Response surface methodology for optimization of Mucor fermentation medium

采用响应面分析方法优化毛霉菌B的发酵培养基,首先通过单因素试验筛选出葡萄糖为最适碳源,酵母膏和玉米浆为最适氮源,用Plackett-Burman试验对葡萄糖、酵母膏、玉米浆、MgSO4、FeSO4、NH4Cl、K2 HPO4进行评估并筛选出具有显著效应的3个因素:葡萄糖、酵母膏、玉米浆,再通过最陡爬坡试验逼近其最大响应区域,最后采用Box-Behnken试验对其用量进行优化,得到毛霉菌最佳发酵培养基(g/L):葡萄糖51.54,酵母膏5.22,玉米浆14.31,MgSO4 0.5,FeSO40.1,NH4Cl3,K2HPO43,pH 6.0～6.5.培养基优化后,毛霉生物量由23.51 g/L提高至31.13g/L,比对照组提高32.41％,腺嘌呤转化率由53.59％提高至59.97％,ATP产率由6.56 g/L提高至7.34g/L,比对照组提高11.89％.     

响应面法优化毛霉菌发酵培养基

采用响应面分析方法优化毛霉菌B的发酵培养基,首先通过单因素试验筛选出葡萄糖为最适碳源,酵母膏和玉米浆为最适氮源,用Plackett—Burman试验对葡萄糖、酵母膏、玉米浆、MgSO4、FeSO4、NILCl/、HPO4进行评估并筛选出具有显著效应的3个因素：葡萄糖、酵母膏、玉米浆,再通过最陡爬坡试验逼近其最大响应区域,最后采用Box—Behnken试验对其用量进行优化,得到毛霉菌最佳发酵培养基（g/L）：葡萄糖51．54,酵母膏5．22,玉米浆14．31,MgSO40．5,FeSO40．1,NH4Cl3,k2HPO43,pH6．0～6．5。培养基优化后,毛霉生物量由23．51g／L提高至31．13g/L,比对照组提高32．41％,腺嘌呤转化率由53．59％提高至59．97％,ATP产率由6．56g／L提高至7．34g／L,比对照组提高11．89％。     

响应面法优化赖氨酸脱羧酶产酶培养基

目的:对蜂房哈夫尼菌产L-赖氨酸脱羧酶培养基进行优化.方法:采用响应面优化的方法.首先单因素实验得到最适培养基成分为:葡萄糖2%,酵母膏2%,MsSO40.03%,KH2PO40.01%,NaCl 0.3%,L-赖氨酸0.5%,维生素B6 0.1%,玉米浆4%,酶活达到180.85U/mL.在此基础上,用PB试验筛选出对酶活影响显著的3个因素(葡萄糖、酵母膏、玉米浆),再通过Box-behnken实验对这三个因素进行优化.结果:得到产酶最佳培养基为葡萄糖1.84%,酵母膏2.20%,玉米浆3.66%,MgSO40.03%,K2HPO4 0.01%,NaCl 0.3%,L-赖氨酸0.5%,维生素B60.1%.结论:响应面优化的方法使酶活达到203.14U/mL,比优化前的比酶活(7.03U/ML)提高28.9倍,在单因素的基础上提高了11.3%.     

响应面法优化两歧双歧杆菌发酵培养基

根据两歧双歧杆菌的营养需要和生长特性,采用响应面分析法对两歧双歧杆菌的培养基进行优化研究。先用Plackett-Burman设计法实验确定重要因素,再用最陡爬坡实验法确定因素水平,最后用响应面分析方法求得的最佳培养基配方为经优化的发酵培养基配方为:酪蛋白胨1.0%,大豆蛋白胨0.5%,酵母膏1.63%,半胱氨酸盐酸盐0.0076%,低聚果糖0.13%,葡萄糖0.5%,K2HPO4 0.2%。用此优化的发酵培养基培养两歧双歧杆菌,活菌数可高达7.8×10~9 cfu/ml。     

响应面试验设计优化脱氢酶发酵培养基

目的:对简单节杆菌,TCCC11037发酵生产脱氢酶的培养基进行优化.方法:利用单因子试验筛选出最适碳源为葡萄糖,氮源为酵母膏.采用Plackett-Burman(P-B)方法筛选出对产酶有重要影响的因素,并采用响应面试验设计(RSM)对重要因素进行优化.结果:葡萄糖、酵母膏、KH2PO4的浓度是影响脱氢酶产生的重要因素.优化后的培养基组成为(%):葡萄糖1.21,酵母膏0.65,KH2PO4 0.24,玉米浆0.8;培养基初始pH值7.0,接种量5%,通气条件为装液量100mL/500mL.结论:优化后脱氢酶活力达到24.57μmol/(g·min),得到了明显的提高.     

光合细菌菌落计数培养基的研究

利用正交设计试验法研究了碳源、酵母膏、微量元素、磷酸盐、铁盐、琼脂等6个因子对光合细菌培养计数的影响,确定了各因素的最佳配比:NaHCO31.0g,CH3COONa3.0g,酵母膏2.0g,微量元素0mL/L,K2HPO40.5g,Fe-EDTA0.005g,琼脂8g。该组合加上NH4Cl1.0g,MgCl2·6H2O0.2g,NaCl5.0g,dH2O1000mL,即得出光合细菌菌落计数培养基,称之为R培养基。该培养基对光合细菌的检测具有准确、快速、简便等优点。     

黄曲霉产木聚糖酶条件优化及酶解产物初步分析

一株能利用木糖及丰纤维素水解液产乙醇的黄曲霉Aspergillus flavus Z7具有产木聚糖酶的能力.通过单因素试验和正交试验优化了产酶培养基,得到最佳组分为玉米芯2%,尿素0.2%,酵母膏0.25%,K2HPO4 0.5%,NaNO,0.1%,MgSO4·7H2O 0.1%;单因素试验表明,用纱布代替塑料布密封摇瓶封口能显著提高产酶量;Z7在碱性条件下具有更强的产酶性能,在最优条件下发酵,能产生最大木聚糖酶活122.23IU/ml.通过薄层分析,验证了Z7产生的木聚糖酶具有水解木聚糖生成木糖及木寡糖的能力.     

马疫链球菌SH-5生产透明质酸营养条件的研究

对Streptococcus equiSH-5生产透明质酸的营养条件进行了研究,摇瓶发酵实验表明该菌株的适宜氮源为酵母膏和牛肉膏以2∶1组成的混合氮源,在碳氮比为2∶1时有利于透明质酸的合成和菌体的生长;通过正交实验摸索出营养培养基的最佳配比为葡萄糖5%,酵母粉6.67%,牛肉膏3.33%,MgSO4.7H2O 0.1%,MnSO4.4H2O 0.02%,NaHCO30.3%,Na2HPO40.5‰,尿嘧啶0.08‰;添加0.05‰异甘草素对产酸有利。     

产腈水解酶菌株的诱变及培养优化

对实验室保存的1株产腈水解酶的Rhodococcus rhodochrous菌株采用氯化锂进行诱变处理,筛选得到了1株产酶活力较高的菌株tg1-A6。经过优化得到培养基的配方为(g.L-1):葡萄糖10,谷氨酸钠10,酵母膏3,己内酰胺7,MgSO40.5,K2HPO40.75,KH2PO40.75。当培养温度28℃,摇床转速200 r.min-1,初始pH值7.0,通过补加葡萄糖,该菌的腈水解酶酶活可达到26.77 U.mL-1。     

大豆根瘤菌HH103菌株培养基的筛选与优化

以快生型大豆根瘤菌HH103菌株为供试菌株,采用单因素碳氮源利用试验和正交设计试验,确定最佳培养基及其配方。结果表明：该菌株在YMA中生长良好,最佳碳源为蔗糖,最佳氮源为酵母膏,最佳培养基成分配方（g/L）：蔗糖11,酵母膏0.9,K2HPO4 0.5,MnSO4 0.005,CaCl2 0.1,KH2PO4 0.5,MgSO4 0.2,KNO30.77,（NH4）2HPO4 0.33,FeCl3 0.005,pH 7.2。     

Improvement of xylanase production in solid-state fermentation by alkali tolerant Aspergillus versicolor MKU3

AIMS: To optimize the media components for xylanase production by Aspergillus versicolor MKU3 in solid-state fermentation (SSF). METHODS AND RESULTS: Medium optimization was carried out using De Moe's fractional factorial design with seven components. Maximum production of xylanase 3249.9 U g(-1) was obtained in SSF with an optimized medium containing (g l(-1)): NaNO(3), 20; K(2)HPO(4), 20; MgSO(4), 10; FeSO(4), 0.001; KCl, 1; peptone, 10 and yeast extract, 10. Four components namely NaNO(3), MgSO(4), peptone and K(2)HPO(4) significantly increased the xylanase production by A. versicolor MKU3. CONCLUSIONS: Fractional factorial design was used to optimize the seven components in the fermentation medium for SSF. The optimized media increased xylanase production by 3.4-fold. SIGNIFICANCE AND IMPACT OF THE STUDY: Aspergillus versicolor MKU3 produced maximum xylanase after two steps of media optimization under alkaline condition. This medium will be significant value for xylanase production in SSF.     

A NEWLY ANTI-Streptococcus suis BACTERIOCIN PRODUCING STRAIN FROM UNWEANED PIGLETS FECAL MATTER: ISOLATION, PRELIMINARY IDENTIFICATION, AND OPTIMIZATION OF MEDIUM COMPOSITION FOR ENHANCED BACTERIOCIN PRODUCTION

A newly isolated anti-Streptococcus suis bacteriocin-producing strain LPL1-5 was obtained from healthy unweaned piglets' fecal matter, and was designated as Lactobacillus pentosus LPL1-5 based on morphology, biochemical properties, and 16S rDNA sequencing analysis. The medium composition for enhanced bacteriocin production by L. pentosus LPL1-5 was optimized by statistical methodology. Yeast extract, K(2)HPO(4)?·?3H(2)O, and MnSO(4)?·?H(2)O were identified as significant components influencing pentocin LPL1-5 production using the Plackett-Burman method. Response surface methodology was applied for further optimization. The concentrations of medium components for enhanced pentocin LPL1-5 production were as follows (g/L): lactose 20.00, tryptone 10.00, beef extract 10.00, yeast extract 14.00, MnSO(4)?·?H(2)O 0.84, K(2)HPO(4)?·?3H(2)O 4.92, triammonium citrate 2.00, Na-acetate 5.00, MgSO(4)?·?7H(2)O 0.58, Tween 80 1.00. Under the optimized condition, a value of 3154.65?±?27.93 IU/mL bacteriocin activity was achieved, which was 4.2-fold that of the original medium.     

Improvement of xylanase production in solid state fermentation by alkali-tolerant Aspergillus fumigatus MKU1 using a fractional factorial design

Optimization of media for the maximum production of xylanase by Aspergillus fumigatus MKUI was carried out using De Meo's fractional factorial design with seven components such as NaNO3, K2HPO4, MgSO4, FeSO4. KCl, peptone and yeast extract. A. fumigatus produced a maximum of 700 U/gds of enzyme after 48 hr of incubation (before optimization). After two steps of optimization, the medium designed favoured a 2.8 fold (1950 U/gds) increase in xylanase production by A. fumigatus. Optimized medium for Aspergillus fumigatus contained (g/l) NaNO3, 15; K2HPO4, 15; MgSO4, 5; FeSO4, 0.009; KCI, 0.5; peptone, 20; and yeast extract, 10.     

假单胞菌属No.2120生产D-甘露糖异构酶发酵培养基的优化

通过单因子实验、Plackett-Burman实验设计、响应面分析法对假单胞菌属No.2120产D-甘露糖异构酶的培养基进行优化,确定发酵优化条件:果糖15.26 g/L,牛肉膏20 g/L,酵母膏2 g/L,K2HPO42 g/L,MgSO4.7H2O0.5 g/L,NaCl 0.5 g/L,Tween-80 1.54 g/L。采用优化配方异构酶比酶活可以达到68.28 U/mL。     

Optimization of fermentation medium and conditions for mycelial growth and water-soluble exo-polysaccharides production by Isaria farinosa B05

The optimal fermentation medium and conditions for mycelial growth and water-soluble exo-polysaccharides production by Isaria farinosa B05 were investigated. The medium components and fermentation conditions were optimized according to the one at a time method, while the concentration of medium components was determined by the orthogonal matrix method. The results showed that the optimal fermentation medium was as follows: sucrose 3.5% (w/v), peptone 0.5%, yeast extract 0.2%, K(2)HPO(4) 0.1%, and MgSO(4) 0.05%. The suitable fermentation conditions were as follows: initial pH 7.0, temperature 25 degrees C, medium volume 75 mL/250 mL, inoculum volume 5% (v/v), time 5d. In such optimal nutrition and environmental conditions, the maximal mycelial yield was 2.124 g/100 mL after 4 day's fermentation, while maximal water-soluble exo-polysaccharides production reached 2.144 g/L after 5 day's fermentation.     

Optimization of culture conditions and medium composition for the production of micrococcin GO5 by Micrococcus sp. GO5

To enhance the production of micrococcin GO5, a bacteriocin produced by Micrococcus sp. GO5, cultivation conditions and medium composition were optimized. The optimal initial pH and temperature for bacteriocin production were 7.0-9.0 and 37 degrees C, respectively. Micrococcus sp. GO5 displayed the highest micrococcin GO5 activity when grown in modified MRS medium that contained lactose or sucrose, rather than glucose, as a carbon source. The maximum bacteriocin activity was obtained in modified MRS medium containing 0.5% tryptone and 1.0% yeast extract as nitrogen sources instead of the other nitrogen sources present in MRS medium. Bacteriocin production was greatly affected by the concentration of K(2)HPO(4); strain GO5 produced eight-fold more bacteriocin in medium containing 2.0-2.5% K(2)HPO(4) than in medium containing 0.2% K(2)HPO(4). The optimal concentration of MgSO(4).7H(2)O for bacteriocin production was 0.5%. The production of micrococcin GO5 was increased 32-fold in shake flask culture and 16-fold in a bioreactor using the optimized medium (TY medium), compared with culturing in MRS medium.     

Screening and optimization of nutritional factors for higher dextransucrase production by Leuconostocmesenteroides NRRL B-640 using statistical approach

To improve dextransucrase production from Leuconostocmesenteroides NRRL B-640 culture medium was screened and optimized using the statistical design techniques of Plackett-Burman and response surface methodology (RSM). Plackett-Burman design with six variables viz. sucrose, yeast extract, K2HPO4, peptone, beef extract and Tween 80 was performed to screen the nutrients that were significantly affecting dextransucrase production. The variables sucrose, K2HPO4, yeast extract and beef extract showed above 90% confidence levels for dextransucrase production and were considered as significant factors for optimization using response surface methodology. 2(4)-central composite design was used for RSM optimization. The experimental results were fitted to a second-order polynomial model which gave a coefficient of determination R2=0.95. The optimized composition of 30g/l sucrose, 18.9g/l yeast extract, 19.4g/l K2HPO4 and 15g/l beef extract gave an experimental value of dextransucrase activity of 10.7U/ml which corresponded well with the predicted value of 10.9U/ml by the model.     

Optimization of a fermentation medium for the production of Penicillin G acylase from Bacillus sp

AIMS: Optimization of Penicillin G acylase (PAC) production from a novel isolate of Bacillus sp. METHODS: Fermentation medium for PAC production was optimized using a two-level fractional factorial design with seven components. RESULTS: A maximum production of 9.5 U ml(-1) of PAC was obtained in an optimized medium containing (g l(-1): K2HPO4, 1.0; MgSO4.7H2O, 0.1; CaCl2.2H2O, 0.1; PAA, 2.0; tryptone, 5.0; yeast extract, 3.0; and sucrose, 50.0. SIGNIFICANCE AND IMPACT OF THE STUDY: The two-step medium optimization resulted in a twofold increase in PAC production. Since the strain Bacillus sp. PGS10 produces a high level of PAC, it could be a potential candidate for industrial production of PAC.     

假丝酵母E-2产生物表面活性剂摇瓶发酵条件的优化

从扬子石化的废水淤泥中筛选到1株能发酵液体石蜡产脂肽类生物表面活性剂的假丝酵母Candida E-2.通过单因子实验和正交试验,得到了最佳发酵培养基组成(g/L):牛肉膏3.0,蔗糖2.0,酵母膏0.25,KH2PO4 12.5,MgSO4 0.3,NaCl 1.5,CaCl,0.05,尿素0.5 5;液体石蜡10％(体积分数).最佳培养条件:初始pH7.0,接种量0.12g/L,装液量为200mL三角瓶30mL,培养时间为5 d.最终产量提高了2.7倍,达1.582g/L.     

Optimization of medium composition for alkali-stable xylanase production by Aspergillus fischeri Fxn 1 in solid-state fermentation using central composite rotary design

Response surface methodology and central composite rotary design (CCRD) was employed to optimize a fermentation medium for the production of alkali-stable cellulase-free xylanase by Aspergillus fischeri in solid-state fermentation at pH 9.0 with wheat bran as substrate. The four variables involved in this study were sodium nitrite, potassium dihydrogen phosphate, magnesium sulphate and yeast extract. The statistical analysis of the results showed that, in the range studied, only sodium nitrite had a significant effect on xylanase production. The optimized medium containing (in g/l) NaNO(2)-7.0, K2HPO(4)-1.0, MgSO(4)-0.5 and yeast extract-5.0 resulted in 1.9-fold increased level of alkali-stable xylanase (1024 U/g wheat bran) production compared to initial level (540 U/g) after 72 h of fermentation, whereas its value predicted by the quadratic model was 931 U/g. The level of protease activity was considerably decreased in optimized medium, thus helping to preserve the xylanase activity and demonstrating another advantage of applying statistical experimental design.