绿色糖单孢菌降解木质纤维胞外酶的分泌条件及其生物漂白研究

以一株耐热耐碱放线菌-绿色糖单孢菌（Saccharomonospora viridis）为研究对象,探讨其产胞外木素过氧化物酶、木聚糖酶、纤维素酶的优化发酵条件。结果表明,其最佳碳氮源分别为葡萄糖和蛋白胨,最佳接种量为1％,不同的诱导底物对三种木质纤维降解酶有不同的诱导效果,其中麦草浆的诱导效果最好。在培养基中添加0．01mol／L的Mn^2＋和0．1％的土温80能够显著促进木质纤维降解酶的产生。在pH8．0,45℃条件下,培养120h后木素过氧化物酶的酶活达到最大0．36U／mL,培养156h后木聚糖酶和纤维素酶的酶活达到最大,最高酶活分别为18．46U／mL,10．42u／mL。用含有这三种酶的粗酶液对麦草烧碱蒽醌浆进行生物漂白表明,绿色糖单孢菌所产的木质纤维降解酶具有较好的漂白效果。     

重组毕赤酵母产木聚糖酶的发酵条件优化研究

采用单因素实验确定重组毕赤酵母产木聚糖酶生长相的最适条件,然后利用Plackett—Bur—man实验设计对诱导相培养基成分和培养条件的10个因素进行筛选,方差分析结果表明,影响木聚糖酶表达的主要因子为酵母膏、诱导pH和摇床转速;在此基础上,用Box—Behnken的响应面方法对3个因素进行进一步优化,当酵母膏为11．13彰L,pH为6．38,摇床转速为228r／min时酶活有最大值,为262．77u／mL,较优化前提高了175．44％。优化后的摇瓶发酵条件应用于7L发酵罐并连续诱导培养120h,发现诱导72h后的木聚糖酶酶活最高,为2054．89u／mL。     

Aspergillus sp.脂肪酶发酵条件优化及酶学性质的研究

作者为了得到一种热稳定性较好的脂肪酶新酶种,通过研究分离白极端环境的Aspergillus sp．的最佳产酶条件及其所产脂肪酶的酶学性质,得出了该菌产酶的最佳发酵条件为：以1％黄豆饼粉为氮源、0．2％玉米淀粉为碳源,1．5％橄榄油为诱导物,起始pH6．0左右。装量10mL（250mL三角瓶。摇瓶转速180r／min）、发酵时间为96h。在最佳发酵条件下可得最大发酵酶活36U/mL。Aspergillus sp．所产的脂肪酶的酶学性质是：最适pH为9．0,在pH5．0—10．0于20℃下放置24h后,残余酶活仍保持在起始酶活的90％以上;该酶的最适温度为50℃,50℃保温60min后仍保留70％以上的酶活。Aspergillus sp．所产脂肪酶的热稳定性较好。     

响应面法优化有机溶剂极端耐受性菌株Burkholderia sp．ZYB002产脂肪酶条件

Burkholderia sp．脂肪酶具有较高的有机溶剂耐受性和转酯活性,广泛应用于手性化合物的拆分。本研究利用统计学方法对一株具有有机溶剂极端耐受性的脂肪酶高产茵株Burkholderia sp．ZYB002在摇瓶培养条件下产脂肪酶条件进行了优化。通过单因素实验,首先确定了最适碳源、氮源、诱导荆等。以Plackett—Burrman设计筛选影响Burkholderia sp．ZYB002产酶的主要因素,通过最陡爬坡实验和响应面分析法确定产酶最适条件。K2HP04、大豆油乳化液和起始RH确定为影响菌株产酶的3个主效因素。最佳产酶条件为：糊精0．3％（W／V）,牛肉膏2．0％（W／V）,MgSO4．7H2O．075％（W／V）,K2HPO4 0．14％（W／V）,大豆油乳化液4．89％（V／V）,pH8．11,玻璃珠10颗／瓶,接种量2．0％（V／V）,30℃,250r／min,发酵时间22h。在此条件下,发酵液脂肪酶酶活最高达45．6U／mL,较发酵基本培养基发酵液的脂肪酶酶活提高了3．44倍。     

聚半乳糖醛酸酶高产菌的产酶条件研究

通过单因素及正交试验对米曲霉（Aspergillus orza）C491产生聚半乳糖醛酸酶的发酵条件进行了优化。该菌株的摇床发酵滤液以桔子果胶为底物时酶活力可达344．8U／mL。产酶最适培养基组成为：麦芽汁（糖度6％）中添加6％桔皮粉,2％硫酸铵（w/v）。最适培养条件：起始pH4（灭菌前）,30℃,r/min,培养112h。Tween80可以促进C－491产酶。     

交替假单胞菌LP621菌株产右旋糖苷酶的培养条件优化

从江苏连云港海域分离和筛选到1株产右旋糖苷酶的海洋细菌交替假单胞菌Pseudoalteromonas tetraodonis LP621,通过单因素试验和正交试验对该菌株产右旋糖苷酶培养条件进行优化。单因素试验结果表明,最佳培养时间为24 h,最适产酶温度为25℃;产酶pH范围为5.0~11.0,最适产酶pH为6.0;产酶NaCl浓度范围为1%~10%,NaCl浓度为4%时产酶较高;装液量在25%。麦芽糖、胰蛋白胨和酵母膏促进产酶。利用响应面方法对LP621产右旋糖苷酶的发酵条件进行优化。选择培养基pH、时间、麦芽糖浓度和装液量4因素进行优化,结果为pH 7.07,发酵时间21.94 h,麦芽糖浓度0.42%,装液量为21.88%,酶活为270.1U/mL。     

茶树内生真菌CSN-4产漆酶培养基及培养条件研究

从茶树内生真菌筛选产漆酶的菌株,分析不同营养因素和培养条件对菌株漆酶酶活力的影响。采用6种显色底物的平板初筛和酶活测定的复筛方法,从15株茶树内生真菌菌株中筛选获得1株产漆酶酶活较高的菌株CSN 4。单因素分析结果显示,液态发酵条件下菌株CSN-4适宜的主要培养基成分是麸皮和蛋白胨;菌株CSN-4分别在麸皮30 g/L、蛋白胨2.5 g/L、CuSO₄·5H₂O 0.015 g/L和茶水6 g/L时发酵产漆酶酶活最高。发酵条件试验结果表明,菌株CSN-4分别在接种量为6个菌饼（直径6 mm）、装液量60 mL/250 mL、pH 4.8、摇床转速120 r/min,培养温度为28 ℃时产漆酶酶活较高。在培养基中添加麸皮和茶水对菌株CSN-4产漆酶有明显的促进作用。经过培养基成分及培养条件优化后,菌株CSN 4产漆酶酶活显著升高,达到2 417 U/L。     

黑曲霉SL2-111复合酶固体发酵工艺研究

以酸性蛋白酶酶活为响应值,采用单因素搜索和正交试验对黑曲霉（Aspergillus niger）SL2－111固体发酵工艺进行优化,结果表明最适培养基的组成为：新鲜麸皮8．25g,米糠4．5g、豆饼粉1．5g、（NH4)2SO40.3g、K2HPO40．66g、CaCl20.075g、水8．6mL,pH5．5,变温培养,前30h28℃、后30h为23℃,培养时间为60h。采用最适培养基和优化工艺,在250mL三角瓶中进行验证实验,酸性蛋白酶酶活可达12586U/g,果胶酶和纤维素酶分别为16490U/g、9822U／g。     

一步法发酵菊芋产乙醇菌种的筛选及产酶条件、酶学性质的研究

从腐烂的菊芋及实验室保存的菌种中,选育到一株发酵菊芋产乙醇的菌株克鲁维酵母Kluyveromyces marxianus Y1。利用正交实验法对克鲁维酵母产菊粉酶的培养基组成及培养条件进行优化,确定培养基组成（g/L）为：菊粉40,酵母粉4,蛋白胨4,尿素1;初始pH5．0,温度30℃,150r／min条件下培养达到最佳产酶效果（57U／mL）。该菌株所产菊粉酶的性质测定结果表明：以菊粉为底物,该菊粉酶最适反应温度为55℃,在60℃以下稳定性很好,高于60℃时酶迅速失活;最适pH为5．0,pH4．6—5．2范围内酶稳定性很好;该酶属于外切型菊粉酶,体积分数为8％的乙醇对酶活力基本没有影响。     

耐有机溶剂蛋白酶产生菌Bacillus cereusWQ9—2发酵条件及酶学性质

以蜡状芽孢杆菌Bacillus cereus WQ9—2为产耐有机溶剂蛋白酶的出发菌株,对其产酶条件进行优化并初步研究了其酶学性质。在单因素实验基础上,通过中心复合实验确定了产酶的最佳发酵条件为酵母粉8g/L,葡萄糖17g/L,KH2P040．5g／L,无水MgS040．3g／L,CaCl20．5g／L,NaCl1．0g/L;pH7．5。实验中发现采用低温发酵能大大缩短菌体产酶周期;通过优化发酵时间由最初84h缩短到48h,最高比酶活为3921U／mL。金属离子螯合剂1,10菲罗啉（1,10-phenanthroline）、乙二胺四乙酸（EDTA）对该酶有较强的抑制作用,表明该酶可能为金属蛋白酶;Ca2＋对该酶的活力及热稳定性有显著提高作用。     

Factors affecting the production of an antimicrobial agent, plantaricin F, by Lactobacillus plantarum BF001

Lactobacillus plantarum BF001 produced plantaricin F in MRS broth but it was detected only after ca a 50-fold concentration. Growth on MRS broth and appearance of plantaricin F were similar under aerobic and anaerobic conditions. No growth occurred at pH 3 or at 4°C. Plantaricin F appeared first at early stationary growth phase (24 h) and was stable thereafter (pH 2). Amounts found in liquid cultures were ca 2–3 times higher than those from solidified MRS medium, and specific activities were ca 6 times higher in liquid culture (48 h). Maximal amounts of plantaricin F were found (48 h) when medium had an initial pH of 4 and growth was at 30°C. Under these conditions, cell growth and fermentation were partially uncoupled. Plantaricin F was not produced endogenously, organic nutrients were necessary. A molecular weight range of 500–3500 Da was indicated. Plantaricin F appears to be a secondary metabolite.     

基于稳健性设计优化L-赖氨酸发酵过程

目的:选择发酵系统中各可控因素的最佳水平组合,从而减少各种干扰的影响,以获得稳健的赖氨酸产量。方法:利用田口法的内外表与Box性能规则优化赖氨酸发酵条件。结果:通过实验得知,转速、硫酸铵和葡萄糖浓度对发酵影响较大;结果稳定的最优发酵条件为初始葡萄糖浓度为80g/L、硫酸铵浓度为42g/L、转速为225r/min、初始pH值为6.7、接种量为8%。经实验验证,最优化发酵条件是低灵敏度的,最优目标值比较稳健。在10L自动发酵罐上培养65h,L-赖氨酸盐酸盐的产量为165.68g/L,比优化前提高了12.4%。结论:基于稳健性设计所得的最优发酵条件参数,可使目的产物产量稳定,便于生产操作。     

Kinetics of Lactococcus lactis growth and metabolite formation under aerobic and anaerobic conditions in the presence or absence of hemin

The study of batch kinetics of Lactococcus lactis cell growth and product formation reveals three distinct metabolic behaviors depending upon the availability of oxygen to the culture and the presence of hemin in the medium. These three cultivation modes, anerobic homolactic fermentation, aerobic heterolactic fermentation, and hemin-stimulated respiration have been studied at pH 6.0 and 30 degrees C with a medium containing a high concentration of glucose (60 g/L). A maximum cell density of 5.78 g/L was obtained in the batch culture under hemin-stimulated respiration conditions, about three times as much as that achieved with anerobic homolactic fermentation (1.87 g/L) and aerobic heterolactic fermentation (1.80 g/L). The maximum specific growth rate was 0.60/h in hemin-stimulated respiration, slightly higher than that achieved in homolactic fermentation (0.56/h) and substantially higher than that in heterolactic fermentation (0.40/h). Alteration of metabolism caused by the supplementation of oxygen and hemin is evidenced by changes in both cell growth kinetics and metabolite formation kinetics, which are characterized by a unique pseudo-diauxic growth of L. lactis. We hypothesise that Lactococcus lactis generates bioenergy (ATP) through simultaneous lactate formation and hemin-stimulated respiration in the primary exponential phase, when glucose is abundant, and utilizes lactate for cell growth and cell maintenance in the stationary phase, after glucose is exhausted. We also examined the applicability of a modified logistic model and the Luedeking-Piret model for cell growth kinetics and metabolite formation kinetics, respectively.     

桑黄液体发酵工艺的研究

通过对桑黄液体发酵培养基、培养条件优化实验研究,以获得具有与桑黄子实体相似功效成分的桑黄菌丝体液体发酵工艺。以菌丝体收率为主要考察指标,采用单因子及L9(34)正交实验的方法,对桑黄液体发酵培养基及培养条件进行优化,确定桑黄液体发酵工艺条件。桑黄液体发酵最佳培养基及培养条件:玉米粉2%,葡萄糖3%,酵母膏0.5%,蛋白胨0.5%,KH2PO40.3%,Mg SO4·7H2O 0.15%,VB120μg/100 m L,p H5.5,接种量8%,培养温度28℃,摇床转数180 r/min,培养周期82 h。优化条件下所获得桑黄菌丝体粉为土黄色,菌丝体平均得率为1.67%,菌丝体黄酮含量(0.84%)与桑黄子实体(0.88%)相当,菌丝体多糖含量(5.15%)是子实体(1.71%)的3倍。可见,该桑黄液体发酵工艺具有较大的推广应用价值。     

Production of salmosin, a snake venom-derived disintegrin, in recombinant Pichia pastoris using high cell density fed-batch fermentation

Salmosin, a snake venom-derived disintegrin, was successfully expressed in the methylotrophic yeast Pichia pastoris and secreted into the culture supernatant, as a 6 kDa protein. High-cell density fermentation of recombinant P. pastoris was optimized for the mass production of salmosin. In a 5 L jar fermentor, recombinant P. pastoris was fermented in growth medium containing 5% (w/v) glycerol at the controlled pH of 5.0. After culturing for 21 h, glycerol feeding medium was fed at one time into the culture broth. After 7 h (a total of 28 h), induction medium that contained methanol was increasingly added until the culture time totaled 75 h. Finally, these optimized culture conditions produced a high cell density of recombinant P. pastoris (dry cell weight of 113.38 g/L) and led to the mass production of salmosin (a total protein concentration of 369.2 mg/L). The culture supernatant containing salmosin inhibited platelet aggregation, resulting in a platelet aggregation of 9% compared to that of 94% in the control experiment, without culture supernatant. These results demonstrate that recombinant salmosin in culture supernatant from high cell density fed-batch fermentation can serve as a platelet aggregation inhibitor.     

根霉液态发酵产生纤溶酶的培养条件优化

目的:目前临床使用的溶栓药物疗效肯定,但还存在许多缺陷,而且价格昂贵,因此研制新型溶栓药物的需求迫切。方法:研究了根霉Rhizopus chinensisYY-15液体摇瓶发酵产生纤溶酶的工艺条件。采用单因素试验对液体发酵培养基的碳源、氮源、碳氮比、初始pH进行了优化;采用正交试验对发酵时间、接种量进行了研究。结果:实验范围内菌株液体发酵产纤溶酶的适宜培养基组成为:麸皮水浓度3%(w/v),豆粕浓度5%(w/v),初始培养基pH5.0。适宜培养条件为接种量6%,培养时间72h。优化条件下的摇瓶液体发酵纤溶酶产量平均达98.31 U/ml。     

产脂肪酶重组枯草芽胞杆菌的发酵优化

笔者所在实验室前期筛选到1株产脂肪酶粘质沙雷氏菌,克隆其脂肪酶基因,构建重组枯草芽胞杆菌Bacillus subtilis 168/pMA5-lipA,成功实现了来源于粘质沙雷氏菌的脂肪酶基因在枯草芽胞杆菌中的表达。基于以上工作基础上,对B.subtilis 168/pMA5-lipA进行了摇瓶水平上的产酶发酵优化。首先通过单因素和正交试验确定了有利于产脂肪酶的最佳培养基成分,并对发酵条件进行了优化。结果表明:优化后的培养基组分为蔗糖35 g/L,玉米浆27.5 g/L,(NH4)2SO41.25 g/L,CaCl24 g/L,pH 7.0。在最优发酵培养基的条件下,37℃、160 r/min摇床培养33 h,每毫升发酵液中重组菌脂肪酶酶活可达98.6 U,是优化前的3倍。     

固定化谷氨酸棒杆菌T6—13细胞的酶学性质研究

比较研究了固定化谷氨酸棒杆菌细胞和自然细胞的谷氨酸脱氢酶、异拧檬酸脱氢酶,葡萄糖-6-磷酸脱氢酶的一些性质。最适pH、温度对二者酶促反应速度的影响基本相似;pH、热稳定性固定化细胞高于自然细胞;底物表观米氏常数谷氨酸脱氢酶,异柠檬酸脱氢酶有所增大,而葡萄糖-6-磷酸脱氢酶则有所下降;辅酶表观米氏常数均有所增大。这些是影响固定化细胞应用的主要因素。     

Statistical Optimization of Medium and Fermentation Conditions of Recombinant <Emphasis Type="Italic">Pichia pastoris</Emphasis> for the Production of Xylanase

Recombinant xylanase (rPcXynC) from Pichia pastoris was produced on large-scale by optimizing production-medium composition using statistical experimental methods. Production medium was optimized through the use of statistical methods such as one factor at a time (OFAT), Plackett-Burman design, fractional factorial design (FFD), steepest ascent method (SAM), and response surface methodology (RSM). The optimum medium composition was established to be (g/L); wheat bran 11.62, yeast extract 30, Tween 60.5, DL-β-Phenylalanine 0.5, Thiamine 0.5, FeSO₄ 0.01, KH₂PO₄ 0.66, and KHSO₄ 0.09. The optimum medium composition yielded 3,051 mU/mL of xylanase activity which was three times higher than that obtained from the initial medium composition. Finally, fermentation conditions were examined using the optimized production medium in a laboratory bioreactor. The optimal fermentation conditions were found to be 25ºC, pH 6, 170 rpm and 1 vvm with intermittent feeding of methanol (67.5 mL) and the xylanase activity was 3,683 mU/mL. In repeated-batch fermentation using optimized production medium and fermentation condition, the xylanase activity was 3,680 mU/mL at the first cycle of 96 h harvesting time using 90% of the culture solution. The activity was similarly maintained until the last cycle of 264 h.     

重组人抗凝血酶发酵条件的优化

目的:通过实验室发酵条件优化工作,实现在巴斯德毕赤酵母中高效表达重组人抗凝血酶。方法:在摇瓶培养条件下,应用正交实验方法考查人抗凝血酶重组毕赤酵母菌pPIC9K-AT-02的培养温度、培养基pH值、接种比例、甲醇补加间隔时间及甲醇补加浓度等5种因素对重组人抗凝血酶活性的影响,确定最优发酵条件。结果与结论:筛选出的最终发酵条件为培养温度30℃、培养基pH6.0、接种比例20%、甲醇补加间隔时间24 h、甲醇补加浓度2%,重组人抗凝血酶在巴斯德毕赤酵母中表达活性为4098 U/L,比原始活性提高了150%。