里氏木霉液体发酵产纤维素酶的研究

在摇瓶试验基础上,采用里氏木霉(Trichoderma reesei)HC-415菌株进行5L自控罐产纤维素酶深层发酵试验。在通气量为 0.2—0.6vvm、搅拌速度为 400r/min、发酵液pH控制在5.8—6.1的条件下,发酵液的羧甲基纤维素(CMC)酶酶活最高为325.0mg糖/ml,滤纸糖酶(FPA)酶活最高达17.9mg糖/ml。发酵周期为108h。所得冻干纤维素酶粉CMC酶活最高3111IU/g,FPA最高135IU/g ,对发酵液得率平均6.7g/L。酶活总收率CMC酶活平均78.2％,FPA酶活平均73.5％。     

固态纤维素酶曲的制备

在3.54m~3体积的制曲机中,进行了以蔗髓纤维为基质,用康氏木霉(Trichoderma koningii)P_2,菌株制备纤维素酶曲及其最适参数的研究。稳定试验结果表明,P_2菌株的CMC酶活可达2000 mg/g·30 min,FP酶活10 IU/g·min。     

黑曲霉变异株UV-11-48的选育及产糖化酶条件的研究

以黑曲霉(Aspergillus niger)变异株UV-11为出发菌株,经亚硝基胍多次诱变,获得一株比亲株产糖化酶活力提高30%左右的变异株UV-11-48。对UV-11-48菌株进行了发酵条件及酶系组成等的研究。固体曲生产性试验,种曲糖化酶活力最高达12240u/g,麸曲酶活力平均8000—9000u/g,最高达11700u/g,在酿酒工业固体曲生产中,取得明显经济效益。     

黑曲霉A3菌株木聚糖酶粗酶制剂的制备和性质

本文研究了黑曲霉（AspergillusnigerA3）菌株固体发酵培养的产酶过程,发酵3d产木聚糖酶活最高,固体曲最适浸提比为1：7（W／V）,通过60％～65％饱和度的硫酸按盐析,获得的木聚糖酶活力最高。冻干酶粉活力为15400u/g,得率为71％,40℃烘干酶粉活力为15395U／g,得率为51％,酶反应最适温度55℃,最适pH4．6,保温1h半失活温度（t1／2）为54℃,酶对四种不同底物半纤维素水解作用的亲合性为鼓皮最强,稻草最弱。     

中性蛋白酶高产菌株的筛选及产酶酶系分析

目的:满足水产中对中性蛋白酶的需求。方法:以实验室保藏的米曲霉ZW为出发菌株,经Co60定向诱变,通过透明圈法初筛、摇瓶发酵复筛,筛选中性蛋白酶活力高的菌株,并对其进行产酶酶系分析。结果:筛选到的米曲霉ZW-06产中性蛋白酶酶活可达15000U/g干曲,比诱变前酶活提高了74%,是目前国内报道的固体发酵产中性蛋白酶活力最高的菌株;经过10代传代之后,酶活力仍保持稳定。通过对米曲霉ZW-06进行产酶酶系分析,发现发酵产物中除了有较高的中性蛋白酶酶活,还有较高的木聚糖酶和酸性纤维素酶酶活,酶活分别达到49879U/g干曲和21099U/g干曲。结论:米曲霉ZW-06在饲料工业中有很大     

粗糙脉孢菌(Neurospora crassa)纤维素酶液体发酵培养基的优化

粗糙脉孢菌是天然纤维素降解真菌,具有产纤维素酶能力,国内外对其纤维素降解机理和发酵产酶有一定的研究,但对其产酶的条件优化研究得不多,其产酶潜力需要进一步挖掘。以粗糙脉孢菌基因组测序菌株FGSC 2489为对象,采用响应面分析法对Neurospora crassa摇瓶发酵产纤维素酶进行培养基优化。采用Plackett-Burman(PB)实验设计考察发酵培养基中关键参数对产酶条件的影响,进而采用最陡爬坡实验逼近最大响应区域,并结合中心组合实验(central composite design,CCD)和响应面分析法对两个显著因素进行分析。PB实验结果显示:Peptone、Yeast extract对产纤维素酶有显著影响。通过响应面分析得到一元二次方程,对方程求解得到Peptone 7.27g/L、Yeast extract 5.51g/L。采用该优化培养基,最大纤维素酶活可达1.27FPU/ml,较优化前提高了2.03倍;CMC酶活14.15IU/ml,比优化前提高1.88倍;木聚糖酶活24.13IU/ml,比优化前提高1.86倍;葡萄糖苷酶酶活1.22IU/ml比优化前提高2.08倍。     

里氏木霉306产t-PA固态发酵条件的研究

对基因工程菌株里氏木霉(Trichodermareesei)306生物合成组织型纤溶酶原激活剂(t-PA)的固态发酵培养基成分和发酵条件进行了研究;分析了发酵过程中t-PA的生成、总糖的消耗和菌体生长的规律。在优化的固体发酵条件下,t-PA的最大酶活是924.63IU/g干重培养基,较初始条件下提高了5倍。通过浅盘进行了放大实验,最大酶活为983.64IU/g干重培养基,t-PA合成速率为:13.66IU/g干重培养基.h,较三角瓶固态发酵最高产酶提高了6.38%,产酶速率提高了24.07%。     

里氏木霉LW1固态发酵纤维素酶条件的研究

采用里氏木霉LW 1(Trichoderma.Reesei)固体发酵生产纤维素酶,研究了秸杆粉和麦麸用量、料水比、起始pH值、发酵温度和发酵时间对该菌株产纤维素酶活力的影响。试验结果表明,里氏木霉LW 1的适宜发酵条件为:在秸秆∶麦麸=1∶1,料水比为1∶2的前提条件下,培养温度28℃,发酵周期为72h,起始pH5.5时产酶活力最高。浸出液中FPA酶活为119.417u/g干物质,CMC酶活为452.433u/g干物质。     

玉米秸秆酶水解过程中的酶复配条件优化

降低酶解成本是纤维素乙醇生产的关键。利用酶复配技术优化蒸汽爆破处理后玉米秸秆的酶水解工艺条件,以提高纤维素的转化率。通过单因素实验和正交实验,研究了纤维素酶、木聚糖酶和β-葡萄糖苷酶对酶解效率的影响规律。结果表明,汽爆玉米秸秆,纤维素含量达42.21%,半纤维素仅为3.65%。纤维素酶对酶解过程起决定性作用,添加40 FPU/g时,酶解率为75.45%;木聚糖酶可促使更多的纤维素暴露出来,添加1 500 IU/g时,酶解率最高为78.03%;β-葡萄糖苷酶有助于消除纤维二糖积累造成的反馈抑制,用量40 IU/g时,纤维二糖浓度为0.330 4 g/100 m L,酶解率达76.45%。正交实验确定最佳工艺为:纤维素酶用量30 FPU/g,木聚糖酶用量800 IU/g,β-葡萄糖苷酶用量40 IU/g;该条件下,进行底物质量浓度25%的验证实验,葡萄糖达9.3g/100 m L,若用单一天冠纤维素酶,葡萄糖仅5.9 g/100 m L,提高了57.63%。三种酶的影响顺序为:纤维素酶木聚糖酶β-葡萄糖苷酶。     

枯草芽孢杆菌产β-甘露聚糖酶固体发酵条件的优化*

芽孢杆菌是产甘露聚糖酶的优良菌株,首次研究芽孢杆菌固体发酵条件的优化。以天然麸皮作为基本原料,研究利用枯草芽孢杆菌WY34固体发酵生产β-甘露聚糖酶的发酵条件。最佳固体发酵培养条件为:麸皮5 g,初始水分含量71%,初始pH 7.0,接种量为2 mL,1%Tween-80,0.4 g魔芋粉,培养温度50℃。在最适条件下培养5 d,甘露聚糖酶酶活高达7,650 U/g干基,是未优化前酶活的2.78倍。     

Enhanced cellulase production through random mutagenesis of Talaromyces pinophilus OPC4-1 and fermentation optimization

Reducing cellulase cost remains a major challenge for lignocellulose to fuel and chemical industries. In this study, mutants of a novel wild-type cellulolytic fungal strain Talaromyces pinophilus OPC4-1 were developed by consecutive UV irradiation, N-methyl-N`-nitro-N-nitrosoguanidine (NTG) and ethylmethane sulfonate (EMS) treatment. A potential mutant EMM was obtained and displayed enhanced cellulase production. Using Solka Floc cellulose as the substrate, through fed-batch fermentation, mutant strain T. pinophilus EMM generated crude enzymes with an FPase activity of 27.0 IU/mL and yield of 900 IU/g substrate. When corncob powder was used, strain EMM produced crude enzymes with an FPase activity of 7.3 IU/mL and yield of 243.3 IU/g substrate. In addition, EMM crude enzymes contained 29.2 and 16.3 IU/mL β-glucosidase on Solka Floc cellulose and corncob power, respectively. The crude enzymes consequently displayed strong biomass hydrolysis performance. For corncob hydrolysis, without supplement of any commercial enzymes, glucose yields of 591.7 and 548.6 mg/g biomass were obtained using enzymes produced from Solka Floc cellulose and corncob powder, respectively. It was 553.9 mg/g biomass using the commercial enzyme mixture of Celluclast 1.5 L and Novozyme 188. Strain T. pinophilus EMM was therefore a potential fungus for on-site enzyme production in biorefinery processes.     

Successive cultivation of Fusarium oxysporum on rice chaff for economic production of fibrinolytic enzyme

Production of fibrinolytic enzyme by successive solid state cultivation of Fusarium oxysporum on rice chaff (RC) was studied. From recycling 20?g dry RC six times by pure batch culture, an overall of 23200IU fibrinolytic enzyme was obtained. A total of 27400IU was obtained when the same amount of RC was used for six cycles with repeated batch fermentation employing immobilized whole cells, which also resulted in 30%?(w/w) loss by weight of the substrate, while only 8%?(w/w) of RC was degraded in the initial pure batch fermentation.     

Production of cellulases and hemicellulases by Aspergillus niger KK2 from lignocellulosic biomass

To investigate the production of cellulases and hemicellulases from Aspergillus niger KK2, solid state fermentation (SSF) was performed by using different ratios of rice straw and wheat bran. When A. niger KK2 was grown on rice straw alone as a solid support in SSF, the maximum FPase activity was 19.5 IU g(-1) in 4 days. Also, CMCase (129 IU g(-1)), beta-glucosidase (100 IU g(-1)), xylanase (5070 IU g(-1)) and beta-xylosidase (193 IU g(-1)) activities were concurrently obtained after 5-6 days of fermentation. The higher enzyme activities produced by A. niger KK2 is a significant advantage from the viewpoint of practical saccharification reaction. Cellulases and hemicellulases produced by A. niger KK2 might be applied to pulp and paper industry, feed industry and chemical industry.     

Improved laminaribiose phosphorylase production by <Emphasis Type="Italic">Euglena gracilis</Emphasis> in a bioreactor: A comparative study of different cultivation methods

Laminaribiose phosphorylase (EC 2.4.1.31) catalyzes a reversible phosphorolysis reaction in which laminaribiose, a very high value sugar is produced. This enzyme is not being produced commercially therefore, to realize the most effective method for producing laminaribiose phosphorylase and obtaining as much activity units as possible per liter of culture, different cultivation methods of Euglena gracilis were compared. Heterotrophic and mixotrophic cultivations of Euglena gracilis in two different pHs, in flask and bioreactor were performed. The reverse phosphorolysis activity of laminaribiose phosphorylase produced under different cultivation methods was measured. The heterotrophic approach showed to be the more effective cultivation method as 47.6 IU/L was obtained compared to 27 IU/L in the mixotrophic one. The heterotrophic cultivation then was further investigated under two different pH values of the culture media. The culture at pH 6.8 resulted in 7.94 IU/L/day whereas only 4.06 was obtained for the culture at pH 4. Cultivation in a bioreactor resulted in a distinctive amount of 191.5 IU/L and an activity yield of 9.7 IU/g glucose compared to 5.4 in flask cultivation. Heterotrophic cultivation of Euglena gracilis in a bioreactor containing a culture media at pH 6.8 and controlled operation conditions showed enhanced laminaribiose phosphorylase activity production per liter and day of cultivation.     

纳豆激酶的发酵工艺研究

以实验室选育的纳豆菌— 6号 (Bacillusnatto 6)为出发菌株 ,研究其固液两种发酵条件对纳豆激酶溶栓活力的影响。研究表明 ,纳豆菌适于固体发酵 ,37℃下 2 4h ,其活力可达 1 60 0IU/g以上。     

以环氧乙烷为活性基的多孔颗粒状固定化青霉素酰化酶的制备

报道了用以环氧乙烷为活性基的多孔颗粒状载体（Eupergit-C）制备固定由巨大芽孢杆菌（B．megaterium）产生的青霉素酰化酶的研究。用已二胺,赖氨酸对载体进行化学修饰后制备固定化酶,获得了较好的固定结果。用未修饰的载体制备固化酶,经24h固定反应,酶活力达176．5IU／g（wet）,酶活力总叫率达53．7％,酶蛋白的固定量为19＝7mg/g（dr）,酶蛋白的固定效率达87．5％。游离酶的酶浓度对制备固定化酶的活力无显影响。当加酶量从312IU/g（dry）上升到6250IU／g（dry）时,固定化酶活力从89IU／g(wet）上升到475IU／g（wet）,总收率和固定化效率分别从99％和99％下降到26．5％和32．5％,酶蛋白的固定量从6．9mg/g（dry）上升到112mg/g（dry）,酶蛋白的固定效率从99％下降至80．5％。以酶活力为155IU/g(wet）,酶蛋白固定量为22mg/g(dry）的固定化酶水解青霉素G钾盐,经过20批循环水解后,剩余酶活力为92．5％。     

产β—葡聚糖酶菌种T199的选育及发酵条件

大麦为啤酒酿造原料 ,含有由葡萄糖残基通过β 1 ,3 和 1 ,4 糖甙键连接而成的β 葡聚糖。在麦芽汁制备过程中 ,热不稳定的大麦葡聚糖酶不能充分降解β 葡聚糖 ,残留的 β 葡聚糖不仅影响麦芽汁分离和啤酒过滤 ,而且将成为成品啤酒出现混浊和沉淀的因素之一。微生物 β 葡聚糖酶能改善啤酒加工工艺和提高产品质量[1,2 ] 。谷类饲料含有不同于纤维素的 β 葡聚糖[2 ] ,作为抗营养因子 ,β 葡聚糖使饲料具有粘性 ,不能很好的消化利用。β 葡聚糖酶作为饲料添加剂加入到饲料中 ,可以将 β 葡聚糖降解 ,从而提高饲料利用率 ,改善营养吸收。相关…     

Immobilization of dextranase on bentonite

Dextranase (1,6-α-d-glucan 6-glucanohydrolase, EC 3.2.1.11) from Penicillium aculeatum culture has been immobilized on a bentonite support. The matrix-bound enzyme could be stored as acetone-dried powder or as a suspension in acetate buffer, pH 5.6, for about three weeks at 4°C without any loss of activity. There was no change in the specific activity of the enzyme on immobilization and the enzyme yield was 0.1–0.6 mg/g bentonite matrix. In the presence of sucrose, thermal stability of the immobilized enzyme was high and the bound enzyme could be used for about six cycles.     

枯草芽孢杆菌中性β—甘露聚糖酶的产生及性质

由土壤中分离出一株产中性β甘露聚糖酶的枯草芽孢杆菌（Ｂａｃｉｌｕｓｓｕｂｔｉｌｉｓ）,编号ＢＭ９６０２。该菌在液体培养条件下,产生中性β甘露聚糖酶。多糖能作为碳源,而单糖不能作为碳源;有机氮源优于无机氮源。产酶最适培养基组成：魔芋粉４％,牛肉蛋白胨和酵母膏各１％。产酶最适培养条件：培养基起始ｐＨ８５,３５℃,振荡培养３６ｈ。以槐豆胶为底物,培养滤液中性β甘露聚糖酶活力为９６ＩＵ／ｍＬ。酶在ｐＨ５０～１００和５０℃下稳定;作用最适条件为ｐＨ６０和５０℃;水解魔芋粉和槐豆胶均产生寡聚糖。