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1.
介孔材料的修饰及固定青霉素酰化酶的稳定性研究   总被引:4,自引:0,他引:4  
利用扩孔剂的作用合成出较大孔径(12 nm)的介孔材料SBA-15, 并进行表面氨基修饰, 以此为载体, 以戊二醛为交联剂, 对青霉素酰化酶进行组装固定, 并对固定化青霉素酰化酶(PGA)的稳定性进行了深入的研究. 实验结果表明, PGA与载体交联后仍保持活性. 热稳定性研究结果表明, 制备的固定化青霉素酰化酶在低于60 ℃时保持稳定; pH在6~11范围内保持稳定; 固定化酶重复使用10次之后, 仍具有高达90%的残留活力.  相似文献   

2.
复合型螯合吸附材料PEI/SiO2对铜离子吸附性能的研究   总被引:2,自引:0,他引:2  
通过γ-氯丙基三甲氧基硅烷的媒介, 将聚乙烯亚胺(PEI)偶联接枝到硅胶微粒表面, 制备了复合型螯合吸附材料PEI/SiO2;研究了PEI/SiO2对Cu2 的吸附性能. 复合型螯合吸附材料PEI/SiO2对Cu2 具有强的螯合吸附能力;等温吸附数据符合Langmuir方程, 且吸附量随温度升高而增大;pH对吸附量有很大的影响, pH 7时, 吸附量最高.  相似文献   

3.
环氧基团可以在温和条件下与酶分子的氨基反应使其固定于载体表面.选用含有活性环氧基团的甲基丙烯酸缩水甘油酯(GMA)和亲水性的N-乙烯吡咯烷酮(NVP)两种单体,以N,N′-亚甲基双丙烯酰胺(MBAA)为交联剂,甲醇水溶液作致孔剂,液体石蜡为主介质,通过反相悬浮聚合技术成功地合成了亲水性大孔GMA-NVP-MBAA三元共聚物载体(GNM).通过调节交联剂的用量和单体NVP与GMA的比例,可以调节载体的孔径、比表面积及在水中的溶胀性能.将巨大芽孢杆菌青霉素酰化酶共价偶联于平均孔径为16.5nm、表面环氧基含量为0.906mmol/g的GNM共聚物载体,制成固定化酰化酶,其表观活性高达625U/g,水解青霉素G钾盐的最适宜温度为50℃,pH值为8.0.固定化酶在4℃保存40d,活性保持不变.经3次使用后,活性达到稳定值(601U/g左右),再经12次使用,活性几乎保持不变.  相似文献   

4.
 以 Span-60 和 Tween-20 为复合分散剂, 以 N,N′-亚甲基双丙烯酰胺为交联剂, 以甲基丙烯酸缩水甘油酯和烯丙基缩水甘油醚为功能性单体, 用反相悬浮聚合技术成功制备了含环氧基团的聚合物载体, 并用红外光谱和低温氮吸附对聚合物载体进行了表征. 以 Span-60 和 Tween-20 为复合分散剂, 替代原有的 Span-60 和硬脂酸钙复合分散剂, 大幅度减少了后处理过程中所需的时间和溶剂用量, 使固定化青霉素酰化酶的活性从 215 U/g 提高到 320 U/g. 与游离酶相比, 该固定化酶具有较好的操作稳定性, 在 pH = 5~11 和不高于 50 oC 的环境中具有较好的稳定性. 固定化酶的水解反应动力学过程与游离酶相同, 均遵循米氏反应动力学, 而且活性与底物浓度密切相关. 当底物浓度为 6.5% 时, 固定化酶的活性最高, 达到 353 U/g.  相似文献   

5.
青霉素酰化酶在甲基丙烯酸缩水甘油酯共聚物上的固定化   总被引:6,自引:0,他引:6  
 用共价键合法将青霉素酰化酶固定化在珠状多孔的甲基丙烯酸缩水甘油酯(GM)共聚物上,研究了固定化反应时间、温度、pH值和酶液用量对固定化青霉素酰化酶的表观活性、表观偶联效率、活性回收及稳定性的影响.将GM共聚物载体加入到磷酸缓冲液(0.1mol/L,pH10.8)与青霉素酰化酶液(每克干载体用酶液1ml)的混合溶液中,在30℃下反应72h,单位质量(干重)固定化酶的表观活性为348U/g,表观偶联效率为66.7%,活性回收为31.7%.  相似文献   

6.
亲水性交联聚合物载体的合成及其固定化青霉素酰化酶   总被引:4,自引:0,他引:4  
选用含环氧基团的甲基丙烯酸缩水甘油酯(GMA)和亲水性的N-乙烯吡咯烷酮(NVP)单体,以N,N′-亚甲基双丙烯酰胺(MBAA)为交联剂,甲酰胺作致孔剂,通过反相悬浮聚合技术成功合成了一系列大孔、珠状GMA-NVP-MBAA三元共聚物载体.N-乙烯吡咯烷酮介入共聚物体系,使共聚物载体具有较强的亲水性,有利于青霉素酰化酶的固定化.通过调节交联剂的用量和单体NVP与GMA的比例,可以调节共聚物载体的孔结构与表面性能.用合成的平均孔径为15.7nm、表面环氧基含量1.11mmol·g-1亲水性珠状载体固定青霉素酰化酶,固定化酶水解青霉素G钾盐的活性达491U·g-1;在4℃保存30d,活性保持不变.经4次使用后活性达到稳定(444U·g-1),再经14次使用后,活性没有明显变化.  相似文献   

7.
青霉素酰化酶在介孔分子筛MCM-41上的固定化研究   总被引:16,自引:0,他引:16  
李晓芬  何静  马润宇 《化学学报》2000,58(2):167-171
通过改变酶固定化时的pH值、温度、时间以及酶用量,研究了固定化条件对MCM-41载体上固定化青霉素酰化酶的酶活及其稳定性的影响,明确了酶活及其稳定性随固定化条件的变化规律,初步分析了青霉素酰化酶在介孔分子筛MCM-41上的固定化过程。  相似文献   

8.
聚丙烯酸载体用于青霉素酰化酶的固定   总被引:3,自引:1,他引:2  
以反应性单体丙烯酸和交联剂二乙烯基苯,以石油醚为致孔剂,通过悬浮聚合制备固定化酶的载体,并用于对青霉素酰化酶的固定。研究了丙烯酸与二乙烯基苯以不同摩尔比对青霉素酰化酶固定活性的影响,以及悬浮聚合时水油相比例的不同所合成的载体对固定化酶性能的影响。当丙烯酸和二乙烯基苯摩尔比为84.2:4时合成的载体固定青霉素酰化酶的酶活为2784U/g,而水油相比为2.75:1(丙烯酸和二乙烯基苯摩洋比为84.2:5)时固定青霉素酰化酶活达到2183U/g。固定青霉素酰化酶可使青霉素转化,得到半合成青霉素的中间体6-氨基青霉烷酸,由此可制成高效、广谱、服用方便的新青霉素。  相似文献   

9.
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。  相似文献   

10.
将甲基丙烯酸缩水甘油酯(GMA)接枝聚合在微米级硅胶微粒表面,又通过环氧基团的开环反应将乙二胺(EDA)键合在接枝微粒表面,制备了双功能复合载体EDA-PGMA/SiO2,通过共价偶联法实施了辣根过氧化酶(HRP)的固定化.本文重点考察静电相互作用与疏水相互作用两种次价键力在共价键合法固定HRP过程中的作用,探讨作用机理.结果表明,在水介质中,复合载体EDA-PGMA/SiO2表面胺基的质子化作用,使载体微粒的ζ电位在较大的pH范围内保持正值;当介质的pH=8.5,大于HRP的等电点时,酶蛋白与载体之间所产生的强静电相互作用会显著促进HRP的固定化;EDA的键合率在30%附近的载体,静电相互作用对固酶的促进作用最强,固定化酶的偶联率与比活力具有最高值.疏水相互作用对化学法固定辣根过氧化酶也会产生明显的作用,当以接枝微粒PGMA/SiO2为载体时,增大NaCl浓度,可有效促进酶蛋白与载体之间的疏水相互作用,提高固定化酶的偶联率与比活力.  相似文献   

11.
介孔材料MCFs的合成及组装青霉素酰化酶的性质研究   总被引:4,自引:0,他引:4  
介孔材料由于具有纳米级规则孔道和巨大的比表面积而在催化、吸附及分离等方面存在较大的应用价值.近年来,由介孔分子筛如MCM-41和SBA-15州等组装功能性材料已成为研究的热点.酶作为高效催化剂有许多优点,但在溶液中易失活,使用后无法回收,有的酶在溶液中还存在自水解问题:将酶组装在介孔材料中制成固定化酶则可解决上述问题.目前已成功地将辣根过氧化物酶  相似文献   

12.
微波辐射高效共价固定青霉素酰化酶   总被引:1,自引:0,他引:1  
为提高青霉素酰化酶的共价固定化效率, 在微波辐射条件下将酶蛋白共价固定于介孔泡沫硅(MCFs)的孔道中. 通过正硅酸四乙酯水解缩合制备介孔泡沫硅, 再于微波辅助下将青霉素酰化酶共价固定在其孔道中. 以固定化酶相对活力和活力回收为指标, 考察了加酶量、固定化温度、微波辐射时间等条件对酶固定化效率的影响. 实验结果表明: 当加酶量为60 mg/g, 固定化温度为20 ℃, 微波辐射140 s, 固定化酶相对活力达到178.1%, 表观活力为1191.3 U/g(以湿重计). 与常规方法相比, 微波辅助固定化酶时, 固定化酶相对活力提高34.5%, 固定化时间亦大幅缩短至数分钟, 这为青霉素酰化酶的高效共价固定化提供了一条新的途径.  相似文献   

13.
Five differenthydrophobic ligands immobilized on 4% (4XL) and 6% (6XL) crosslinked agarose were used to study the single-step purification of penicillin acylase from cell lysate. The 4XL gels showed relatively higher specific activity and recovery than the 6XL gels. In single-step purification, highly active enzyme (42 U/mg) was obtained using moderately hydrophobic ligand (octyl). The crude enzyme immobilized on octyl gel by adsorption showed significant operational stability over a period of 30 d at room temperature. Reactor studies demonstrated the feasibility of hydrophobic ligands as a medium for immobilization.  相似文献   

14.
A hydrotalcite-like Mg2 /Al3 layered double hydroxide (LDH) material was prepared by means of amodified coprecipitation method involving a rapid mixing step followed by a separate aging process. LDH calcined at 500℃ , denoted as CLDH, was characterized by XRD, IR and BET surface area measurements.CLDH has a poor crystalline MgO-like structure with a high surface area and porosity. CLDH was used as asupport for the immobilization of penicillin G acylase(PGA). The effect of varying the immobilization conditions, such as pH, contact time and the ratio of enzyme to support, on the activity of the immobilized enzymein the hydrolysis of penicillin G has been studied. It was found that the activity of the immobilized enzyme decreased slightly with decreasing pH and reached a maximum after a contact time of 24 h. The activity of theimmobilized enzyme increased with increasing the ratio of enzyme to support. It was found that the adsorption of PGA inhibited the expected reaction of CLDH with an aqueous medium to regenerate a LDH phase. Itsoriginal activity(36%) after 15 cycles of reuse of the immobilized enzyme was retained, but no further loss in the activity was observed.  相似文献   

15.
In this work, a new type of penicillin G acylase (PGA)-based monolithic silica support was developed and evaluated for the chiral separation in HPLC. The preparation procedure consisted of two steps: preparation of an epoxy derivatized monolithic silica column and chemical modification of the epoxide groups with the enzyme chiral selector. The epoxy Silica-Rod column for the immobilization of PGA was prepared with the in situ modification process by using epoxy-silanes and the identification of the species bound to the surface was achieved by solid-state nuclear magnetic resonance. The enzyme was covalently immobilized to the surface of the derivatized monolithic column. The enantioselectivity and the performance of the developed column are discussed and compared to the corresponding experimental data obtained with a PGA-based microparticulate (5 microm) silica column.  相似文献   

16.
不同介孔材料固定青霉素酰化酶的稳定性研究   总被引:9,自引:0,他引:9  
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.  相似文献   

17.
在内部分散超顺磁性Fe3O4纳米粒子的二乙烯苯交联聚丙烯酸微球表面引入原子转移自由基聚合(ATRP)引发剂,引发聚合向微球表面分别引入P(GMMA-r-DMAEMA-r-GMA)、P(GMMA-r-DMAEMA)和P(GMMA-r-GMA)无规共聚物刷(GMMA为甲基丙烯酸甘油单酯,DMAEMA为甲基丙烯酸-N,N-二甲氨基乙酯,GMA为甲基丙烯酸缩水甘油酯),聚合物刷中GMMA链节的作用是使聚合物刷具有亲水性,DMAEMA引入氨基,GMA引入环氧基.研究了青霉素G酰化酶在这些载体上的固定化和其酶活性.结果表明,同时引入环氧基和氨基的P(GMMA-r-DMAEMA-r-GMA)刷磁性微球固定化青霉素G酰化酶的活性和活性收率都最高,其固定化动力学比只含环氧基P(GMMA-r-GMA)刷磁性微球的好.固定化酶比自由酶更耐热,固定化酶的最佳pH值比自由酶的略高,固定化酶重复使用10次后其活性保留70%.  相似文献   

18.
高分子载体材料对青霉素酰化酶的固定化作用   总被引:3,自引:0,他引:3  
介绍了天然高分子材料和合成高分子材料对青霉素酰化酶的固定化作用,着重讨论了高分子材料的制备、性质及其表面修饰对固定化酶活性和使用稳定性的影响。  相似文献   

19.
β-Glucosidase is a key enzyme in the hydrolysis of cellulose for producing feedstock glucose for various industrial processes. Reuse of enzyme through immobilization can significantly improve the economic characteristics of the process. Immobilization of the fungal β-glucosidase by covalent binding and physical adsorption on silica gel and kaolin was conducted for consequent application of these procedures in large-scale industrial processes. Different immobilization parameters (incubation time, ionic strength, pH, enzyme/support ratio, glutaric aldehyde concentration, etc.) were evaluated for their effect on the thermal stability of the immobilized enzyme. It was shown that the immobilized enzyme activity is stable at 50 °C over 8 days. It has also been shown that in the case of immobilization on kaolin, approximately 95% of the initial enzyme was immobilized onto support, and loss of activity was not observed. However, covalent binding of the enzyme to silica gel brings significant loss of enzyme activity, and only 35% of activity was preserved. In the case of physical adsorption on kaolin, gradual desorption of enzyme takes place. To prevent this process, we have carried out chemical modification of the protein. As a result, after repeated washings, enzyme desorption from kaolin has been reduced from 75 to 20–25% loss.  相似文献   

20.
Glutaryl-7-aminocephalosporanic acid (GL-7-ACA) acylase isan enzyme that converts GL-7-ACA to 7-aminocephalosporanic acid, a starting material for semisynthetic cephalosporin antibiotics. In this study, optimal conditions for the immobilization of GL-7-ACA acylase were determined by experimental observations and statistical methods. The optimal conditions were as follows: 1.1 M phosphate buffer (pH 8.3) as buffer solution, immobilization temperature of 20°C, and immobilization time of 120 min. Unreacted aldehydegroups were quenched by reaction with a low-molecular-weight material such as l-lysine, glycine, and ethanolamine after immobilization in order to enhance the activity of immobilized GL-7-ACA acylase. The activities of immobilized GL-7-ACA acylase obtained by using the low-molecular-weight materials were higher than those obtained by immobilized GL-7-ACA acylase not treated with low-molecular-weight materials. In particular, the highest activity of immobilized GL-7-ACA acylase was obtained using 0.4% (v/v) ethanolamine. We also investigated the effect of sodium cyanoborohydride in order to increase the stability of the linkage between the enzyme and the support. The effect on operational stability was obvious: the activity of immobilized GL-7-ACA acylase treated with 4% (w/w) sodium cyanoborohydride remained almost 100% after 20 times of reuse.  相似文献   

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