聚氨酯泡沫固定化黑曲霉P-6021可同时产果胶酶和澄清果汁*

以多孔聚氨酯泡沫(PUF)固定化黑曲霉P-6021可以实现菌丝体的摇瓶重复间歇发酵产酶,重复5个批次,菌体数目增多,产酶量上升,发酵液酶活达到664u/ml。以PUF固定化黑曲霉P-6021进行了同时产果胶酶和澄清苹果汁试验,以浑浊苹果汁基质发酵12h后, 产酶量可达到643u/ml,苹果汁基本澄清,透光率提高,粘度降低。表明固定化黑曲霉可以同时产果胶酶和澄清苹果汁,实现产酶与澄清过程的耦合。     

聚氨酯泡沫固定化黑曲霉P—6021可同时产果胶酶和澄清果汁

以多孔聚氨酯泡沫（PUF）固定化黑曲霉P－6021可以实现菌丝体的摇瓶重复间歇发酵产酶,重复5个批次,菌体数目增多,产酶量上升,发酵液酶活达到664u/ml,以PUF固定化黑曲霉P－6021进行了同时产果胶酶和澄清苹果汁试验,以浑浊苹果汁基质发酵12h后,产酶量可达到643u/ml,苹果汁基本澄清,透光率提高,粘度降低,表明固定化黑曲霉可以同时产果胶酶和澄清苹果汁,实现产酶与澄清过程的耦合。     

果胶酶制剂中花色素酶的去除

以皂土为吸附剂,将花色素酶从粗果胶酶制剂中除去。分离效果受pH和皂土用量影响。皂土还具有一定的脱色作用。黑曲霉AS3.316麦麸固体曲用5倍重量的自来水于室温下抽提4小时。粗果胶酶拙提液中加入3％皂土,调pH至4.1,于室温下放置30分钟。过滤所得部分提纯酶液含果胶酶258u/ml,酶活力回收为88％。 100ml山楂汁和387u(1.5ml)上述部分提纯的果胶酶于50℃保温3小时后,澄清度由65％提高到98％;相对粘度由12.5下降到1.2;果胶完全水解;红色素完全保留着。     

多孔聚氨酯固定化黑曲霉产β-葡萄糖苷酶条件的研究

以多孔聚氨酯材料为固定化载体 ,就固定化培养条件中的孢子浓度、pH值、温度、固液比等进行考察 ,经正交试验优化后的最佳固定化条件为固液比为 1 / 90、孢子浓度为 1 0 5mL-1 、温度为 2 8℃ ,pH值 4 .5 ,固定化条件中影响黑曲霉产 β 葡萄糖苷酶的因素显著性顺序为固液比 >孢子浓度 >pH值 >温度。与游离态菌丝体相比较 ,固定化细胞发酵产酶的持续稳定性和活力都有所提高 ,固定化细胞酶产量达 1 30 .0 0u/mL。     

产糖化酶黑曲霉的固定化研究

采用多孔聚酯材料作为固定化载体,考察并比较了载体吸附固定化黑曲霉菌丝细胞的条件,当菌丝体细胞与载体预培养的条件为pH值5.0、孢子浓度为105个/ml、固液比为1/75时,有利于菌丝体的生长、吸附固定及发酵产酶.在产糖化酶的发酵过程中,与游离菌丝体细胞相比,发酵过程持续产酶时间有一定程度的延长,产糖化酶活力始终高于游离菌丝体.     

果胶酶CP-85211菌株的选育及其液体发酵条件的研究

黑曲霉(Aspergillus niger) CP-831经0.03％亚硝基呱在40℃处理30分钟,获得一株高产果胶酶突变株CP-85211。该突变株发酵滤液,当以果胶为底物时,酶活力为308u／m’;当以多聚半乳糖醛酸为底物时,酶活力为842u／ml。产酶活力水平约为出发菌种的5倍。产酶最适培养基组成为：8％麦麸,2％桔皮粉和2％硫酸铵。最适培养条件为：起始pH 3．5,如℃,72小时。     

食品用果胶酶的制备

以黑曲霉cP-85211菌株液体深层发酵滤液为材料,采用超滤-乙醇沉淀方法,制备出高酶活力的粉剂果胶酶。试验了乙醇添加量、温度、pH等对酶沉淀的影响,进行了果汁澄清等试验。     

壳聚糖酶产生菌的筛选及固定化细胞产酶

旨在筛选得到一株壳聚糖酶产生菌,并研究固定化细胞产酶的条件。在培养基中以壳聚糖为唯一碳源,对土壤样品进行筛选,获得一株无花果沙雷氏菌(Serratia ficaria CH-0203),该菌可被壳聚糖诱导产生壳聚糖酶。固定化细胞产酶的研究结果表明,多孔玻璃可以有效吸附CH—0203菌细胞。在最适发酵条件下(pH6．5,培养基与载体的总体积48ml,载体与培养基的比例为1．5g/4．0ml,吸附时间是20h-26h),发酵液酶活达到4．5U／ml,比游离细胞发酵提高了16％。采用半连续发酵的方式,固定化的细胞可以稳定发酵产酶120h左右。固定化细胞产酶的效率大大高于游离细胞。     

黑曲霉HG-1发酵苹果渣生产果胶酶的工艺优化及部分酶学性质

目的：采用价格低廉的农业废弃物苹果渣为主要原料生产果胶酶,优化其生产工艺,并对果胶酶的部分酶学性质进行研究。方法：以黑曲霉HG-1为生产菌种,采用单因子实验和正交试验进行固态发酵。结果：最适培养基为苹果渣10g、棉粕10g、（NH4）2SO40.2g、K2HPO40.06g、初始水分含量60%;最适发酵条件为装料量为20g干料/250ml三角瓶,30℃恒温培养48h,果胶酶酶活力可达22248U/g。果胶酶酶促反应最适温度为45℃,最适pH为5.0;在50℃以下,pH3.0～6.0时稳定性良好;Ca^2＋、Mg^2＋、Fe^2＋对该酶有激活作用,而Ba^2＋、Mn^2＋、Zn^2＋有抑制作用。结论：以苹果渣代替麸皮作为黑曲霉HG-1固态发酵生产果胶酶的主要原料在技术上具有可行性,可大幅度降低生产成本;同时还可以部分解决苹果渣的综合利用问题。     

酶水解菊芋糖浆发酵生产琥珀酸的初步研究

用产菊粉酶的一株黑曲霉菌株进行产酶发酵条件和水解条件研究,在30℃,pH 6.0,摇床转速200 r/min,发酵时间为3 d的最适产酶条件下,酶活可以达到45.9 U/mL.以总糖含量为85.2 g/L的菊芋粉为初始底物,最适酶水解条件为温度50℃,加黑曲霉培养液的量为10%(v/v),水解12 h后,水解率达到99.6%.用此酶解液在5 L搅拌发酵罐中进行琥珀酸发酵,初始还原糖浓度53.5 g/L,36 h发酵产琥珀酸43.8 g/L,琥珀酸产率0.83 g/g,糖利用率99.0%,琥珀酸生产强度1.22 g/(L·h).     

固定化果胶酶澄清果汁的条件及效果

利用固定化果胶酶对四种不同果汁澄清条件及效果进行研究,结果表明,固定化果胶酶澄清四种不同果汁的效果明显,其中澄清桔汁的果胶酶重复使用20次以上,酶活力及透光率仍可维持在80%以上,其最适反应条件是:果汁浓度50%;pH 3.0~3.5;温度45~50℃;反应时间2小时;酶量每毫升果汁0.05 g固定化果胶酶;澄清时间20小时。     

Immobilization of polygalacturonase from Aspergillus niger onto activated polyethylene and its application in apple juice clarification

The present work is focused on efficient immobilization of polygalacturonase on polyethylene matrix, followed by its application in apple juice clarification. Immobilization of polygalacturonase on activated polyethylene and its use in apple juice clarification was not reported so far. Aspergillus niger Van Tieghem (MTCC 3323) produced polygalacturonase when grown in modified Riviere's medium containing pectin as single carbon source by fed-batch culture. The enzyme was precipitated with ethanol and purified by gel filtration chromatography (Sephacryl S-100) and immobilized onto glutaraldehyde-activated polyethylene. The method is very simple and time saving for enzyme immobilization. Various characteristics of immobilized enzyme such as optimum reaction temperature and pH, temperature and pH stability, binding kinetics, efficiency of binding, reusability and metal ion effect on immobilized enzymes were evaluated in comparison to the free enzyme. Both the free and immobilized enzyme showed maximum activity at a temperature of 45 degrees C and pH 4.8. Maximum binding efficiency was 38%. The immobilized enzyme was reusable for 3 cycles with 50% loss of activity after the third cycle. Twenty-four U of immobilized enzyme at 45 degrees C and 1 h incubation time increased the transmittance of the apple juice by about 55% at 650 nm. The immobilized enzyme can be of industrial advantage in terms of sturdiness, availability, inertness, low price, reusability and temperature stability.     

黑曲霉原生质体诱变选育果胶酶高产菌株

通过UV和NTG诱变筛选获得了2株高产果胶酶突变株。以果胶酶产生菌黑曲霉EIM6为诱变材料,采用1．5％的溶壁酶和1．5％的纤维素酶处理其对教生长期菌丝体2h获得高质量的原生质体。采用UV25S或50μg／mL NTG诱变30min,构建原生质体突变库,经刚果红果胶平板筛选获得果胶酶突变株,通过液体深层培养复筛获得高产突变株EIM6-U11、EIM6-N5,酶活力分别从46598．08、46598．08U／mL提高至68596．57、68879．56U／mL,分别提高了47．21％、47．82％。连续8次传代经发酵测酶活力表明高产突变株EIM6-U11、EIM6-N5具有较高的遗传稳定性。     

Improvement of lipase activity by synergistic immobilization on polyurethane and its application for large-scale synthesizing vitamin A palmitate

Abstract

We have developed an improved and effective method to immobilize lipase on hydrophobic polyurethane foam (PUF) with different modifications. PUF was treated with hydrochloric acid to increase the active sites and then the active carboxyl groups and amino groups were exposed. Enzyme activity of lipase immobilized on PUF-HCL (8000?U/g) was 50% higher than that of lipase immobilized on PUF (5300?U/g). There is an increase in the activity of the immobilized lipase on AA/PEI-modified support (115,000?U/g), a 2.17-fold increase compared to lipase immobilized on the native support was observed. The activity of immobilized lipases was dependent on the PEI molecular weight, with best results from enzyme immobilized on PUF-HCL-AA/PEI (MW 70,000?Da, 12,800?U/g)), which was 2.41 times higher compared to that of the same enzyme immobilized on PUF. These results suggest that the activity of immobilized lipase is influenced by the support surface properties, and a moderate support surface micro-environment is crucial for improving enzyme activity. Finally, the immobilized lipase was used for the production of vitamin A palmitate. The immobilized lipase can be reused for up to 18 times with a conversion rate above 90% for 12?h in a 3?L bioreactor.

• Research highlights

• An efficient immobilization protocol on polyurethane foam was developed

• Polyethyleneimine and acetic acid were used to regulate the micro-environment concurrently

• The activity of lipase immobilized on PUF-HCL-AA/PEI was improved by 2.41 times

• Immobilized lipase exhibited excellent operational stability for vitamin A palmitate synthesis

     

Immobilized pectolytic enzymes on acrylic supports

The paper deals with the pectolytic enzymes immobilization on different acrylic supports, and the application of immobilized preparations in the apple juice pectinization process. The correlation between the protein content (C_p) and specific catalytic activities of immobilized enyzme preparations suggest a specific immobilization process only in the case of PONILEX ASH type acrylic supports. The active immobilization degree on PONILEX ASH type supports of Ultrazym 100 G and technical pectinase extract ranged from 99.80 to 296.40% for the Pectinesterase (PE) activity, and from 101.85 to 252.94% for the chain splitting (CS) activity, proving that the ionic immobilization process is a selective one. The simulated operational stability of the immobilized pectolytic enzymes tested by the PE and CS activity values proves the preservation of enzyme catalytic activity.     

Optimization of process for the production of fungal pectinases from deseeded sunflower head in submerged and solid-state conditions

Pectinase production studies were carried out in submerged and solid-state conditions from deseeded sunflower head employing Aspergillus niger. The two potential strains of A. niger, DMF 27 for submerged and DMF 45 for solid-state were isolated by multi-step screening technique based on coefficient of pectolysis and capability of pectinase production. Process variables such as size of inoculum, pH, temperature, particle size and moisture content were optimized with an aim to achieve the maximum production of pectinases. The increased level of pectinase production was recorded at pH 5.0 and temperature 34 degrees C in submerged and solid-state conditions. The optimum inoculum size was 1x10(5)ml(-1) for submerged and 1x10(7)g(-1) for solid-state conditions. Five hundred micrometer particle size and 65% moisture content of the substrate were optimum for the maximum production of pectinases in solid-state condition. Under optimum conditions, maximum production of exo-pectinase was 34.2U/g in SSF and endo-pectinase was 12.6U/ml in SmF.     

果胶酶高产菌种的紫外诱变选育及其培养条件的响应面法优化

以果胶酶产生菌黑曲霉EIM6为出发菌株,初始果胶酶活为14 539 U/mL,经紫外诱变反复处理,摇瓶复筛和遗传稳定性试验,最终获得一株果胶酶高产菌株EIMU2。EIMU2菌株的形态特征发生了明显的改变,相较于原出发菌株EIM6,孢子色泽更黑,孢子团也较出发菌株大,菌丝与孢子上凝结有更多的液珠。复筛后EIMU2酶活为32 161 U/mL,较原出发菌株提高了1.212倍。进一步通过响应面法对EIMU2菌株的液体发酵培养条件进行优化。优化后的培养条件为甜菜渣1.83%,花生饼粉1.69%,(NH_4)_2SO_4 0.5%,K_2HPO_4 0.3%,CaCO_3 0.2%,MgSO_4 0.15%(w/v),接种量6%(v/v),装液量21.36 mL。优化的突变菌株产酶活性进一步提高至98 794.3 U/mL,提高了2.07倍。     

Influence of pectinase treatment on fruit spirits from apple mash, juice and pomace

The current investigation was conducted to determine the influence of pectinase treatment on fruit spirits produced from apple mash, juice, and pomace. Crispin apples were processed into apple mash, juice, and pomace in our pilot-plant, and fermented with a commercial Red Star wine yeast (Sachharomyces cerevisiae Davis 904). After fermentation, the samples of fermented apple mash, juice, and pomace were distilled, and the distillates were analyzed by HPLC with a Bio-Rad Aminex HPX 87H column and a refractive index detector. Methanol, ethanol, n-propanol, iso-butanol, and iso-amyl alcohol were identified as the major alcohols in all the apple spirits. Student's t-test results indicate that there are significant differences between the methanol concentrations of pectinase treated and non-pectinase treated apple spirits. Duncan's multiple range tests show significant differences in the concentrations of methanol of the fruit spirits made from apple mash, juice, and pomace. Apple pomace yielded significantly higher methanol concentrations than apple mash and juice. Pectinase treatment had little effect on the concentrations of n-propanol, iso-butanol, and iso-amyl alcohol. It is concluded that fruit spirits made from the pectinase treated mash, juice, and pomace of Crispin apples had methanol concentrations significantly above the United States FDA guidance of 0.35% by volume or 280 mg/100 mL of fruit brandy containing 40% ethanol.     

SCP and crude pectinase production by slurry-state fermentation of lemon pulps

Single cell protein (SCP) and crude pectinolytic enzymes production from citrus pulps is reported. SCP and enzymes were produced by slurry-state flask cultivation of Aspergillus niger and Trichoderma viride on pulps from lemon juice clarification. Production as well as crude pectinase activity was not affected by the high dry matter content of the pulps. Both the protein content in the residue and the enzyme activity in the supernatant were higher in T. viride than in A. niger culture. The crude pectinase of T. viride, whose specific activity was similar to that found for a commercial concentrated preparation, could be utilized in the same citrus processing factory as well as in other factories which use large amounts of pectinolytic crude preparations, for example to enhance depuration plant performance.