果胶酶固定化方法的研究

用海藻酸钠、二醋酸纤维、明胶分别作为固定化果胶酶的载体,研究比较载体的用量、交联剂的浓度、用酶量、制备的ｐＨ。结果表明,选择１５％浓度的明胶为载体,５％浓度的戊二醛为交联剂,用酶量５％,在ｐＨ３．５条件下制备固定化果胶酶,其酶活力回收率可达６７．７４％,重复回收使用１０次后,酶活力还可保留８０％以上,是果胶酶固定化的一种较好的方法。     

果胶酶固定化方法的研究

用海藻酸钠、二醋酸纤维、明胶分别作为固定化果胶酶的载体,研究比较载体的用量、交联剂的浓度、用酶量、制备的ｐＨ。结果表明,选择１５％浓度的明胶为载体,５％浓度的戊二醛为交联剂,用酶量５％,在ｐＨ３．５条件下制备固定化果胶酶,其酶活力回收率可达６７．７４％,重复回收使用１０次后,酶活力还可保留８０％以上,是果胶酶固定化的一种较好的方法。     

果胶酶的固定化研究

本文研究了以重氮化的对—氨基苯磺酰乙基纤维素为载体制各固定化果胶酶的最适条件,并比较了固定化果胶酶与游离酶的性质。结果表明,最适的固定化果胶酶的条件是：在ｐＨ７．００．１５Ｍ的磷酸盐缓冲液中,按每克载体加入２１６３活力单位的酶的比例进行偶联反应１２小时。在以上最适条件下,固定化果胶酶的表观活力为１９８０Ｕ／ｇ,活力回收率为８７％。与游离酶相比,固定化果过酶作用的最适ｐＨ由４．６移至４．２,最适温度变宽,酶的热稳定性增强,操作稳定性良好,半衰期为３２．５天。     

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对四种不同果汁澄清条件下及效果进行研究，结果表明，固定化果胶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％；ｐＨ３．０－３．５，温度４５－５０℃，反应时间２小时；酶旺每毫升果汁０．０５ｇ固定化果胶酶；澄清时间２０小时。     

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。     

固定化蔗糖酶水解蜂蜜蔗糖的研究

用复合破壁方法从酵母提取蔗糖酶,用海藻酸钙凝胶包埋、戊二醛交联方法制备固定化蔗糖酶,并在40℃下进行脱水处理。对自然酶和固定化酶的酶学性质进行了系统研究。自然酶和固定化酶的最适底物浓度为10％,最适反应时间是120分钟,最适pH是4.0,最适反应温度自然酶是50℃,固定化酶60℃。果糖对自然酶和固定化酶有很强的抑制作用,在果糖和葡萄糖并存情况下抑制作用降低。用固定化蔗糖酶反复水解蜂蜜蔗糖40批,蜂蜜中蔗糖含量由10％下降为5％以下,固定化蔗糖酶仍保持75％水解酶活力。     

固定化β淀粉酶的制备及其性质

对β-硫酸酯乙飘基苯胺(SESA)与环氧氯丙烷交联琼脂糖反应,制得对氨基苯砜乙基(ABSE)交联琼脂糖,经重氯化后与β-淀粉酶偶联制成固定化酶。研究了载体的苯胺基含量、PH)、巯基乙醇等因素对酶偶联反应的影响。尤其是巯基乙醇的存在,可使固定化酶活力明显提高。固定化酶活力可达120u／ml,活力回收为38％,相对活力为45％。固定化β-淀粉酶的最适pH和最遗温度与自然酶相似,以可溶性淀粉为底物时,固定化酶的米氏常数是自然酶(Km=0．0057(％))的8倍。将固定化酶装柱,连续水解可溶性淀粉,在45℃下连续操作;50天后,酶活力未见下降,在50℃下28天后,还保留活力50%左右。     

木瓜蛋白酶在飘珠上的固定化和红外活化

用火电厂的废物——飘珠作载体,将木瓜蛋白酶固定化得到成功,比活力为天然酶的26.6％。但发现,采用适当的红外辐射又可使固定化酶活力提高约30％。     

二氧化硅纳米材料固定中性脂肪酶的条件优化及其特性

以二氧化硅纳米材料为载体,采用吸附法对脂肪酶进行固定化,研究了不同条件对固定化脂肪酶的催化活性的影响,得到最佳的固定化条件:给酶量为28300U/g,固定化温度为45oC,pH值为7.5,时间为10h,此时固定化酶的活力约为3867U/g载体。固定化酶的最适反应温度为45oC,比游离酶的反应温度高5oC,最适pH下降到5.5,低于游离酶的反应pH(pH7)。固定化酶的热稳定性和pH稳定性较游离酶有了很大的提高,其在70oC以下能保持70%以上的酶活力,而游离酶在50oC下残余酶活力仅为30%。在pH5～8的范围内,固定化酶的酶活力能保持50%以上,而游离酶只能保持20%左右。用固定化的中性脂肪酶催化不同的油品,即大豆油、菜籽油及泔水油生产生物柴油,菜籽油的酯化率最高。     

共价法固定化胰蛋白酶的研究

碳二亚胺、环氧等方法研究了胰蛋白酶的共价固定化,测定了这些方法的固定化酶蛋白回收、固定化酶活力回收和固定化酶的相对比活力。实验结果表明前三种方法效果较好,蛋白回收分别为59%、93％和28％,活力回收为53％、38％和20％,考察了这三种固定化胰蛋白酶的最适温度、最适pH、表观米氏常数和工作稳定性。此外,本文对上述三种不同的固定化方法引起酶对大分子底物(偶氮酪蛋白)和小分子底物(BAPNA)的活力的影响也作了初步的探讨。     

Phenylalanine ammonia-lyase immobilized in semipermeable microcapsules for enzyme replacement in phenylketonuria

Phenylalanine ammonia-lyase immobilized within semipermeable microcapsules has an assayed enzyme activity which is 20% +/- 4% of the enzyme in free solution. The Km for the immobilized enzyme remained the same as that of the free enzyme. The pH optimum also remained unchanged at pH 8.5 +/- 1.0. At the lower pH range, enzyme activity is higher for the immobilized enzyme. Daily oral administration of microencapsulated phenylalanine ammonia-lyase to phenylketonuric rats decreased the systemic phenylalanine level by 35 +/- 8% in 2 days (P less than 0.05) and by 75 +/- 8% in 7 days (P less than 0.001).     

The structure and function of ribonuclease T1 XXIV. Preparation and properties of a stable water-insoluble polyacrylamide derivative of ribonuclease T1.

Ribonuclease T1 [EC 3.1.4.8] was coupled to a water-insoluble cross-linked polyacrylamide (Enzacryl AH) by the acid azide method. The immobilized enzyme exhibited about 45% and 77% of the original activity toward yeast RNA and 2', 3-cyclic GMP, respectively, as substrates. Although the specific activity was lowered by the coupling, the immobilized enzyme was found to be far more stable to heat and extremes of PH than the native enzyme. The immobilized enzyme was active toward RNA even above pH 9 (at 37 degree C) or above 60 degree C (at pH 7.5), where the native enzyme was inactive. The immobilized enzyme retained much of its activity as assayed at 37 degree C after incubation in the range of pH 1 to 10 at 37 degree C, or after heating at 100 degree C (at pH 7.5) under conditions where the native enzyme was inactivated to a considerable extent. The enzyme derivative could be repeatedly recovered and reused without much loss of activity. The active site glutamic acid-58 in the immobilized enzyme appeared to be nearly as reactive with iodoacetate as that in the native enzyme.     

Production of levan using recombinant levansucrase immobilized on hydroxyapatite

Levansucrase of Zymomonas mobilis was immobilized onto the surface of hydroxyapatite by ionic binding. Optimum conditions for the immobilization were: pH 6.0, 4 h of immobilization reaction time, and 20 U of enzyme/g of matrix. The enzymatic and biochemical properties of the immobilized enzyme were similar to those of the native enzyme, especially towards the effect of salts and detergents. The immobilized enzyme showed sucrose hydrolysis activity higher as that of the native enzyme, but levan formation activity was 70% of the native enzyme. HPLC analysis of levan produced by immobilized enzyme showed the presence of two different types of levan: high-molecular-weight levan and low-molecular-weight levan. The proportion of low-molecular-weight levan to total levan produced by the immobilized enzyme was much higher than that with the native enzyme, indicating that immobilized levansucrase could be applied to produce low-molecular-weight levan. Immobilized levansucrase retained 65% of the original activity after 6 times of repeated uses and 67% of the initial activity after 40 d when stored at 4 °C.     

Immobilized flounder muscle glyceraldehyde 3-phosphate dehydrogenase

Summary Partially purified flounder muscle (Pseudopleuronectus americanus) glyceraldehyde 3-phosphate dehydrogenase was immobilized on cyanogen bromide-activated Sepharose. The catalytic properties of the immobilized preparation were studied to determine if immobilization alters the kinetic properties of the native holoenzyme. The results indicate that the pH activity profile of immobilized glyceraldehyde 3-phosphate dehydrogenase did not differ from that of the native enzyme. The Michaelis constants (Km) for NAD and glyceraldehyde 3-phosphate were somewhat altered. The enzyme stability toward various inactivation treatments in the presence and absence of NAD was characterized and compared to that of he native enzyme. When either form of the enzyme was incubated with urea at concentrations greater than 2m, inactivation occurred very rapidly. Incubation in 0.1% trypsin for 60 minutes decreased the activity of immobilized glyceraldehyde 3-phosphate dehydrogenase by 45% and of the native soluble enzyme by 70%. The immobilized enzyme also exhibited considerably more stability than the native soluble enzyme when exposed to a temperature of 50° or to 20 mm ATP. In all cases NAD either greatly reduced the rate of inactivation or completely protected the enzyme from inactivation.     

Reversible thermal denaturation of immobilized rhodanese

For the first time, the enzyme rhodanese had been refolded after thermal denaturation. This was previously not possible because of the strong tendency for the soluble enzyme to aggregate at temperatures above 37 degrees C. The present work used rhodanese that was covalently coupled to a solid support under conditions that were found to preserve enzyme activity. Rhodanese was immobilized using an N-hydroxymalonimidyl derivative of Sepharose containing a 6-carbon spacer. The number of immobilized competent active sites was measured by using [35S]SO3(2-) to form an active site persulfide that is the obligatory catalytic intermediate. Soluble enzyme was irreversibly inactivated in 10 min at 52 degrees C. The immobilized enzyme regained at least 30% of its original activity even after boiling for 20 min. The immobilized enzyme had a Km and Vmax that were each approximately 3 times higher than the corresponding values for the native enzyme. After preincubation at high temperatures, progress curves for the immobilized enzyme showed induction periods of up to 5 min before attaining apparently linear steady states. The pH dependence of the activity was the same for both the soluble and the immobilized enzyme. These results indicate significant stabilization of rhodanese after immobilization, and instabilities caused by adventitious solution components are not the sole reasons for irreversibility of thermal denaturation seen with the soluble enzyme. The results are consistent with models for rhodanese that invoke protein association as a major cause of inactivation of the enzyme. Furthermore, the induction period in the progress curves is consistent with studies which show that rhodanese refolding proceeds through intermediate states.     

枯草芽孢杆菌FM208849产果胶酶的固定化及酶学性质研究

为了提高游离果胶酶的稳定性,对罗布麻脱胶具有特异性的枯草芽孢杆菌(FM208849)进行产果胶酶发酵时,采用交联酶聚集体(CLEAs)技术制备固定化果胶酶,并对交联果胶酶聚集体的制备条件、酶学性质进行研究。结果表明,游离果胶酶经80%饱和硫酸铵沉淀后,在30℃,经4%的戊二醛溶液交联135 min,所形成的交联果胶酶聚集体的活回收率为61.5%,其最适反应温度45℃和最适pH10,在对交联果胶酶聚集体的热稳定性和有机溶剂稳定性分析中,均显示了比游离酶更高的稳定性。     

Cholesterol oxidation using hollow fiber dialyzer immobilized with cholesterol oxidase: preparation and properties

The surface of polyacrylonitrile hollow fibers were hydrolyzed and covalently bonded with cholesterol oxidase (COD) via glutaraldehyde. The immobilized amount of the COD increased with the concentration of glutaraldehyde. However, COD immobilized with 10% glutaraldehyde had higher activity than with other concentrations. The stabilities of immobilized COD to pH and temperature were higher than those of native enzyme. The immobilized enzyme retained 80% of initial activity after 15 days when stored at 4 degrees C, which was longer than native COD. After being reused six times, the COD-immobilized hollow fiber retained more than 80% of the activity.     

磁性固定化胰蛋白酶的催化特性及应用的研究

详细研究了磁性固定化胰蛋白酶的催化特性,并与溶液酶进行比较,发现胰蛋白酶经固定化后最适pH值向碱性方向移动了1．0个pH单位,最适温度提高了5℃,K值略有增大。对该固化酶的热稳定性和操作稳定性也进行了研究,结果表明,胰蛋白酶经固定化后热稳定性明显提高,操作稳定性也得到了一定的改善,经3次重复使用后,活性保持43．8％,对啤酒澄清和裸皮软化显示较好的应用前景。     

胰蛋白酶的固定化及其性质研究

 以自制的脱乙酰壳多糖作载体,戊二醛为交联剂,对胰蛋白酶的固定化条件及其固定化酶的性质进行了研究。考查了交联剂的用量、pH值、以及载体与酶的比例等因素对胰蛋白酶固定化的影响。在所选择的固定化条件下,固定化酶的活性回收可达50％以上。同时研究了固定化胰蛋白酶的一些性质;最适温度60℃,最适PH8.0,Km值比可溶性酶升高,热稳定性、pH贮存稳定性以及在乙醇水溶液中的稳定性明显高于可溶性胰蛋白酶。在柱式反应器内,以2％酪蛋白为底物对,操作半衰期为40天。