Immobilization and kinetics of catalase onto magnesium silicate

Bovine liver catalase was immobilized covalently with glutaraldehyde, or glutaraldehyde+3-aminopropionic acid as a spacer, onto magnesium silicate. The coupling time was determined as 2 h for immobilization. The pH and temperature optima as well as the changes in the kinetics (K_m, V_max, E_a) of the immobilized catalase was observed and discussed. Immobilized catalase preparations showed higher storage stabilities than free catalase. The half-life of free catalase, catalase immobilized via glutaraldehyde and catalase immobilized via glutaraldehyde+spacer were calculated as 2, 55 and 10 days at room temperature and 4, 85 and 107 days at 5 °C, respectively. The operational stability of the catalase immobilized via glutaraldehyde was higher than the catalase immobilized via glutaraldehyde+spacer. The remaining activity of the catalase immobilized via glutaraldehyde was about 90% and that of the catalase immobilized via glutaraldeyde+spacer was about 30% after 20 cycles of batch operation.     

L-DOPA production from tyrosinase immobilized on nylon 6,6

The production of L-DOPA immobilized on chemically modified nylon 6,6 membranes was studied in a batch reactor. Tyrosinase was immobilized on nylon using glutaraldehyde as a crosslinking agent. The effects of membrane pore size and glutaraldehyde concentration upon enzyme uptake and L-DOPA production were investigated. Enzyme uptake was unaffected by glutaraldehyde concentration; approximately 70% uptake was observed when 25% w/v (group 1), 5% (group 2), and 3% (group 3) glutaraldehyde were used, indicating that glutaraldehyde was in excess. Similarly, uptake was the same for membranes with 0.20 and 10 mum pore sizes.Membranes produced using different levels of glutaraldehyde exhibited dramatically different capacities for L-DOPA production, despite the fact that enzyme uptake was equivalent. Membranes from groups 2 and 3 (5% and 3% glutaraldehyde) produced L-DOPA at a rate of 1.70 mg L(-1) h(-1) over 170 h in a 500-mL batch reactor. However, no free L-DOPA was detected when group 1 membranes were used. Experimental evidence suggests that L-DOPA was produced, but remained bound to these membranes via excess glutaraldehyde left over from the immobilization process. Membrane pore size also effected L-DOPA production; less production was observed when 10-mum membranes were used, despite equivalent enzyme uptake. The observed difference in production may be due to differences in the pore density on the two types of membranes which could affect the access of the substrate to the immobilized enzyme.The results of these studies indicate that tyrosinase can be effectively immobilized on nylon 6,6. L-DOPA production was optimal when 0.20-mum-pore-size membranes were activated with 3-5% glutaraldehyde. Stability studies indicated a 20% reduction in activity over 14 days when the immobilized enzyme was used under turnover conditions. (c) 1996 John Wiley & Sons, Inc.     

Covalent immobilization of catalase onto spacer-arm attached modified florisil: characterization and application to batch and plug-flow type reactor systems

Catalase was covalently immobilized onto florisil via glutaraldehyde (GA) and glutaraldehyde+6-amino hexanoic acid (6-AHA) (as a spacer arm). Immobilizations of catalase onto modified supports were optimized to improve the efficiency of the overall immobilization procedures. The V(max) values of catalase immobilized via glutaraldehyde (CIG) and catalase immobilized via glutaraldehyde+6-amino hexanoic acid (CIG-6-AHA) were about 0.6 and 3.4% of free catalase, respectively. The usage of 6-AHA as a spacer arm caused about 40 folds increase in catalytic efficiency of CIG-6-AHA (8.3 × 10? M?1 s?1) as compared to that of CIG (2.1 × 10? M?1 s?1). CIG and CIG-6-AHA retained 67 and 35% of their initial activities at 5 °C and 71 and 18% of their initial activities, respectively at room temperature at the end of 6 days. Operational stabilities of CIG and CIG-6-AHA were investigated in batch and plug-flow type reactors. The highest total amount of decomposed hydrogen peroxide (TAD-H?O?) was determined as 219.5 μmol for CIG-6-AHA in plug-flow type reactor.     

氨基化硅胶载体固定化纤维素酶的研究

用硅胶作载体,戊二醛作交联剂,制备了固定化的纤维素酶。对制备固定化纤维素酶的偶联剂浓度、pH、给酶量3个影响因素进行了研究,通过正交试验优化得出最佳的固定化条件:交联剂戊二醛浓度为1%,固定化pH值为5,固载量为每克载体100mg纤维素酶。     

Immobilization of Papain on the Mesoporous Molecular Sieve MCM‐48

The immobilization of papain on the mesoporous molecular sieve MCM‐48 (with a pore size of 6.2 nm in diameter) with the aid of glutaraldehyde, and the characteristics of this immobilized papain are described. The optimum conditions for immobilization were as follows: 20 mg native free enzyme/g of the MCM‐48 and 0.75 % glutaraldehyde, 2 h at 10–20 °C and pH 7.0. Under these optimum conditions for immobilization, the activity yield [%] of the immobilized enzyme was around 70 %. The influence of the pH on the activity of the immobilized enzyme was much lower compared to the free enzyme. The thermostability of the immobilized enzyme, whose half‐life was more than 2500 min, was greatly improved and was found to be significantly higher than that of the free enzyme (about 80 min). The immobilized enzyme also showed good operational stability, and the activity of the immobilized enzyme continued to maintain 76.5 % of the initial activity even after a 12‐day continuous operation. Moreover, the immobilized enzyme still exhibited good storage stability. From these results, papain immobilized on the MCM‐48 with the aid of glutaraldehyde, can be used as a high‐performance biocatalyst in biotechnological processing, in particular in industrial and medical applications.     

A natural compound (reuterin) produced by Lactobacillus reuteri for hemoglobin polymerization as a blood substitute

Stroma-free hemoglobin (Hb) has been modified by pyridoxylation and followed by polymerization with glutaraldehyde as a blood substitute. Nevertheless, the reaction rate of pyridoxylated Hb (PLP-Hb) with glutaraldehyde is too fast to control its molecular weight distribution. Additionally, it was reported that glutaraldehyde is cytotoxic even at low doses. To overcome these problems, another aldehyde, beta-hydroxypropionaldehyde (beta-HPA), was used in the study to polymerize hemoglobin (PLP-Hb). beta-HPA is a natural compound (reuterin) produced by Lactobacillus reuteri. It was found that the maximum degree of PLP-Hb polymerization by reuterin (RR-PLP-Hb) was approximately 40% if the formation of high molecular (> 500 kDa) polymers should be prevented. In contrast, at the same reaction condition, the glutaraldehyde-polymerized PLP-Hb solution became gel-like, due to overpolymerization. This indicated that the rate of PLP-Hb polymerization by reuterin was significantly slower than that by glutaraldehyde. With increasing the reaction temperature, PLP-Hb concentration, or reuterin-to-PLP-Hb molar ratio, the time to reach the maximum degree of PLP-Hb polymerization by reuterin became significantly shorter. Removal of unpolymerized PLP-Hb from the RR-PLP-Hb solution can be effectively achieved by a gel-filtration column. The P(50) value of the unmodified Hb solution was 14 torr, while that of the RR-PLP-Hb solution was 20 torr, an indication of lower oxygen affinity. Additionally, the oxygen-Hb dissociation curves for both test solutions had a sigmodial shape and a nearly 100% saturation at 100 torr. In the in vivo study, it was found that the animals treated with the RR-PLP-Hb solution all survived and remained healthy more than 3 months. In contrast, only one out of six rats survived for the control group treated with the unmodified Hb solution. Furthermore, it was found that the RR-PLP-Hb solution resulted in a significantly longer circulation time ( approximately 12 h) than the unmodified Hb solution ( approximately 1.5 h). These results suggest that the reuterin-polymerized PLP-Hb solution may be a new option in the development of blood substitutes.     

烟草多酚氧化酶的分离与固定化技术研究

多酚氧化酶属于氧化还原酶类,国际酶学委员会推荐名为儿茶酚氧化酶（ＥＣ１．１０．３．１ｐｏｌｙｐｈｅｎｏｌｏｘｉｄａｓｅ,ＰＰＯ）．该酶与食品工业、三废处理、医药卫生关系较为密切,因而研究较多．如近年来鸭梨［１］、蘑菇［２］、香蕉果肉组织［３］、荔枝果皮［４］等等中的多酚氧化酶均有研究报道．目前研究用固定化多酚氧化酶检测废水中酚类物质含量,进行环境检测;及其从工业废水中除去酚类,达到治理三废的目的．Ｍｏｓｂａｃｎ［５］（１９７６）研制成多酚氧化酶固定化酶柱,与氧电极检测器组合联用,可检测水中２０…     

The quaternary structure of tetrameric hemoglobin regulates the oxygen affinity of polymerized hemoglobin

This study focuses on the effect of the initial quaternary structure of bovine hemoglobin (Hb) on the physical properties of glutaraldehyde polymerized Hb (PolyHb) solutions. Tense (T) state PolyHb was synthesized by maintaining the pO₂ of Hb before and after polymerization at 0 mm Hg. In contrast, relaxed (R) state PolyHb was generated by maintaining the pO₂ of Hb before and after polymerization to >749 mm Hg. PolyHb solutions were characterized by measuring the pO₂, methemoglobin (metHb) level, molecular weight distribution, O₂ affinity and cooperativity coefficient. The metHb level of all PolyHb solutions was low (<2%). Analysis of the molecular weight distribution of PolyHb solutions indicates that in general, the molecular weight of PolyHb solutions increased with increasing cross‐link density. T‐state PolyHb solutions exhibited lower O₂ affinity compared to unmodified Hb, whereas R‐state PolyHb solutions exhibited higher O₂ affinity compared to unmodified Hb. In addition, the polymerization reaction resulted in a significant decrease in cooperativity that was more pronounced at higher cross‐link densities. All of these results were explained in terms of the quaternary structure of Hb. Taken together, our results yield more insight into the importance Hb's quaternary structure plays in defining the physical properties of glutaraldehyde PolyHb solutions. This information will be useful in designing optimized glutaraldehyde PolyHb oxygen carriers for various applications in transfusion medicine. © 2009 American Institute of Chemical Engineers Biotechnol. Prog. 2009     

Convenient one-step purification and immobilization of lipase using a genetically encoded aldehyde tag

To avoid the unwanted and random covalent linkage between the cross-linker and enzyme's active site in covalent immobilization, a genetically encoded “aldehyde tag” was introduced into recombinant lipase and applied for the one-step purification and covalent immobilization of this enzyme. The effects of the immobilization time, temperature and the amount of enzyme were investigated, and the thermo-stability of immobilized lipase was also examined. The specific activity and the k_cat/K_m of the immobilized lipase using aldehyde tag (IL-AT) were 2.50 and 3.02 fold higher, respectively, than those of the traditionally immobilized lipase using glutaraldehyde (IL-GA). The newly immobilized lipase also presented better thermo-stability than the traditionally immobilized one. The results show that the recombinant enzyme could be conveniently immobilized without glutaraldehyde and that the enzyme's active site was well protected. This is a new immobilization method able to avoid glutaraldehyde or 2,4,6-trichloro-1,3,5-triazine as an activating agent. The greener method without hazardous chemicals for the one-step purification and immobilization of an enzyme using a genetically encoded “aldehyde tag” can be exploited for numerous other enzyme purification and immobilization applications.     

金属框架结构材料MOF-199对漆酶的固定化及其性质

以金属框架结构材料MOF-199为载体对漆酶进行固定化,并对固定化酶的性质进行初步研究。首先,以3-氨基丙基三乙氧基硅烷对载体MOF-199进行表面氨基化修饰,再用戊二醛对载体进行活化,最后对漆酶进行固定化。固定化条件优化结果表明:在漆酶质量浓度0.3 g/L,戊二醛用量1%(体积分数),pH 4.8下固定7 h,制得固定化酶活性最高。对固定化酶的研究发现:最适反应温度为40℃,最适pH为5.2,在连续操作7次后,固定化酶的活力仍能保持在51%。固定化漆酶热稳定性,pH耐受性,贮存稳定性均明显高于游离漆酶。     

α-Amylase immobilization on gelatin: Optimization of process variables

α-Amylase was extracted and purified from soybean seeds to apparent homogeneity by affinity precipitation. The homogeneous enzyme preparation was immobilized on gelatin matrix using glutaraldehyde as an organic hardener. Response surface methodology (RSM) and 3-level-3-factor Box–Behnken design was employed to evaluate the effects of immobilization parameters, such as gelatin concentration, glutaraldehyde concentration and hardening time on the activity of immobilized α-amylase. The results showed that 20% gelatin (w/v), 10% glutaraldehyde (v/v) and 1 h hardening time yielded an optimum immobilization of 82.5%.     

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.     

Immobilization of Escherichia coli cells containing aspartase activity with kappa-carrageenan. Enzymic properties and application for L-aspartic acid production.

Whole cells of Escherichia coli having high aspartase (L-asparate ammonialyase, EC 4.3.1.1) activity were immobilized by entrapping into a kappa-carrageenan gel. The obtained immobilized cells were treated with glutaraldehyde or with glutaraldehyde and hexamethylenediamine. The enzymic properties of three immobilized cell preparations were investigated, and compared with those of the soluble aspartate. The optimum pH of the aspartase reaction was 9.0 for the three immobilized cell preparations and 9.5 for the soluble enzyme. The optimum temperature for three immobilized cell preparations was 5--10 degrees C higher than that for the soluble enzyme. The apparent Km values of immobilized cell preparations were about five times higher than that of the soluble enzyme. The heat stability of intact cells was increased by immobilization. The operational stability of the immobilized cell columns was higher at pH 8.5 than at optimum pH of the aspartase reaction. From the column effluents, L-aspartic acid was obtained in a good yield.     

Immobilization of glucoamylase on polyamide nets

The formation of reactive groups on polyamide nets (nylon 6) and the subsequent immobilization of glucoamylase were investigated. Different mesh sizes of the nets and two chemical methods of enzyme coupling - i( partial hydrolysis of the polyamide with subsequent glutaraldehyde binding and ii) O-alkylation of the carrier using a treatment with a benzene-methyl sulphate mixture – were used. The reactivity of immobilized glucoamylase (GA) was tested by hydrolysis reactions using 1% starch solutions. The highest reactivity (140 μg glc/)min × cm² was obtained for methylated nylon samples attached to a glass rod and by coupling glucoamylase on the nylon surface which had been treated with lysine and glutaraldehyde. This method resulted in a more reactive and more stable preparation of immobilized glucoamylase as compared to a simpler method of coupling glutaraldehyde to partially hydrolyzed nylon.     

Preparation and in vivo evaluation of two bovine hemoglobin-based plasma expanders

A hemoglobin (Hb)-based oxygen carrier was successfully transfused into rats. An ultrapure lipid-free bovine Hb was prepared by hypotonic dialysis and ultrafiltration. The Hb was polymerized with glutaraldehyde and the P50 was 24.3 mm Hg. On the basis of immunological analysis, immuno-dot blot, the Hb preparations were not antigenic. A second transfusion produced no adverse immunological side effects. A right shift in P50 was obtained by further treatment of polymerized Hb with inositol hexaphosphate; however, this Hb preparation was unsuitable for transfusion as all animals died within a few minutes. A 30% exchange transfusion in rats with the polymerized bovine Hb resulted in a 100% survival of all animals. P50 values of treated animals were reduced by about 2 mm Hg for 14 days. The Hb product circulated for 14 days as determined by 51Cr labeling. Ultrapure bovine Hb has the potential to circulate and carry oxygen in rats and causes no immunological side effects.     

Preparation and characterization of dimeric bovine hemoglobin tetramers

Dimeric bovine hemoglobin (Hb) tetramers were prepared by a one-step solid phase adsorption method. Briefly, Hb was absorbed by the solid phase, Q Sepharose Fast Flow media, followed by reaction with the glutaraldehyde and elution procedure. Then, dimeric bovine Hb tetramers were formed and purified from Hb tetramers by anion-exchange chromatography based on Protein-Pak DEAE 8HR. The dimeric Hb tetramer showed a P50 value of 15.9 mm Hg, oxygen transporting efficiency of 14.2%, and Hill coefficient of 1.72. The number of Bohr protons released for dimeric Hb tetramers was 0.59 H/tetramer, which was 39% of that of native bovine Hb. The number of chloride ions released on oxygenation was 0.60/tetramer for dimeric Hb tetramers, which was 46% of that of native bovine Hb.     

固定化黑曲霉β-葡萄糖苷酶制备染料木素活性苷元的研究

比较了以海藻酸钠为载体,用胶囊法、包埋-交联法、交联-包埋法三种不同方法固定化黑曲霉β-葡萄糖苷酶的效果,并研究了最佳固定化方法的固定化条件和固定化酶的部分性质。结果表明,交联-包埋法即β-葡萄糖苷酶与0.20%戊二醛交联后再用2.0%海藻酸钠包埋的固定化方法中酶结合效率和酶活力回收率最高。海藻酸钠浓度和戊二醛浓度对酶结合效率影响较大,戊二醛浓度和包埋颗粒直径大小对酶活力回收率影响显著。与游离酶相比,制备的固定化酶最适温度、最适pH值和Km值分别由50℃、4.5和2.57μg/mL下降到40℃、4.0和2.02μg/mL。固定化酶具有更强的耐酸性和稳定性。该固定化酶用于大豆异黄酮活性苷元染料木素的合成,重复使用6次后,固定化酶的活力仍保持84.94%,染料木苷转化率为56.04%。     

Enhanced stabilization of mungbean thiol protease immobilized on glutaraldehyde-activated chitosan beads

A thiol protease purified from mungbean seedlings was immobilized on chitosan beads cross-linked with glutaraldehyde. The yield of the immobilized enzyme was maximum (～99%) at 1% concentration each of chitosan and glutaraldehyde. The immobilized enzyme showed reusability for 15 batch reactions. Immobilization shifted the optimum pH of the enzyme to a more acidic range and enhanced its stability both at acidic as well as alkaline pH values compared to the free enzyme. The stability of the enzyme to temperature and in aqueous non-conventional medium (ethanol and DMSO) was significantly improved by the immobilization process. The immobilized enzyme exhibited mass transfer limitation reflected by a higher apparent K_m value. This study produced an immobilized biocatalyst having improved characteristics and better operational stability than the soluble enzyme. The increase in stability in the presence of high concentrations of ethanol and DMSO may make it useful for catalyzing organic reactions such as trans-esterification and trans-amidation similar to other cysteine proteinases.     

壳聚糖球固定化酵母细胞的研究

以戊二醛为交联剂,将壳聚糖球交联引入醛基,然后将交联的壳聚糖球浸泡在酵母细胞悬浮液中,制备了固定化酵母细胞壳聚糖球。以苯乙酮酸为底物,催化合成了D-扁桃酸。最优固定化条件是戊二醛的质量分数w(GA)=1%,酵母细胞与交联壳聚糖球的质量比m(Y):m(CB)0=0.5,交联时间为6h,固定化时间为18h,底物浓度为10mmol/L,在此条件下反应最大转化率和产物光学纯度分别高达67.86%和98.05?。固定化酵母壳聚糖球具有良好的重复使用性和贮存稳定性。     

Direct electrochemistry and electrocatalysis of hemoglobin immobilized on carbon paste electrode by silica sol-gel film

Direct electrochemical and electrocatalytic behaviors of hemoglobin (Hb) immobilized on carbon paste electrode (CPE) by a silica sol-gel film derived from tetraethylorthosilicate (TEOS) were investigated for the first time. Hb/sol-gel film modified electrodes showed a pair of well-defined and nearly reversible cyclic voltammetric peaks for Hb Fe(III)/Fe(II) redox couple at about -0.312 V (versus Ag/AgCl) in a pH 7.0 phosphate buffer. The formal potential of Hb heme Fe(III)/Fe(II) couple varied linearly with the increase of pH in the range of 5.0-10.0 with a slope of 49.44 mV pH(-1), which suggests that a proton transfer is accompanied with each electron transfer (ET) in the electrochemical reaction. The immobilized Hb displayed the features of peroxidase and gave excellent electrocatalytic performance to the reduction of O2, NO2(-) and H2O2. The calculated apparent Michaelis-Menten constant was 8.98 x 10(-4)M, which indicated that there was a large catalytic activity of Hb immobilized on CPE by sol-gel film toward H2O2. In comparison with other electrodes, the chemically modified electrodes, used in this direct electrochemical study of Hb, are easy to be fabricated and rather inexpensive. Consequently, the Hb/sol-gel film modified electrode provides a convenient approach to perform electrochemical research on this kind of proteins. It also has potential use in the fabrication of the third generation biosensors and bioreactors.