聚丙烯酸甲酯载体对柱状假丝酵母脂肪酶固定化的研究（Ⅰ）

合成了一系列不同结构的聚丙烯酸甲酯，考察了它们的固定化酵母脂肪酶催化酯水解反应的效果，得到了载体孔结构对固定化效果影响的一些规律．研究了最佳吸附条件，比较ｐＨ和离子强度对酵母脂肪酶自由酶和固定化酶催化酯水解反应活力的影响．     

脂肪酸分子印迹对sol-gel固定化脂肪酶酯化活性和胶体结构的影响

基于sol-gel工艺的生物印迹对提高脂肪酶在非水相体系中的活性,扩大其应用范围具有重要作用.本研究以乙烯基三甲氧基硅烷(VTMOS)和四甲氧基硅烷(TMOS)为前趋体,系统考察了脂肪酸印迹分子对sol-gel脂肪酶固定化率和活性的影响,获得了最优的工艺条件.当VTMOS/TMOS为7∶1时,印迹后脂肪酶的比酶活和总酶活分别达到3311.0μmol/h/mg和2506.9μmol/h/gGel,比未印迹同摩尔比的固定化脂肪酶分别提高了2.06和1.79倍.系统考察了脂肪酸生物印迹效应和胶体结构对固定化酶表观活性的影响.氮气吸附—解吸附分析和扫描电镜观察表明,随着脂肪酸分子的参入,固定化脂肪酶颗粒平均孔径增大,对底物的传质阻力逐渐降低,但比表面积和孔体积的变化并不显著;印迹酶平均颗粒直径明显减小,各有机硅烷单体之间的成键能力减弱.表明脂肪酶活性的增加主要来源于疏水性脂肪酸侧链引起的脂肪酶的界面激活效应(生物印迹效应),同时固定化颗粒孔径的改变增加了底物和酶分子的结合,提高了固定化酶的表观活性.     

黑曲霉脂肪酶的耦合固定化及特性

研究了吸附-絮凝耦合的方法固定脂肪酶的工艺条件.结果表明:在33℃下,用0.03mol/L的磷酸二氢钾?氢氧化钠缓冲液控制体系pH为7.0,酶与树脂(质量比1∶8)作用吸附1h后,用0.2mL絮凝剂聚丙烯酰胺(w(PAM)=0.5%)处理,得到活力较高的固定化脂肪酶.固定化酶最适pH9.0,最适温度为45℃,活力为405U/g,酶活回收率可以达到40%.固定化脂肪酶制备简便,可重复使用,稳定性较高.     

混合溶剂系统中固定化脂肪酶对酮基布洛芬的催化酯化反应

以硅藻土吸附的脂肪酶为催化剂,对外消旋酮基布洛芬[2-(3-苯甲酰苯基)丙酸]进行对映选择性酯化反应;考察了不同的脂肪酶制剂,固定化时所加缓冲液的体积与pH值,酰基受体(醇)的种类以及混合溶剂系统的组成等因素对酶活性的影响.结果表明,在所考察的7种脂肪酶中,以LipaseOF的酪化活性最高;用硅藻土吸附固定化酶时,缓冲溶液的最适pH为7.0左右,每克酶粉加1.0mL缓冲溶液为最佳;固定化酶催化酯化的活性比游离的脂肪酶高.在酮基布洛芬与不同酰基受体(醇)的酶促酯化反应中,以丙醇的反应速度为最快.在由一种主溶剂与一种助溶剂组成的混合溶剂系统中,酶促酯化的速度要比在单一的主溶剂或助溶剂系统中快.当以1gP值较大的环己烷或异辛烷等为主溶剂,甲苯为助溶剂时,脂肪酶催化酮基布洛芬酯化反应的活性最高.     

固定化乳酸脱氢酶活性的X射线微区分析

利用X射线微区分析，对吸附法得到的固定化乳酸脱氢酶的活性进行了分析；以乳酸为底物，铁氰化钾及铜离子作为捕捉剂，底物经乳酸脱氢酶及氧化型辅酶NAD^ 的作用下催化产生丙酮酸，反应生成的还原性辅酶NADH使铁氰化物还原为亚铁氰化物，后者和铜离子反应产生具有高电子密度的亚铁氰化铜沉淀，可以确定固定化乳酸脱氢酶的催化活性部位；结果表明，以合成出的大孔吸附树脂为固定化酶载体，其酶活性较高，活性乳酸脱氢酶分布较均匀，得到了固定化乳酸脱氢酶的活性定位的最佳条件，并对不同结构载体固定化酶活性进行了研究。     

交联烯丙基葡聚精凝胶固定化脂肪酸的研究

本文研究了烯丙基葡聚糖和N、N＇－亚甲基双丙烯酰胺经反相悬浮聚合包埋固定化脂肪酶的方法。考察了悬浮介质、交联度对固定化酶的影响，得出了包埋固定化脂肪酶的最佳条件；并测定了固定化脂肪酶的催化性能，确定了该固定化酶催化橄榄油水解的最适条件。     

纳米-微米复合孔泡沫陶瓷固定化脂肪酶

考察了泡沫陶瓷的孔径分布和表面性质对脂肪酶固定化的影响.研究表明,泡沫陶瓷的纳米孔孔径分布非常适合脂肪酶的固定化,对固定化酶的催化效率有决定性的影响.经1h的定化,泡沫陶瓷固定化酶的活性达商业化硅藻土固定化酶的1.33倍,体积活力为其2.63倍,蛋白载量为45.36mg/g陶瓷,比活为1215.39U/g,活力回收为41.2%.泡沫陶瓷固定化脂肪酶在有机相乙酸乙酯合成中表现优良,连续使用5次,每次反应3h,乙酸转化率均在93%左右.     

猪胰脂肪酶的固定化及其在有机相中催化丁酸甲酯和正丁醇的酯交换反应研究

考察了大孔苯乙烯－二乙烯苯交联共聚物的交联度、致孔剂量及胺化试剂对载体固定化猪胰脂肪酶的影响。选择出一种最佳载体对猪胰脂肪酶进行固定化，对比了自由酶和固定化酶在有机相中催化丁酸甲酯和正丁醇的酯交换反应。结果表明，酶经固定化后催化反应活力比自由酶提高近１倍。     

非水相中固定化脂肪酶催化性能的研究

以离子交换树脂为载体,用离子交换吸附法固定化脂肪酶,对影响固定化过程的各种因素进行了考察,确定了最优条件。得到的固定化酶催化合成月桂酸月桂醇酯,考查了在不同lgP值有机溶剂中的催化反应,异辛烷为最佳反应介质,最佳水含量为8％,最佳酸醇摩尔比为1：2,最适催化温度为55℃,得到的活化能Eα为19．00kJ／mol。     

吸附法和溶胶-凝胶法固定化醇脱氢酶比较研究

采用吸附法与溶胶-凝胶(sol-gel)包埋法固定化醇脱氢酶(ADH),对两种方法固定化的ADH的活性进行了比较.采用大孔硅胶为载体对ADH进行吸附,研究了吸附动力学和吸附平衡,得到了吸附动力学曲线和吸附等温线,ADH在硅胶上的吸附等温线可以用Langmuir方程拟合.并且考察了硅胶孔径对ADH吸附量的影响,发现大孔径的硅胶对ADH有着较大吸附量.同时采用sol-gel法对ADH进行包埋固定化.在PH 7.0、25℃下,对两种固定化酶催化甲醛转化为甲醇的反应活性进行比较.由实验测得的反应初速度及拟合得到的米氏常数表明吸附法固定化ADH表现出比sol-gel法固定化ADH高的催化活性.     

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。     

多孔壳聚糖膜固定葡萄糖氧化酶活性的X射线微区分析

甲壳素(chitin)是无脊椎动物,特别是节肢动物,如虾、蟹及昆虫等的外骨骼重要组成部分,其学名为β(1,4)-2-乙酰氨基-2-脱氧-D-葡萄糖。壳聚糖是甲壳素脱乙酰基的衍生物,其结构上具有许多—NH2、—OH等反应基团,对蛋白质具有极高的亲和性,且具有生物相容性好、无毒、可生物降解等     

Process development for production of medium chain triglycerides using immobilized lipase in a solvent-free system

The synthesis of tricaprylin, tricaprin, trilaurin, and trimyristin in a solvent-free system was conducted by mixing a commercial immobilized lipase with the organic reagents (glycerol and fatty acid) in a 20-mL batch reactor with constant stirring. The effects of temperature, fatty acid/glycerol molar ratio, and enzyme concentration on the reaction conversion were determined. The reactions were carried out for 26 h and the nonpolar phase was analyzed by gas chromatography. Appreciable levels of medium chain triglycerides were achieved, except for tricaprylin. The higher selectivity values for the production of triglycerides were attained under the following conditions: a fatty acid/glycerol molar ratio of 5; enzyme concentration of 5 or 9% (w/w); and temperatures of 70°C (tricaprin), 80°C (trilaurin), and 90°C (trimyristin). After completion of the esterification reaction under these conditions, the recovery of the triglyceride and fatty acids, and the reusability of the enzyme were studied. The unreacted fatty acid and the produced triglyceride were satisfactorily recovered. The commercial immobilized lipase was used in 10 consecutive batch reactions at 80°C, with 100% selectivity in the trilaurin and trimyristin synthesis. The possibility of enzyme reuse and the recovery of residual fatty acid are relevant results that contribute to increasing the viability of the process.     

Kinetic properties of soluble and immobilizedCandida rugosa lipase

Immobilized lipase (triacylglycerol ester hydrolase, EC 3.1.1.3) fromCandida rugosa has been immobilized on commercially available microporous polypropylene and used for the batch hydrolysis of different animal fats. The effect of the reaction products at concentrations similar to those obtained at 90% hydrolysis, both on soluble and immobilized lipase, was studied. Glycerol showed low inhibitory effect but oleic acid caused 50% inhibition. A mixture of free fatty acids present in the complete hydrolysis of beef tallow inhibited lipase activity more than 70%. The stability of the enzyme (both soluble and immobilized) was highest in the presence of 20% isooctane. The apparent Michaelis constant for each substrate for the soluble enzyme did not change on immobilization.     

On-line water removal during enzymatic triacylglycerol synthesis by means of pervaporation

Triacylglycerols can be synthesized from glycerol and fatty acids. During this equilibrium reaction water is produced, therefore a mixture of mono-, di- and triesters is obtained. One way to produce an excess of triacylglycerols is to remove the water produced during synthesis. This can be realized in an immobilized enzyme pervaporation system. The enzyme is immobilized onto the lumen side of a cellulose membrane where the organic phase is present. Air circulates at the shell side and the water activity is controlled with the use of a condenser. The lipase catalyzed esterification of decanoic acid and partial glycerides is studied in this reactor. The system is reaction limited. Only at low water activity conditions, an excess of triacylglycerols is obtained. The enzyme activity at the start of the experiments is independent of the water activity within the range studied. Stability is influenced: After 600 hours the activity is 26% of the activity at the start at a_w = 0.1 and 71% at a_w = 0.45.     

Synthesis of SBA-15 from low cost silica precursor obtained from sugarcane leaf ash and its application as a support matrix for lipase in biodiesel production

Ordered mesoporous silica material was synthesized from a low-cost precursor, sugarcane leaf ash, was used as a support matrix for lipase for the production of biodiesel. The mesoporous samples were characterized using Fourier transform infra red spectroscopy. The surface topography and morphology of the mesoporous materials were studied using scanning electron microscope. The pore diameter, pore volume, Brunauer Emmett and Teller surface area of the mesoporous material were determined by N₂ gas adsorption technique. Different pore size Santa Barbara Acid-15 (SBA-15) samples were synthesized and their lipase immobilization capacity and specific enzyme activity of immobilization lipase were determined and compared. Lipase from Candida Antarctica immobilized on SBA-15 (C) had shown maximum percentage immobilization and specific enzyme activity. The immobilized lipase mesoporous matrix was used for biodiesel production from crude non-edible Calophyllum inophyllum oil. The percentage yield of fatty acid methyl ester, 97.6 % was obtained under optimized conditions: 100 mg of lipase immobilized on SBA-15, 6:1 methanol to oil molar ratio, the reaction of 2 g C. inophyllum oil with methanol.     

氨基酸分子改性的SiO2杂化材料用于胰蛋白酶固定化

为改善二氧化硅载体材料本身的生物相容性和疏水性,维持包埋生物分子的活性,本文对水解前驱体3-氨基丙基三甲氧基硅烷进行氨基酸分子改性。具体过程包括N-Fmoc-L-缬氨酸和氯化亚砜反应生成N-Fmoc-L-缬氨酰氯,再和3-氨基丙基三甲氧基硅烷反应生成N-（3-三甲氧基硅基）丙基-N′-Fmoc-L-缬氨酰胺后。然后去除Fmoc,得到N-（3-三甲氧基硅基）丙基-L-缬氨酰胺作为氨基酸修饰的硅源前驱体。通过IR、MS、1H-NMR等分析测试手段对合成得到的各个化合物的结构进行了表征。利用正硅酸甲酯（TMOS）和N-（3-三甲氧基硅基）丙基-L-缬氨酰胺为复合硅源,经过溶胶-凝胶过程来包埋了胰蛋白酶,研究得到最适的固定化条件为,N-（3-三甲氧基硅基）丙基-L-缬氨酰胺的含量为15mol%。在该条件下,固定化胰蛋白酶活力的绝对值是199U,游离酶的酶活力的绝对值是103U, 四甲氧基硅烷直接包埋的固定化酶活力的活性是38 U。在该条件下,杂化硅源得到的固定化酶的活性是以四甲氧基硅烷水解前驱体的固定化酶活性的5倍,杂化硅源固定化胰蛋白酶的最相比游离酶,酶的最高活力提高的几乎2倍。这些结果表明氨基酸分子对水解前驱体修饰以后,水解产生的固定化载体具有良好的生物相容性。通过改性载体制备的固定化酶,对甲醇变性剂的稳定性,对酸碱的抵抗性及热稳定性也有明显地提高。     

Conformational studies of soluble and immobilized frog epidermis tyrosinase by fluorescence

Fluorescence spectra and soluble quenching of intrinsic protein fluorescence were used as indexes of conformational changes suffered by frog epidermis tyrosinase. The activation process and the immobilization of the enzyme involving either free amino groups or its carbohydrate moiety were studied. The conformational changes resulting from denaturation of each one of the protein derivatives, as well as the effect of active center copper extraction, were followed by fluorescence studies. The results showed that: (a) both activation and immobilization were accompanied by conformational changes of the protein leading to more unfolded states; (b) neither enzyme nor immobilized enzyme were fully unfolded upon denaturation although enzymic activity was lost; (c) the enzyme immobilized through its carbohydrate moiety was more unfolded upon denaturation than the enzyme immobilized through amino groups, thus pointing to a higher conformational stabilization in the last situation; and (d), that tryptophyl residues moved to a localization near the active site upon activation.     

单分散磁性纳米粒子固定化猪胰脂肪酶的研究

借助溶热法制备了一种亲水及生物相容良好的Fe3O4磁性纳米粒子,用γ-氨丙基三乙氧基硅烷直接对所得磁性粒子表面改性,然后用戊二醛偶联法制得了固定化猪胰脂肪酶.表征研究显示,所得磁性粒子粒径约200 nm,具有良好的单分散性和磁响应性.考察了戊二醛浓度、给酶量和反应时间对脂肪酶固定化过程的影响,并通过游离酶与固定化酶的比...     

聚乙烯亚胺改性聚丙烯腈中空膜固定脂肪酶

聚丙烯腈是富腈基的高分子聚合物,易修饰改性,广泛应用于膜分离应用.我们以聚丙烯腈中空膜为载体,采用化学法交联聚乙烯亚胺并固定脂肪酶,固定过程中引入海藻酸钠,用CaCl_2进行后处理,得到固定化脂肪酶PAN-PEI-SA/E-CaCl_2载酶量为31.70(mg enzyme)/(g support),酶活为50.20 U/(g support),15次重复使用可保留58.77%的酶活,与游离酶相比耐酸性和耐温性有所提高,相同条件下与Nov 435相比,酶活更高,这表明最终得到的固定化脂肪酶有良好的工业应用前景.