产β-葡聚糖酶基因工程菌发酵条件的优化

目的以1株酶产量高、耐热性好的重组大肠埃希菌BL21为材料发酵生产β-葡聚糖酶。方法选用麸皮、豆粕等农副产品配制复合碳源、氮源,优化半合成发酵培养基,并通过正常试验确定最佳培养条件。结果研究得到摇瓶水平产β-葡聚糖酶的最佳培养基（g/L）为：麸皮6.7,玉米粉1.7,豆粕13.8,豆粉13.8,酵母粉7.0,NH4Cl 7.0,Na2HPO4.12H2O3.0,MgSO4.7H2O0.75,CaCl20.5,吐温80 0.8%。通过正交试验确定了产酶最佳初始pH为6.2,装样量为35 mL/250 mL,接种量为1%。采用优化后的工艺,在37℃200 r/min培养过夜,经乳糖诱导6 h后,最高酶活可达到830.7 U/mL,是初始产酶条件的3.4倍。结论该半合成培养基在重组大肠埃希菌产β-葡聚糖酶方面具有很大优势。     

腈水解酶psn基因工程菌的发酵及产酶条件优化

来自恶臭假单胞菌的腈水解酶具有高效催化3-氰基吡啶产烟酸的能力,对表达该酶的基因psn进行发酵和产酶条件优化,通过对C源、N源、磷酸盐、金属离子、温度、诱导剂浓度和诱导时间进行单因素考察,获得最适培养基条件(g/L):葡萄糖5、蛋白胨15、酵母粉5、(NH4)2SO45、K2HPO424.5、KH2PO45.76、MgSO40.48;最佳诱导条件:培养2.5 h后添加IPTG诱导,浓度0.2 mmol/L,诱导温度30℃。在该条件下培养,重组大肠杆菌的腈水解酶比酶活可达到45.67 U/mL,比优化前提高了2.26倍。在此基础上,于5 L发酵罐上进行C、N源的补料研究,获得最适分批补料策略,发现其腈水解酶活力可达到75.40 U/mL,是优化前的3.74倍。     

脂肪酶假单胞菌的分离培养及最佳产酶条件研究

以麻疯树油为唯一碳源,从以粉碎的麻疯树种子处理过的土壤中分离筛选出1株脂肪酶活性较高的菌株,初步鉴定为假单胞菌属(Pseudomonas).实验观察了碳源、氮源、无机盐及发酵工艺对产酶的影响,摇瓶发酵结果表明.该菌株最适产酶培养基的组成是(%,w/v):橄榄油2,酵母膏0.5,(NH4)2SO4 0.5,MgCl2·6H2O 0.5,最适产酶温度为30℃,最佳产酶pH为6.5,转速180r/min,发酵培养36h酶活达到最高,为14.17U/mL.本研究为以麻疯树油为原料酶法生产生物柴油奠定了一定的基础.     

海洋细菌Cellulophaga sp.QY201产内切纤维素酶发酵条件的研究

本文对海洋细菌Cellulophaga sp.QY201产内切纤维素酶的发酵条件进行了研究.研究结果表明,该菌株最佳产酶的液体培养基组成为(w/v):CMCNa 0.5%,CaSein 0.3%,NaCl 3%,MgSO4·7H2O 0.3%,Na2HPO4 0.15%,NaH2PO4 0.1%,pH=7.0;最佳培养条件为:500mL三角瓶装液150mL,温度为28℃,转速为100 r/min,发酵时间为36h.优化后发酵上清液的内切纤维素酶活力可达到7.85 U/mL,比优化前提高了2.5倍.该菌株产酶发酵条件的研究,为内切纤维素酶的大规模制备及应用奠定了基础.     

Optimization of fermentation medium for amidase production by response surface methodology

采用响应面分析方法,对阿萨希丝孢酵母(Trichosporon asahii)ZZB-1产酰胺酶的发酵培养基进行了优化.运用单因子试验筛选出麦芽糖和酵母浸膏为最适碳源、氮源,金属离子Ca2+、Mn2+可提高发酵酰胺酶产量;通过最陡爬坡实验逼近以上4个因子的最大响应区域后,采用Box-Behnken响应面分析法,确定产酰胺酶最佳发酵培养基为麦芽糖18.84 g/L、酵母浸膏9.55 g/L、NaCl 5g/L、KH2 PO41g/L、MgSO4·7H2O 0.2 g/L、FeSO40.001g/L、CaCO370.84 μmol/L、MnSO4 65.39 μmol/L(1％丙烯酸诱导),NH4·H2O调节pH至7.0.培养基优化后酰胺酶产量由初始2554U/L提高到4156 U/L,为原始发酵培养基配方酶活产量的1.63倍.     

混合添加乙醇和H2O2对嗜热子囊菌产过氧化氢酶的影响

在以嗜热子囊菌( T. aurantiacus WSH03-01BC)生产过氧化氢酶的7L罐发酵研 究中,发现混合添加适量的乙醇(75%)和H2O2可以促进菌体产酶.在发酵36h和 48h分别添加0.8%(v/v)的乙醇时,酶活比对照提高了34.3%;当添加乙醇的总量超过2.4 %时 ,对菌体的生长及产酶有明显的抑制作用;在发酵36～60h恒速流加1.6%的乙醇,CAT的酶活 达到2519U/mL,单位细胞产酶能力提高了47.3%;在发酵36h～60h恒速流加1.6%的乙醇并在4 8h混合添加0.4%的H2O2时,CAT的酶活达到2786U/mL,比对照提高了50.1% .     

响应面法优化产酰胺酶发酵培养基

采用响应面分析方法,对阿萨希丝孢酵母（Trichosporon asahii）ZZB-1产酰胺酶的发酵培养基进行了优化。运用单N子试验筛选出麦芽糖和酵母浸膏为最适碳源、氮源,金属离子Ca^2＋、Mn^2＋可提高发酵酰胺酶产量;通过最陡爬坡实验逼近以上4个因子的最大响应区域后,采用Box—Behnken响应面分析法,确定产酰胺酶最佳发酵培养基为麦芽糖18．84g／L、酵母浸膏9．55g／L、NaC15g／L、KH2PO41g／L、MgSO4·7H2O0．2g／L、FeS040．001g／L、CaC0370．84μmol／L、MnS0465．39肚mo[／L（1％丙烯酸诱导）,NH4·H2O调节pH至7．0。培养基优化后酰胺酶产量由初始2554U／L提高到4156U／L,为原始发酵培养基配方酶活产量的1．63倍。     

羊毛生物整理复合酶L86发酵工艺优化研究

采用L9（34）正交试验对L86复合酶生产菌的发酵培养基进行优化、并通过溶氧浓度调节和中期补加蛋白水解液对发酵过程进行调控。结果表明较优的培养基组成为（g/100ml）：黄豆粉4.0、玉米粉1.0、鱼粉0.6、蚕蛹粉0.6、CaCl20.5、NH4Cl1.0、Na2HPO4·2H2O 0.4;通气量控制30h前1:0.5、30-50h1:1.0、50h后1:1.2 v/v/m。在上述条件下摇瓶,酸性蛋白酶酶活10000u/ml、纤维素CMC酶3600u/ml;在0.5m3搅拌罐中扩大中试平均发酵单位酸性蛋白酶5500u/ml、纤维素CMC酶2200u/ml。     

产弹性蛋白酶菌种的筛选及发酵条件优化研究

从合肥肉联厂附近的土壤和污水中分离得到19株产弹性蛋白酶菌株,初步鉴定该菌株属于假单胞菌属.经过发酵复筛有三株产酶能力超过15u/mL.实验对菌株最佳产酶发酵条件进行了优化2%干酪素、0.5%葡萄糖、0.4%酵母膏、0.2% K2HPO4、0.01% MgSO4·7H2O;起始pH值7.0;最适发酵温度为30℃;装液量为25mL/250mL;该菌株在28h左右产弹性蛋白酶的量达18u/mL.     

羊毛生物整理复合酶L86发酵工艺优化研究

采用L9（9^4)正交试验对L86复合酶生产菌的发酵培养基进行优化、并通过溶氧浓度调节和中期补加蛋白水解液对发酵过程进行调控,结果表明罪状优的培养基组成为（g/100ml);黄豆粉4.0、玉米粉1.0、鱼粉0.6、蚕蛹粉0.6、CaCl20.5、NH4Cl1.0、Na2HPO4.2H2O0.4;通气量控制30h前1：0.5、30-50h1:1.0、50h,后1：1.2v/v/m。在上述条件下摇瓶,酸性蛋白酶酶活10000u/ml、纤维素CMC3600u/ml;在0.5m^3搅拌罐中扩大中试平均发酵单位酸性蛋白酶5500u/ml、纤维素CMC酶2200u/ml。     

响应面分析优化产木聚糖酶毕赤酵母基因工程菌培养条件

研究不同碳源、氮源和无机盐对毕赤酵母AX181菌株产木聚糖酶的影响。实验表明,分别采用葡萄糖和玉米浆干粉为碳源和氮源可以明显提高木聚糖酶的产量。无机盐单因子优化实验显示添加适量的（NH4）2SO4、KH2PO4、MnSO4·H2O、FeSO4·7H2O也可以部分提高木聚糖酶产量。在此基础上利用响应面法优化毕赤酵母产木聚糖酶培养基,利用12次实验的Plackett—Burman设计实验筛选出影响产木聚糖酶的3个主要因素,即玉米浆干粉、MnSO4·H2O和FeSO4·7H20。并进一步通过最陡爬坡路径逼近最大响应区域,采用中心组合实验设计确定最佳条件。优化后的产木聚糖酶培养基组分为（g/L）：葡萄糖40．00,玉米浆干粉80．84,（NH4）2SO46．25,KH2PO41．25、MnSO4·H2O0．35,FeS04-7H2O1．31。培养基优化后,实际产酶2883．86u／mL,是优化前YPD培养基产酶的2．51倍。     

阿拉伯胶酶产生菌株的筛选及其发酵培养基的优化

从土壤中筛选产阿拉伯胶酶的微生物菌株,并通过紫外诱变选育后得到高产突变菌株ZHB05F,依据菌落和孢子形态特征初步鉴定为镰刀茵(Fusarium sp.).通过单因素试验,优化了产酶培养基的主要组分的浓度和pH值,得到最佳的产酶发酵培养基组成为:阿拉伯胶30 g/L,(NH4)2SO4 8 g/L,K2HPO4 1g/...     

Optimization of medium compositions favoring butanol and 1,3-propanediol production from glycerol by Clostridium pasteurianum

Medium compositions favoring butanol and 1,3-propanediol (1,3-PDO) production from glycerol by Clostridium pasteurianum DSM525 were investigated using statistical experimental designs. Medium components affecting butanol and 1,3-PDO production were screened using a fractional factorial experimental design. Among the six tested variables (phosphate buffer, MnSO4·H2O, MgSO4·7H2O, FeSO4·7H2O, (NH4)2SO4, and yeast extract), FeSO4·7H2O, (NH4)2SO4, and yeast extract were found to be significant variables for further optimization of medium using a Box-Behnken design. Optimal butanol (0.98 g/L/h) and 1,3-PDO (1.19 g/L/h) productivities were predicted by the corresponding quadratic model for each product and the models were validated experimentally under optimized conditions. The optimal medium composition for butanol production was significantly different from that for 1,3-PDO production (0.06 vs. 0 g/L for FeSO4·7H2O, 7.35 vs. 0 g/L for (NH4)2SO4, and 5.08 vs. 8.0 g/L for yeast extract), suggesting that the product formation from glycerol by C. pasteurianum DSM525 can be controlled by changing medium compositions.     

Caldariomyces fumago S-5产抑菌物质的发酵条件优化

对1株产抑菌物质的海洋真菌Caldariomyces fumago S-5的培养条件的优化进行研究,探讨该菌株的发酵产抑菌物质的性能。通过抗菌谱实验、单因素及正交实验设计研究了该菌株所产抗菌物质的押菌特征和最适发酵条件。结果表明,S-5菌株发酵液对几种G^＋和G^-致病细菌具有快速的生长抑制作用,而对真菌没有明显抗菌性。发酵条件优化结果表明：菌株在葡萄糖4％、（NH4）2SO4 0．2％、KCl 0．2％、K2HPO40．2％、Fe2SO4·7H2O 0．002％、MgSO4-2H2O 0．1％、20％马铃薯浸出液的培养基中,控制发酵温度25℃,pH值5．0,接种量1-2cm。菌苔／100mL培养液,摇瓶转速240r／min条件下培养120h,发酵液中抑菌效价最高。实验结果可为该海洋微生物资源的开发利用提供依据。     

低能离子诱变选育华根霉高产L-乳酸菌株的研究

对L-乳酸产生菌华根霉(Rhizopus chinensis)适宜产酸的条件进行了初步研究和优化,并利用10 keV氮离子对出发菌L-乳酸产率进行诱变。为比较出发菌株和突变菌株在分子水平的差异,利用108条RAPD随机引物对出发菌株和突变菌株进行了比较分析。结果表明:在葡萄糖90‰、(NH4)2SO42‰、KH2PO40.6‰、Mg-SO4.7H2O 0.25‰、ZnSO4.7H2O 0.05‰、CaCO350.0‰pH值自然,接种量在5%左右,34℃,200 r/min的培养条件下,可获得较高的L-乳酸产量(28.8 g/L)。氮离子注入诱发L-乳酸产量突变的适宜剂量为1.30×1015ions/cm2。筛选获得的突变株RC-H13 L-乳酸含量为33.7 g/L,比出发菌株提高17%,且遗传稳定性较好。在RAPD分析中108条引物有3条在两池间表现多态性,差异条带的频率为0.67%。     

A Study on the Application of C17 Medium for Anther Culture

Media with varied levels of minor elements and KNO3, NH4NO3, KH2PO4, MgSO4·7H2O, CaCl2· 2H2O and Fe-Salts were screened to obtain high yield of callus from wheat anther by using orthogonal tests. Of all the seven minor elements treated, the one without NaMoO4·2H2O and with 11.2 mg/l MnS04·4H2O was found to be the most effective. Among the five kinds of organic materials tested, biotin appear- ed to have the highest influence on the induction frequency of anther callus and its opimum dosage was 1.5 mg/l. Based on these data, C17 medium was developed and its induction frequency of callus with good quality from wheat anther reached 12.19% in the Institute in 1980. The maximum diffrentiation freguency of anther callus obtained was 50% on C17 medium. C17, medium compositions are as follows (Mg/l): 1400 KNO3, 150 CaCl2-2H2O, 150 MgSO4·7H2O, 300 NH4NO3, 400 KH2PO4, 27.85 FeSO4·7H2O, 37,25 Na2-EDTA, 11.2 MnS04·4H2O, 8.6 ZnSO4·7H2O, 6.2 H3BO3, 0.83 KI, 0.025 CuSO4·5H2O, 0.025 CaCl2·: 6H2O, 8 glycine, 0.5 nicotinic acid, 0.5 thiamine hydrochloride and 1.5 biotin. The re- differentiation medium is supplemented with 2 2,4-D+0.5 KT+7000 agar+90000 sucrose, pH5.8. The dedifferentiation supplemented with 0.5 IBA+2 KT+7000 agar+ 30000 sucrose, pH 5.8.     

杂色云芝产漆酶的发酵条件研究*

本文对杂色云芝（Coriolus versicolor）产漆酶的发酵条件作了研究。结果表明摇瓶实验产漆酶（Laccase）的最佳培养基成分为：可溶性淀粉 2g/L, NH4Cl 24mmol/L, 微量元素混合液 7ml/L, pH3.0柠檬酸—Na2HPO4缓冲溶液 0.01mol/L, KH2PO4 1.4×10-2 mol/L, MgSO4·7H2O 2.03×10-3mol/L, CaCl2·2H2O 6.8×10-4 mol/L, VB1 2.97×10-6 mol/L, 吐温80 4.0g/L, 愈创木酚0.01mmol/L, CuSO4 ·5H2O 0.005mmol/L,最佳发酵条件为培养基初始pH3.0, 菌体生长6d,培养基装量为250ml三角瓶中25ml培养液,25℃条件下振荡培养(150r/min)9d。     

Solubilization of insoluble inorganic phosphates by a novel salt- and pH-tolerant Pantoea agglomerans R-42 isolated from soybean rhizosphere

To develop environment-friendly biofertilizer solubilizing insoluble phosphates, salt- and pH-tolerant, insoluble inorganic phosphate-solubilizing bacterium was isolated from soybean rhizosphere. On the basis of its physiological characteristics and Vitek analysis, this bacterium was identified as Pantoea agglomerans. The optimal medium composition and cultural conditions for the solubilization of insoluble phosphate by P. agglomerans R-42 were 3% (w/v) of glucose, 0.1% (w/v) of NH4NO3, 0.02% (w/v) of MgSO4 x 7H2O, and 0.06% (w/v) of CaCl2 x 2H2O along with initial pH 7.5 at 30 degree C. The soluble phosphate production under optimal condition was around 900 mg/l, which was approximately 4.6-fold higher than the yield in the MPVK medium. The solubilization of insoluble phosphate was associated with a drop in the pH of the culture medium. P. agglomerans R-42 showed resistance against different environmental stresses like 5-45 degrees C temperature, 1-5% salt concentration and 3-11 pH range. Insoluble phosphate solubilization was highest from CaHPO4 (1367 mg/l), hydroxyapatite (1357 mg/l) and Ca3(PO4)2 (1312 mg/l). However, the strain produced soluble phosphate to the culture broth with the concentrations of 28 mg/l against FePO4, and 19 mg/l against AlPO4, respectively.     

古尼拟青霉最佳镇痛活性培养基的筛选

以1株有镇痛活性的古尼拟青霉为试验材料,从5种培养基中筛选出使该株产生最佳镇痛活性成分的培养基。结果表明:产生镇痛活性成分的最佳发酵时间为6 d,最佳培养基为改良沙氏培养基Ⅰ,其成分为葡萄糖20 g,甘油5 g,可溶性淀粉5 g,KCl 0.5 g,MgSO4.7H2O 0.5 g,KH2PO4.3H2O 1 g,FeSO4.7H2O 0.5 g,pH 7～8。