Production of extracellular alkaline lipase by a new thermophilicBacillus sp

A thermophilic soil isolate—Bacillus sp. RS-12, grew optimally at 50°C and not below 40°C. Production of an extracellular lipase by this organism was substantially enhanced when the type and concentration of carbon and nitrogen sources and initial pH of the culture medium were consecutively optimized. The lipase production was found to be growth-associated with maximum secretion in the late exponential growth phase,i.e. 15h of incubation. The enzyme activity as high as 0.98 nkat/mL was obtained under optimum conditions. Tween 80 (0.5%) and yeast extract (0.5%) were found to be the best carbon and nitrogen sources inducing maximum enzyme yield with initial pH 8.0 at 50°C. The kinetic characteristics of the crude lipase indicated the highest activity at 50–55°C and pH 8.0. It had a half life of 60, 18 and 15 min at 65, 70 and 75°C, respectively.     

Phytase fromAspergillus niger

132 microorganisms, isolates from soil and decayed fruits, were tested for phytase production. All isolates intensively producing active extracellular phytase were of fungal origin. The most active fungal isolates with phytase activity were identified asAspergillus niger. At the end of the growth phase, the extracellular phytase activity produced byA. niger strain 92 was 132 nkat/mL, with strain 89 it was 53 nkat/mL. In both strains the extracellular enzyme activity exhibited two marked activity optima at pH 1.8 and 5.0 and a temperature optimum at 55°C.     

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.     

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

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

Partial purification and characterization of extracellular cellulase from a strain ofTrichoderma viride isolated from forest soil

Partial purification of extracellular cellulase ofTrichoderma viride isolated from forest soil was done by ammonium sulfate precipitation of culture supernatant, centrifugation at higher speed, solubilization of protein in sodium acetate buffer and dialysis. The specific activity of cellulase in the culture supernatant, was 136 nkat/mg which was increased by 172% after the completion of final step (234 nkat/mg). The recovery of enzyme was 70%. The enzyme was characterized by demonstration of optimum activity at 55°C and pH 5.0 with 1% carboxymethyl cellulose as substrate.     

Galactomyces geotrichum Y25产脂肪酶条件的优化

应用响应面法对Galactomyces geotrichumY25液体发酵产脂肪酶的条件进行了优化。首先采用Plackett-Burman设计对影响产酶因素的效应进行评价,筛选出黄豆粉、玉米浆和发酵时间3个对产酶影响显著的因素。用最陡爬坡路径逼近最大产酶区域后,利用响应面设计对显著因素进行优化,得出黄豆粉、玉米浆最佳质量分数分别为2.51%、2.12%,最佳发酵时间101.95 h。优化后液体发酵液中脂肪酶活力提高到34.65 U/mL,比初始酶活力9.6 U/mL提高了3.61倍。表明响应面法可显著优化Galactomyces geotrichumY25液体发酵产脂肪酶条件。     

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

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

Influence of pH on the formation and location of β-glucosidase inAspergillus terreus grown on cellulose

Wild strainof Aspergillus terreus is very good producer of /gb-glucosidase. It produces 15 nkat/mL (0.9 IU/mL) of extracellular β-glucosidase at pH 5.0. The medium pH level strongly affects the production and binding of β-glucosidase on the cells and on residual cellulose. At pH 4.0 the rate of enzyme synthesis and the level of total activity is highest but 60—75 % of this activity is bound. At higher pH levels the enzyme is mainly released to the medium.     

Production and extraction of extracellular lipase from the entomopathogenic fungus Isaria fumosoroseus (Cordycipitaceae; Hypocreales)

Lipases are important cuticle degrading enzymes involved in the infection process of entomopathogens by hydrolysing the ester bonds of lipoproteins, fats and waxes present in the insect integument. Production of extracellular lipase by Isaria fumosoroseus (Cordycipitaceae; Hypocreales) isolate IF28.2 was investigated using different combinations of basal medium components. The effect of different vegetable oils added to a basal medium at different concentrations to improve enzyme production was evaluated. Maximum lipase activity (125.33±2.96 U/mL) as well as maximum biomass production (22.36±0.99 mg/mL) was observed for olive oil when used at a concentration of 2% (v/v) of the basal medium. In the presence of surfactants, the highest lipase activity occurred when SDS and Tween 80 were added at the time of fungal inoculation. SDS proved to be the best surfactant having 110.66±3.52 U/mL lipase activity. The effects of the divalent metal ions (iron and magnesium) on lipase activity were also studied. Iron inhibited, whereas magnesium slightly increased lipase activity. The optimum pH for lipase production was 5.7 while 32°C proved to be the best temperature for lipase production.     

Production of levanase byRhodotorula sp.

Rhodotorula sp. produced a high yield of levanase (12.5 nkat/mL) in shake flasks in basal medium containing 1% maltose as the sole carbon source. Among the different carbon sources used, maltose was found to be the best for levanase production. The optimum temperature and pH for levanase production were 30°C and 6, respectively. In a batch reactor the enzyme productivity was higher (500 nkat L⁻¹ h⁻¹) than in shaken flasks (347 nkat L⁻¹ h⁻¹).     

Screening,statistical optimized production,and application of β‐mannanase from some newly isolated fungi

Eighty‐eight fungi isolated from soil and decaying organic matter were screened for mannanolytic activity. Twenty‐eight fungi produced extracellular mannanase on locust bean gum as evidenced by zone of hydrolysis produced on mannan agar gel. Six prominent producers, including four Fusarium species namely Fusarium fusarioides NFCCI 3282, Fusarium solani NFCCI 3283, Fusarium equiseti NFCCI 3284, Fusarium moniliforme NFCCI 3287 with Cladosporium cladosporioides NFCCI 3285 and Acrophialophora levis NFCCI 3286 produced the β‐mannanase in the range of 84–140 nkat/mL. All these grew well on particulate substrates in solid‐state fermentation (SSF), producing relatively higher titers on mannan‐rich palm kernel cake (PKC) and copra meal. Two high yielding strains, F. equiseti (1747 nkat/gds) and A. levis (897 nkat/gds) were selected for statistical optimization of mannanase on PKC. Interaction of two critical solid state fermentation parameters, pH and moisture on mannanase production by these two molds was studied by response surface method. Optimized production on PKC resulted in three‐ to fourfold enhancement in enzyme yield was observed in case of F. equiseti (5945 nkat/gds) and A. levis (4726 nkat/gds). HPLC analysis of mannan hydrolysate indicated that F. equiseti and A. levis mannanase performed efficient hydrolysis of konjac gum (up to 99%) with exclusive mannooligosaccahride (DP of 4) production. A seminative SDS‐PAGE revealed that A. levis and F. solani produced three isoforms, F. moniliforme produced two isoforms while F. fusarioides, F. equiseti, and C. cladosporioides produced a single enzyme.     

Cyclodextrins are likely to induce cyclodextrin glycosyltransferase production inBacillus macerans

Cyclodextrin glycosyltransferase (CGTase) activity was monitored inBacillus macerans culture fluids up to 56 h incubation time using glucose (G₁), maltose (G₂), maltotriose (G₃), maltoheptaose (G₇), α-,β-,γ-cyclodextrins (CDs) and soluble starch as carbon sources. Highest maximum specific growth rates (μ_max) were observed with glucose, γ-CD and soluble starch (μ_max values were 0.86, 0.74 and 0.69/h, respectively) while the maximum viable cell numbers were always within the range of 2.3–7.1×10¹¹ CFU/mL independently of the carbon source used. Highest CGTase production was found in the presence of soluble starch and G₇ (55.0 and 35.4 nkat/mL, respectively), these saccharides being easily transformed to CDs by CGTase. Moreover, when culture media were supplemented with cyclic malto-oligosaccharides the CGTase activities were about twice higher (19.6–20.6 nkat/mL) than those obtained with the linear G₂ and G₃ saccharides (8.9 and 11.3 nkat/mL, respectively) which give rise only to negligible quantities of CDs. CDs, which are the major end products of the action of CGTase, are regarded thus as the likely physiological inducers of the enzyme.     

Production of extracellular enzymes by immobilizedTrichoderma reesei in shake flask cultures

Polyurethane foam and nylon-web carriers were compared for simultaneous production of endo-1, 4-β-glucanase and xylanase by immobilizedTrichoderma reesei on a medium based on lactose (27 g/l), cellulose (3 g/l) and sorbose (0.3 g/l). Nylon sheet with 1.2 cm² carrier surface/ml medium was superior to the others, and it was selected for further studies. The carbon source had a marked effect on enzyme production by the immobilized fungus. With pure cellulose (10 g/l) as substrate, the maximum endoglucanase activity was 690 nkat/ml and xylanase activity 4800 nkat/ml. Supplementation with 0.5 g/l of sorbose resulted in an increase in both endoglucanase and xylanase activities in all media studied. A more detailed study on the effect of sorbose on a lactose(7 g/l)-and cellulose(3 g/l)-based medium revealed a clear optimum sorbose concentration of 1.5 g/l, with a maximum endoglucanase activity of 660 nkat/ml, xylanase activity of 3670 nkat/ml, and filter-paper activity (overall cellulolytic activity) of 2.0 filter-paper units/ml. However, the addition of 1.5 g/l sorbose to the pure-cellulose(10 g/l)-based medium resulted in a slight decrease in the enzyme production.     

Aggregation properties of cold-active lipase produced by a psychrotolerant strain of Pseudomonas palleroniana (GBPI_508)

Abstract

The present study aims to exploit microbial potential from colder region to produce lipase enzyme stable at low temperatures. A newly isolated bacterium GBPI_508 from Himalayan environment, was investigated for the production of cold-active lipase emphasizing on its aggregation properties. Plate based assays followed by quantitative production of enzyme was estimated under different culture conditions. Further characterization of partially purified enzyme was done for molecular weight determination and activity and stability under varying conditions of pH, temperature, and in presence of organic solvents, inhibitors, and metal ions. The psychrotolerant bacterium was identified as Pseudomonas palleroniana following 16S rRNA gene sequencing. Maximum lipase production by GBPI_508 was recorded in 7?days at 25?°C utilizing yeast extract as nitrogen source and olive oil as substrate in the lipase production medium. Triton X-100 (1%) in the medium as emulsifier significantly enhanced the lipase production. Lipase produced by bacterium showed aggregation which was confirmed by dynamic light scattering and native PAGE. SDS-PAGE followed by zymogram analysis of partially purified enzyme showed two active bands of ～50?kDa and ～54?kDa. Optimum activity of partially purified enzymatic preparation was recorded at 40?°C while the activity remained nearly consistent from pH 7.0 to 12.0, whereas, maximum stability was recorded at pH values 7.0 and 11.0 at 25?°C. Interestingly, lipase in the partially purified fraction retained 60% enzyme activity at 10?°C. Medium chain pNP ester (C10) was the most preferred substrate for the lipase of GBPI_508. The lipase possessed >50% residual activity when incubated with different organic solvents (25% v/v) except toluene and dichloromethane which inhibited the activity below 50%. Partially purified enzyme was also stable in the presence of metal ions and inhibitors. The study suggests applicability of GBPI_508 lipase in low temperature conditions such as cold-active detergent formulations and cold bioremediation.     

Production of high level of cellulase-free and thermostable xylanase by a wild strain of Thermomyces lanuginosus using beechwood xylan

Thermomyces lanuginosus, isolated from self-heated jute stacks in Bangladesh, was studied for production of high level of cellulase-free thermostable xylanase at 50°C using xylan. Optimization of the medium composition was carried out on shake-flask level using Graeco-Latin square technique. This increased xylanase production from 527 nkat ml⁻¹ in the original medium to 9168–9502 nkat ml⁻¹ in the optimized medium under optimized culture conditions e.g. initial medium pH (6.0–6.5), culture temperature (50°C) and time (5–6 d). The lag phase was very much shorter in the laboratory reactor compared to which existed in the shake cultures and 7111 nkat of xylanase activity were obtained per ml of culture filtrate at 60 h of cultivation. With a 15 min reaction time, the optimal pH and temperature for the xylanase activity were at 6.5 and 65°C, respectively. The enzyme was almost stable over a broad range of pH 3–9 at 20°C, with an optimum stability at pH 6.5. After 51 h heating at 50°C the enzyme retained 60%, 100% and 90% activity at pH 5.0, 6.5 and 8.0, respectively. The crude enzyme could hydrolyse xylan effectively and in only 6 h 67.3%, 54.0% and 49.2% saccharifications were achieved for 2%, 5% and 10% substrate levels, respectively. The principal product of hydrolysis was xylobiose together with smaller amounts of xylooligosaccharides (degree of polymerization 3–7) and xylose.     

脂肪酶产生菌Candida rugosa产酶条件研究

脂肪酶(Lipase,EC3.1.1.3)是用来催化酯类化合物的分解、合成和酯交换的特殊酶,具有高度的化学选择性和立体异构性,它广泛应用于食品、轻纺、皮革、香料、化妆品、洗涤剂、有机合成、医药等领域.本世纪80年代,美国科学家发现酶在近无水的有机溶剂中不仅能保存其催化活力,而且还获得许多新的催化特征[1],此后,脂肪酶在非水相酶催化领域的研究和应用逐渐增多.     

Enzymatic properties of lipase and characteristics production byLactobacillus delbrueckii subsp.bulgaricus

Some properties of an extracellular lipase produced byLactobacillus delbrueckii subsp.bulgaricus were studied. Maximum enzyme activity was found against olive and butter oil as enzyme substrates. Addition of 9% acacia gum, 0.1% Na-deoxycholate and 0.01 M CaCl₂ to the enzyme reaction mixture increased-lipase activity from 5.3 to 14.5 (FFA/mg protein/minute) at pH 6.0 and at 40° C. Maximum lipase production was reached in the presence of glucose as a sole source of carbon, wheat bran as nitrogen source, olive oil as a sole lipid source and butyric acid as fatty acid supporting the growth medium. An initial pH value of the culture medium of 6.0 and a temperature of 35° C gave the highest lipolytic activity.     

产脂肪酶菌株筛选及柠檬酸杆菌产酶条件优化

脂肪酶可以催化甘油三酯水解成脂肪酸和甘油,已广泛应用在工业领域,而获得产酶微生物是研究的基础。采用油脂平板法筛选出1株脂肪酶产生菌。经16S rRNA序列分析可知,该菌株属于柠檬酸杆菌(Citrobacter werkman and Gillen)。单因素试验对其进行产酶条件优化,优化后产酶条件（g/L）：淀粉2.0,KH₂PO₄ 1.0,K₂HPO₄·3H₂O 2.2,(NH₄)₂SO₄ 1.0,MgSO₄·7H₂O 0.1,牛肉膏2.0,橄榄油10.0 mL,pH 7.5,接种量1.5%(v/v),37 ℃培养43 h。获得最大酶活为384 U/mL,是优化前的13倍。可以利用该菌制备脂肪酶。     

Lipase from Pseudomonas aeruginosa LP602: biochemical properties and application for wastewater treatment

Lipase from Pseudomonas aeruginosa LP602, a bacterial strain isolated from a domestic wastewater sample, was preliminarily characterized. The enzyme exhibited maximum lipolytic activity at pH 8.0 where it was also stably maintained. At 55°C, the lipase had the highest activity but not stability. The enzyme was insensitive to EDTA and to many ions tested except Zn²⁺. It was sensitive to SDS but not to Tween-20, Tween-80 or Triton X-100. The enzyme was active towards a number of commercial food grade fats and oils. A suitable medium formula for lipase production was MMP containing 6.25% whey as a carbon source, 1% soybean oil as inducer and 0.5% yeast extract supplement. The culture was fed with glucose to a final concentration of 0.1% at the 15th hour of incubation. Lipase production under this condition was 3.5 U ml⁻¹. Both P. aeruginosa LP602 cells and the lipase were shown to be usable for lipid-rich wastewater treatment. Received 21 April 1998/ Accepted in revised form 6 August 1998     

The effect of cultural conditions on the production of lipase by Acremonium strictum

Summary The optimum cultural conditions for the production of lipase byA. strictum under stationary condition are: period of incubation, 7 days; temperature, 30°C; xylose at a concentration of 2% (w/v) and 3.5% (w/v) soyabean meal as carbon and nitrogen sources respectively. Incorporation of 1% (v/v) of Tween 80 in culture medium enhanced enzyme production while the presence of fatty acids reduced both fungal growth and lipase production. The enzyme showed broad substrate specificity.