壳聚糖固定化胰蛋白酶的研究

以壳聚糖为载体，戊二醛为交联剂，采用两种方法制备了固定化胰蛋白酶。考察了固定化反应中pH值，戊二醛的浓度，以及给酶量对固定化胰蛋白酶活力的影响，并研究了这两种固定化胰蛋白酶的性质。实验结果表明，以戊二醛预交联的网状壳聚糖为载体制备的固定化胰蛋白酶具有更加优良的性能，在最佳固定化反应条件下，酶的活性加收率可达56％。此固定化胰蛋白酶的最适pH为7．0－8．5，最适温度为60℃，Km值为2．52mol/L，固定化胰蛋白酶表现出较好的热稳定性，pH贮存稳定性，以及在乙醇水溶液中的稳定性。     

A Study of the Hydrolysis of Waste Paper Cellulose with a Vertically Hanging Immobilized Cellulase Reactor and the Reuse of the Immobilized Cellulase

A commercialized cellulase from Trichoderma reesei has been successfully immobilized by using calcium alginate gel in our laboratory. The waste paper cellulose was hydrolyzed with a special design of the reactor to form a vertically hanging immobilized cellulase under the optimum conditions of pH 4.0 and 45 °C. Glucose, cellobiose and xylose are the major hydrolysis products. The glucose production from the hydrolysis with the vertically hanging immobilized cellulase was about 1.73‐fold better than the freely suspended immobilized cellulase. The average diameter of the immobilized cellulase pellets was 4.190 ± 0.291 mm. UV light irradiation deactivates the activity of the immobilized cellulase. The advantage of the vertically hanging immobilized cellulase reactor is an easy recycle and reuse of the immobilized cellulase. Washing and soaking the recycled immobilized cellulase with distilled water for one day can restore its activity to a small extent. Overall, the application of the hanging immobilized cellulase reactor for waste paper cellulose hydrolysis is successful.     

Immobilization of glucoamylase onto novel porous polymer supports of vinylene carbonate and 2-hydroxyethyl methacrylate

Glucoamylase was immobilized onto novel porous polymer supports. The properties of immobilized glucoamylase and the relationship between the activity of immobilized enzyme and the properties of porous polymer supports were investigated. Compared with the native enzyme, the temperature profile of immobilized glucoamylase was widened, and the optimum pH was also changed. The optimum substrate concentration of immobilized glucoamylase was higher than that of native enzyme. After storage for 23 d, the immobilized glucoamylase still maintained about 84% of its initial activity, whereas the native enzyme only maintained about 58% of the initial activity. Moreover, after using repeatedly seven times, the immobilized enzyme maintained about 85% of its initial activity. Furthermore, the properties of porous polymer supports had an effect on the activity of the immobilized glucoamylase.     

固定化木瓜蛋白酶的制备和性质研究

多孔硅球固定化木瓜蛋白酶具有热增活性 .本文在前文研究的基础上 ,用载体交联法制备了甲壳胺固定化木瓜蛋白酶和纤维素固定化木瓜蛋白酶 .考察了固定化pH值、戊二醛浓度和给酶量对固定化木瓜蛋白酶活力的影响 .研究了固定化木瓜蛋白酶的性质 ,特别是热稳定性和耐热性 ,并与溶液酶和多孔硅球固定化木瓜蛋白酶进行了比较 .所制得的甲壳胺固定化木瓜蛋白酶和纤维素固定化木瓜蛋白酶的最适反应温度均达到了 80℃ ;90℃温育 1h后固定化酶的活力保持在 95 %以上 ;70℃温育处理 5h和 6h后固定化酶的活力也仍能保持在 90 %以上 .固定化木瓜蛋白酶的热稳定性和耐热性得到了显著提高     

氧化铁磁性纳米粒子固定化酶*

纳米粒子作为酶固定化的载体,当其具有磁性时,制备的固定化酶易于从反应体系中分离和回收,操作简便;并且利用外部磁场可以控制磁性材料固定化酶的运动方式和方向,替代传统的机械搅拌方式,提高固定化酶的催化效率。在众多纳米材料中,氧化铁因其在磁性、催化等多方面的良好特性而倍受瞩目。本文对近年来各种氧化铁磁性纳米粒子固定化酶,尤其是固定化脂肪酶和蛋白酶的制备方法及其应用做了较为详细的阐述,对这些氧化铁磁性纳米粒子固定化酶的优缺点和发展前景进行了讨论。     

酸性接枝淀粉固定化糖化酶及稳定性研究

糖化酶(EC.3.2.1.3,GA)是工业上应用规模最大的3种酶制剂之一.目前,工业生产中大多采用游离GA,这给产物的分离和纯化带来诸多不便.因此,采用固定化糖化酶(IGA)是酶制剂工业发展的必然趋势.     

固定化葡萄糖氧化酶活性的X射线微区分析

利用X射线微区分析方法,对固定化活性葡萄糖氧化酶进行了定位分析;葡萄糖作为底物,FeSO4和KI作为捕捉剂,底物经固定化葡萄糖氧化酶催化产生H2O2,后者和捕捉剂反应生成沉淀,可以确定固定化葡萄糖氧化酶的催化活性部位。结果表明：颗粒越小,酶活越高,活性葡萄糖氧化酶在凝胶内分布均匀,且绝大多数葡萄糖氧化酶固定在凝胶的内部。作者还研究了固定化活性葡萄糖氧化酶定位的最佳条件。     

THERMAL ACTIVATION OF IMMOBILIZED PAPAIN

Papain (Papainase, EC 3.4.22.2) was immobilized on porous silica beadsby cross linking with glutaraldehyde. The thermal activation of this immobilized papainin aqueous system was found at a temperature range from 50 to 90℃. The higher thetemperature, the more active the immobilized papain will possess. At the same time,the durability of the immobilized papain on heating was greatly improved. The effect ofadditives and salts on the activity of the immobilized papain were also studied. The resultsshowed that the additives and some of the salts studied could markedly enhance the activityof the immobilized papain at elevated temperature.     

Production of 5′-mononucleotides using immobilized 5′-phosphodiesterase and 5′-amp deaminase

The preparations and properties of 5′-phosphodiesterase and 5′-AMP-deaminase immobilized on porous ceramics by covalent binding and the production of 5′mononucleotides from RNA using these immobilized enzymes are described. Comparison tests for the properties of both immobilized and native enzymes were carried out. It was found that the pH optima of these immobilized enzymes were shifted toward the acidic side, and their practically operable pH regions were much more broadened. In such acidic pH regions, these immobilized enzymes also showed more excellent heat stabilities. These special characteristics of the immobilized enzymes were quite satisfactory for eliminating possible microbial contamination during the long-term operation of these immobilized enzyme systems. In continuous-column operations, more than 85% hydrolysis of RNA and complete conversion of 5′-AMP to 5′-IMP were maintained for more than 23 days when a 4% RNA solution was charged as the substrate.     

Plasma-assisted immobilization of heparin onto low-density polyethylene surface

In this study heparin was covalently immobilized onto LDPE-VEMAC sheet fabricated by the introduction of carboxyl groups to the surface of low-density polyethylene (LDPE) using a plasma technique. The plasma irradiation time influenced the density of carboxyl groups on the LDPE-VEMAC sheet. Heparin was immobilized on the LDPE-VEMAC sheet using a condensation reagent, N-(3-dimethylaminopropyl)-N'-ethylcarbodiimide hydrochloride (EDC). We confirmed the immobilization of heparin from the ATR-FT-IR spectrum of the sheet obtained. Where heparin was directly immobilized on the LDPE-VEMAC sheet, the density of the immobilized heparin depended on that of the carboxyl groups. Heparin was also immobilized with a spacer, hexamethylene diamine, and the density of such heparin was about 1.6 times that of the directly immobilized heparin. This result suggests that the introduction of a spacer may be an effective way to increase the density of immobilized heparin.     

大分子键合型手性固定相的研究进展

高效液相色谱（HPLC）被广泛认为是分离制备光学纯单一对映体最有效的方法。在高效液相色谱手性拆分中,手性固定相的性能直接影响到色谱柱的手性分离能力。在众多手性固定相中,键合型手性固定相具有溶剂耐受性好,分离模式灵活等优点,是很重要的一大类手性固定相。本文主要针对大分子键合型手性固定相,包括多糖衍生物键合型手性固定相、蛋...     

吸附-纤维素覆膜联合固定化酶

以食品工业中常用的木瓜蛋白酶为模式酶, 建立了吸附-纤维素覆膜联合固定化酶方法. 通过对吸附载体类别、 纤维素种类及溶剂、 保护剂种类及其浓度、 干燥方式及时间等的优化, 得到最佳的吸附-纤维素覆膜联合固定化酶工艺. 以硅藻土或HPD-417(大孔树脂)作为吸附载体, 甲基纤维素(分子量40000~50000)丙酮溶液作为覆膜溶液, 加入6%(质量分数)的聚乙二醇或麦芽糖作为覆膜保护剂, 于4 ℃干燥9 h, 制得固定化木瓜蛋白酶, 硅藻土吸附-纤维素覆膜固定化酶酶活回收率达到96.50%, HPD-417吸附-纤维素覆膜固定化酶酶活回收率达到93.92%. 对吸附-纤维素覆膜固定化酶的性质进行了研究, 发现纤维素覆膜后固定化酶具有良好的热稳定性, 于80 ℃下保存12 h后, 固定化酶活残余率仍然能保持90%左右; 在pH=4.5~9.5的范围内, 固定化酶的稳定性较好; 连续使用9次后, 固定化酶活残余率仍能保持95%左右.     

Lipase immobilized on poly(VP-co-HEMA) hydrogel for esterification reaction

Lipase from Candida rugosa was immobilized by entrapment on poly(N-vinyl-2-pyrrolidone-co-2-hydroxyethyl methacrylate)(poly[VP-co-HEMA]) hydrogel, and divinylbenzene was the crosslinking agent. The immobilized enzymes were used in the esterification reaction of oleic acid and butanol in hexane. The activities of the immobilized enzymes and the leaching ability of the enzyme from the support with respect to the different compositions of the hydrogels were investigated. The thermal, solvent, and storage stability of the immobilized lipases was also determined. Increasing the percentage of composition of VP from 0 to 90, which corresponds to the increase in the hydrophilicity of the hydrogels, increased the activity of the immobilized enzyme. Lipase immobilized on VP(%):HEMA(%) 90∶10 exhibited the highest activity. Lipase immobilized on VP(%):HEMA(%) 50∶50 showed the highest thermal, solvent, storage, and operational stability compared to lipase immobilized on other compositions of hydrogels as well as the native lipase.     

不同介孔材料固定青霉素酰化酶的稳定性研究

介孔材料由于具有在2～30nm之间可调的纳米级规则孔道、大比表面积和强吸附性能而成为固定化酶的优良载体．将酶固定于介孔材料的孔道中制备成的固定化酶与溶液酶相比,有易于与产物分离,并可回收和反复使用,可降低生产成本,减少酶的自水解和保持酶的活性．青霉素酰化酶（Penicillin acylase,PGA,EC．3．5．1．11）又称为青霉素酰胺酶或青霉素氨基水解酶,该酶属于球蛋白,分子量较大,由2个亚基组成：分子量为19500的含有侧链结合位点的亚基和分子量为60000的含有催化位点的亚基．     

纳米复合材料固定化酶的研究进展

载体材料的选择对固定化酶的性能有着至关重要的影响。纳米复合材料不仅具有纳米尺寸的特性,而且可以克服单一材料的不足,在固定化酶领域引起了广泛关注。本文就目前在固定化酶领域使用的纳米复合载体分类进行了系统的阐述,重点介绍了目前在固定化酶研究领域运用较为广泛的硅基纳米复合材料、碳基纳米复合材料和纳米纤维复合材料等材料的制备方法及不同材料对酶学性能的影响,并对这些纳米复合材料固定化酶发展前景进行了展望。     

纳米复合材料固定化酶的研究进展

载体材料的选择对固定化酶的性能有着至关重要的影响。纳米复合材料不仅具有纳米尺寸的特性,而且可以克服单一材料的不足,在固定化酶领域引起了广泛关注。本文就目前在固定化酶领域使用的纳米复合载体分类进行了系统的阐述,重点介绍了目前在固定化酶研究领域运用较为广泛的硅基纳米复合材料、碳基纳米复合材料和纳米纤维复合材料等材料的制备方法及不同材料对酶学性能的影响,并对这些纳米复合材料固定化酶发展前景进行了展望。     

Studies on Manganese Peroxidase Immobilized in Gelatin-containing Microemulsion-based Gels

The immobilized technique of manganese peroxidase (MnP) in gelatin-containing microemulsion-based gels and the effects of storage time and reuse times on its catalytic activity were studied. The results show that the MnP immobilized together with Mn^2 and H2O2 could effectively oxidize syringaldazine in n-heptane. The immobilized MnP still had a high catalytic activity after one-month storage under a freezing condition. The reuse times have a relation to the amount of the immobilized H2O2. When the amount of the immobilized H2O2 is sufficient, the microemulsion-based gels containing MnP could be used many times.     

Mo掺杂TiO2/AC负载膜的制备及光催化活性

溶胶-凝胶法;Mo掺杂TiO2/AC负载膜的制备及光催化活性     

Immobilization of Horseradish Peroxidase on Nonwoven Polyester Fabric Coated with Chitosan

The immobilization of horseradish peroxidase (HRP) on composite membrane has been investigated. This membrane was prepared by coating nonwoven polyester fabric with chitosan glutamate in the presence of glutraldehyde as a crosslinking agent. The physico-chemical properties of soluble and immobilized HRP were evaluated. The soluble HRP lost 90% of its activity after 4 weeks of storage at 4°C, whereas the immobilized enzyme retained 85% of its original activity at the same time. A reusability study of immobilized HRP showed that the enzyme retained 54% of its activity after 10 cycles of reuse. Soluble and immobilized HRP showed the same pH optima at pH 5.5. The immobilized enzyme had significant stability at different pH values, where it had maximum stability at pH 3.0 and 6.0. The kinetic properties indicated that the immobilized enzyme had more affinity toward substrates than soluble enzyme. The soluble and immobilized enzymes had temperature optima at 30 and 40°C and were stable up to 40 and 50°C, respectively. The stability of HRP against metal ion inactivation was improved after immobilization. Immobilized HRP exhibited high resistance to proteolysis by trypsin. The immobilized HRP was more resistant to inactivation induced by urea, Triton X-100, and organic solvents compared to its soluble counterpart. The immobilized HRP showed very high yield of immobilization and markedly high stabilization against several forms of denaturants that offer potential for several applications.     

纳米花型酶-无机杂化固定化酶研究进展

酶是一种绿色高效的生物催化剂,被广泛地应用于工业生产中,为了更好的提升游离酶的性能,酶固定化技术应运而生。然而,与游离酶相比,固定化酶活性下降以及传质受限一直是酶固定化技术亟待解决的关键问题。作为一种新型酶固定化技术,纳米花型酶-无机杂化固定化酶因具有高比表面积、高酶活性和高催化效率,且制备简单,绿色无污染受到广泛关注。本文综述了近年来纳米花型酶-无机杂化固定化酶的研究进展,根据纳米花型酶-无机杂化固定化酶的形成特点,将其分为单酶纳米花、双酶纳米花和负载型纳米花。阐述了纳米花型酶-无机杂化固定化酶的制备过程和形成机理并对纳米花型酶-无机杂化固定化酶在食品工业和检测领域的应用进展做出总结。最后,对纳米花型酶-无机杂化固定化酶的发展前景做出展望。