obtained. The enzyme exhibited a high catalytic activity at pH above 6.0. The effective rate constant of glucose oxidase inactivation at pH 2.6 and 16 degrees C was 2.74 x 10(-6) s-1. This constant decreased significantly as pH of the medium increased (4.0-10.0). The temperature optimum for glucose oxidase-catalyzed beta-D-glucose oxidation was in the range 30-65 degrees C. At temperatures below 30 degrees C, the activation energy for beta-D-glucose oxidation was 6.42 kcal/mol; at higher temperatures, this parameter was equal to 0.61 kcal/mol. Kinetic parameters of glucose oxidase-catalyzed delta-D-glucose oxidation depended on the initial concentration of the enzyme in the solution. Glucose oxidase also catalyzed the oxidation of 2-deoxy-D-glucose, maltose, and galactose.     

Production,characterization and bioactivities of biosurfactants from newly isolated strictly halophilic bacteria

Eight distinct halophilic bacteria isolated from extreme saline soil samples of Khewra Salt Mines, Pakistan, were investigated for biosurfactant production. Isolates were identified by physiological, phenotypic and genetic characterization. Using 16S rDNA sequence analysis, the strains MB590, MB591, MB593, MB594, MB595 and MB596 were identified as Halomonas elongata, MB588 as Halobacillus karajiensis, and MB589 as Alkalibacillus almallahensis. Preliminary screening of biosurfactant production in halophilic bacteria was done by multiple screening assays. All biosurfactants showed significant emulsification properties and remarkably low surface tension values (up to 16.5 dynes/cm). Structural characterization of partially purified biosurfactants using Gas chromatography–mass spectrometry (GC–MS) and Fourier-transform infrared spectroscopy (FTIR) techniques indicated different fatty acids, glycolipid derivatives and a novel antimicrobial peptide furanomycin. These biosurfactants exhibited strong bioactivities against bacterial/fungal pathogens i.e. Klebsiella pneumoniae (86.5 %), Staphylococcus aureus (97.75 %), Bacillus subtilis (97 %), Enterococcus faecalis (97.6 %), E. coli (54.5 %), Aspergillus niger (87.75 %), Aspergillus fumigatus (93.1 %), Aspergillus flavus (80.4 %), and Fusarium solani (89.05 %). Additionally, biosurfactants also showed 85 % free radical scavenging activity indicating their antioxidant potential. The present study revealed the potential of halophilic bacterial biosurfactants as effective antimicrobial agents against various pathogens, and their possible applications in the biomedical field.     

Production of cholesterol oxidase by a newly isolated Rhodococcus sp.

Fifteen strains of microorganisms with ability to degrade cholesterol were isolated. Among them a Gram-positive, non-motile, non-sporing bacterium with meso-DAP in the cell wall and with a rod-coccus cycle showed the highest ability for cholesterol degradation. It was identified as Rhodococcus sp. strain 2C and was deposited by code 1633 in Persian type culture collection (PTCC). This strain was able to produce high levels of both extracellular and cell-bound cholesterol oxidases in media containing cholesterol as a sole carbon source. The effects of medium composition and physical parameters on cholesterol oxidase production were studied. The optimized medium was found to contain cholesterol 0.15% (w/v), yeast extract 0.3% (w/v), diammonium hydrogen phosphate 0.1% (w/v), Tween 80 (0.05%). The optimum pH and temperature for cholesterol oxidase production in optimized medium were found to be 8–30 °C respectively. Triton X-100 showed the greatest effect in releasing the cell-bound enzyme. The first and most probably the main metabolite of cholesterol degradation was purified and identified as 4-cholestene-3-one.     

Production and characterization of xylanases of a Bacillus strain isolated from soil

Xylanase production was performed by growing a Bacillus isolate on agricultural by-products, wheat straw, wheat bran, corn cobs and cotton bagasse. A maximum xylanase activity of 180 U/ml was obtained together with a cellulase activity of 0.03 U/ml on 4 (w/v) corn cobs. Electrophoretic analysis showed the presence of three endo--1, 4-xylanases having molecular weights of about 22, 23 and 40 kDa. Xylanolytic activity was stable up to 50 °C in the pH range of 4.5–10 and the highest activity was observed at 70 °C and pH 6.5.     

Quartz sand as an adsorbent for purification of extracellular glucose oxidase from Penicillium funiculosum 46.1

The procedure of purification of extracellular glucose oxidase (GO, EC 1.1.3.4) from culture-liquid filtrate (CLF) of the fungus Penicillum funiculosum 46.1 using alluvial quartz sand as an adsorbent has been developed. The modification of sand by changing the charge and polarity did not lead to a significant increase in its adsorption capacity towards GO. The effectiveness of sand and aluminum oxide, used as sorbents for isolation of GO from CLF, was compared. Glucose oxidase, isolated from CLF by adsorption on sand, exhibited a greater catalytic activity compared to the enzyme specimens obtained by column chromatography on CLF. Sand adsorbed GO from P. funiculosum 46.1 more effectively than aluminum oxide. It is concluded that sand may be used for fractionation of partly purified GO.     

Production and characterization of a dextranase from an isolated Paecilomyces lilacinus strain

Summary Several environments were sampled in a screening procedure to obtain 23 different dextranase-producing fungal strains. The most productive strains were identified as Penicillium purpurogenum and Paecilomyces lilacinus. The culture medium for P. lilacinus strain 6R was optimized, increasing the initial productivity twofold. The enzyme showed optimal activities at pH 5.4 and 65° C, as well as excellent thermal stability at 60° C. An average K _m value of 0.26 g/l was found for dextran over a wide range of substrate molecular mass. The enzyme did not show substrate or product inhibition. From HPLC chromatograms, the 6R dextranase was found to readily reduce dextran to low molecular mass oligosaccharides and isomaltose. An integrated kinetic equation is used to describe batch reactions and application dose. Offprint requests to: A. Lopez-Munguia