介孔SiO2/Fe3O4中空磁性微球的漆酶固定化

以介孔SiO2/Fe3O4磁性中空微球作为载体,采用物理吸附法对漆酶进行固定化,考察了时间、温度和pH值对漆酶固定化效果的影响,并对固定漆酶的活性及稳定性进行了研究.结果表明,介孔SiO2/Fe3O4磁性中空微球吸附漆酶分子后,介孔材料的比表面积与孔体积均减小.在3 h时复合微球对漆酶的吸附达到平衡,复合微球中介孔SiO2对漆酶的有效固定量为689 mg/g,大大高于纯介孔材料MCM-41的漆酶固定量(319 mg/g).在pH=3～6的条件下,复合微球中固定漆酶仍保持70%以上的相对酶活.当温度不高于60℃时,固定漆酶的相对酶活仍保持65%以上.固定漆酶的pH稳定性和热稳定性都明显优于游离漆酶,固定漆酶的米氏常数为1.05 mmol/L,与游离漆酶相比,固定漆酶与底物的亲和力有所降低.当2,4-二氯苯酚的浓度为10 mg/L时,固定漆酶对其去除率在6 h时达到81.6%,表现出很好的催化活性.     

一步法制备聚脲多孔材料及其对染料的吸附

以甲苯二异氰酸酯为单体, 在水和丙酮混合溶剂中不用致孔剂且无需任何高分子改性一步法合成了聚脲多孔材料(PPU), 通过扫描电镜和BET氮气吸附法对其表面形貌和孔参数进行了表征. 以酸品红(AF)溶液模拟染料废水, 对其在PPU上的吸附进行了研究, 讨论了pH、 吸附时间、 AF初始浓度及吸附剂用量对吸附过程的影响, 优化了吸附条件. 结果表明, PPU对染料AF具有优异的吸附效果. PPU在30℃, pH=3时对AF的最大吸附量为44.60 mg/g. PPU对AF的吸附过程更接近于Langmuir等温吸附的单分子层吸附机理. PPU对水溶性染料刚果红(CR)也有很好的吸附能力. 使用水、 乙醇和水混合溶剂以及NaOH水溶液对染料吸附后的解吸附结果表明, 乙醇和水混合溶剂对吸附染料的解吸效率最高, 对2种染料的解吸附都达90%以上. 解吸后PPU的再吸附能力略有下降, 但第三次吸附量仍达到首次吸附的80%以上.     

酶法获得的多肽库用于新型手性固定相的制备

采用胰蛋白酶酶解牛血清白蛋白,将制备的酶解液超滤,得到相对分子质量小于6000的小分子多肽库。应用羰基咪唑法将该多肽库键合至多孔硅胶,得到一种新型手性固定相。应用该新型手性固定相成功地拆分了两种氨基酸对映体。     

改性环糊精气相色谱手性固定相拆分对映体的选择性及拆分机理的讨论

改性环糊精气相色谱手性固定相拆分对映体的选择性及拆分机理的讨论周昕，万宏，欧庆瑜（中国科学院兰州化学物理研究所兰州７３００００）１前言自１９８８年Ｋｏｎｉｇ￣［１］等人成功地将改性环糊精用于毛细管气相色谱固定相拆分对映体以来，环糊精衍生物以其高选择性...     

表层二氧化锆/硅基－CDMPC手性固定相的制备及联苯双酯类保肝药的直接拆分

用分子自组装的方法制备了表层纳米氧化锆包覆多孔微米硅球，得到的氧化锆 /硅胶微球用作高效液相色谱担体，本方法制备的担体具有氧化锆的表面特性并保 持了硅胶的颗粒均匀、表面积大、渗透性好的优点，可以制备大涂敷量的手性固定 相，以增加固定相的手性识别能力，以涂敷量为20%的纤维素－三（3，5-二甲基苯 基氨基甲酸酯）－氧化锆/硅胶手性固定相（CDMPC-coated ZrO_2/SiO_2）上，对 联苯双酯类保肝药物进行直接拆分，考察了流动相极性、第二种极性改性剂对样品 保留和拆分的影响；并对手性拆分机理进行了阐述，结果表明：CDMPC- ZrO_2/SiO_2手性固定相比CDMPC-ZrO_2具有更好的手性拆分能力。     

手性金属-有机骨架材料[Cu(S-mal)(bpy)]n用于高效液相色谱拆分外消旋化合物

手性金属-有机骨架材料作为一种新型的多孔材料,在手性分离领域备受关注.以S-苹果酸和4,4'-联吡啶为配体与醋酸铜反应,通过溶剂热法合成了一种具有三维手性网状结构的手性金属-有机骨架材料[Cu（S-mal）（bpy）]_n.将其用作固定相制成高效液相色谱手性柱,采用不同比例的正己烷/异丙醇作为流动相对一系列外消旋化合物进行手性拆分.结果显示,该手性柱对醇类、酮类、黄酮、酚类、胺类等17种外消旋化合物表现了较好的手性拆分能力.将该手性柱与之前我们报道的3种手性MOFs柱相比较,其表现出了更好的手性选择性,具有较好的手性拆分互补作用.最后还对该手性柱的重现性和稳定性做了评价,结果表明该手性柱表现出较好的重现性和稳定性.     

高效液相色谱手性固定相对氨基酸衍生物对映体分离研究

利用高效液相色谱手性固定相对光学异构体分离分析日益受到人们的重视。高效液相色谱氨基酸酰胺型手性固定相对拆分对映异构体具有较好的效果。本文为了探讨该类手性固定相对氨基酸的拆分影响,用L-异亮氨酸叔丁酰胺型手性固定相,对6种DL氨基酸(丙氨酸、2-氨基-n-丁酸、缬氨酸、亮氨酸、苯丙氨酸和蛋氨酸)的18种衍生物进行了拆分,并讨论了其衍生物取代基对手性拆分的影响及从立体化学角度提出了手性拆分机理。实验结果表明,这种手性固定相对外消旋氨基酸衍生物有较好的拆分能力。 1 实验部分 1.1 仪器和试剂 Varian 2010型高效液相色谱仪(美国);2050型紫外检测器及HP3394型积分仪(美国);L-异亮氨酸叔丁酰胺型手性柱(TBILS,上海药物研究所),粒度10μm,柱长100mm、内径4mm的不锈钢柱。 异丙醇(分析纯)用前重蒸,石油醚(60～90℃)分析纯,重蒸收集69℃镏分,用前全经过0.5μm薄膜并脱气。DL-氨基酸衍生物[丙氨酸(Ala),2-氨基-n-丁酸(Buty),缬氨酸(Val),亮氨酸(Leu),苯丙氨酸(Phe),蛋氨酸(Met)]用相应DL-氨基酸参考文献方法进行N-乙酰化及酯化。衍生物经元素分析合格,配制成5mg/mL溶液。     

超高效合相色谱法拆分卡多曲对映体研究

利用超高效合相色谱仪(UPC2),建立了卡多曲对映体拆分方法。考察了手性固定相、有机改性剂、动态背压以及柱温对卡多曲对映体分离度的影响。结果表明,卡多曲对映体手性拆分的最佳色谱条件:采用Lux Cellulose-2(2.5μm,2.1 mm×150 mm)手性色谱柱,CO2-甲醇(60:40,V/V)为流动相,等度洗脱,流速为1.0 m L/min,柱温为40℃,动态背压为13.79 MPa,进样量1μL时,卡多曲对映体得到基线分离。     

漆酶在纳米金溶胶/多重壁碳纳米管复合载体上固定方法的比较及粒子尺寸效应

以纳米金溶胶（NGS）和多重壁碳纳米管（MWCNTs）的共混物(NGS/MWCNTs)作为固定漆酶的载体,研究了3种固定漆酶方法在酶固定量、比活力上的差异。 研究了不同的固定方法对固定酶热稳定性和重复使用性及纳米金溶胶颗粒粒径对酶固定量和固定酶动力学参数的影响。 实验结果表明,NGS/MWCNTs具有良好的固定漆酶能力和高固酶比活力,NGS/MWCNTs（NGS粒径37 nm）通过简单物理吸附法固定漆酶的量和固酶的比活力最高,分别可达33.80 mg/g和9.433 U/mg。 在NGS-MWCNTs上采用化学键合方法固定的漆酶在70 ℃放置2 h后仍然保持初始活力的75％,重复使用20次后仍保持初始活力的70％。 纳米金溶胶粒子越小（24 nm）,底物和固定漆酶间亲和力越好（KM=0.027 mmol/L）,表观速率常数越大。     

甲苯二异氰酸酯与乙二胺沉淀聚合一步法制备聚脲多孔材料及其表征

以甲苯二异氰酸酯和乙二胺为单体,通过沉淀聚合一步到位制备了富含胺基的聚脲多孔材料.探讨了反应时间、溶剂种类及混合溶剂配比对聚脲多孔材料性能的影响.通过BET和压汞法对聚脲多孔材料的孔结构进行了表征,用扫描电子显微镜表征了材料的形貌,用X-射线衍射仪测试了材料的结晶性能.结果表明,聚合反应进行48 h后多孔材料的胺基含量不再变化,所得聚脲为典型多孔材料且部分结晶.与丙酮相比,以乙腈作反应介质制备的聚脲的比表面积和孔体积较大,孔径分布较宽.以乙腈和丙酮混合溶剂作反应介质,通过改变混合溶剂的配比可以改变材料的孔结构.     

Functionalization of cellulose dialysis membranes for chiral separation using beta-cyclodextrin immobilization

A membrane-based chiral separation system for the separation of racemic tryptophan solutions is developed by the covalently binding beta-cyclodextrin onto the surface of commercial cellulose membranes. The immobilization process is monitored by XPS. AFM demonstrates the evolutionary transition of membrane surface morphology before and after the CD immobilization. Due to their different complexation with immobilized CD, dialysis transport experiments show d-tryptophan preferential permeability through the immobilized CD membranes, and the enantioselectivity is 1.10. A model based on the existence of a thin chiral solution layer of amino acid at the interface between the feed solution and the membrane has been proposed. This chiral separation model has been verified using the chiral separation results of racemic amino acids and binding constants of amino acids with CD. The effect of membrane's pore size on enantioselectivity has also been investigated. The immobilized CD membrane, having MWCO 1000, exhibits the highest enantioselectivity to the racemic tryptophan solution.     

PDA/SiO2大孔复合材料固定化荧光假单胞菌脂肪酶

以具有三维骨架结构的大孔聚合物为模板制备SiO_2大孔材料,通过多巴胺在SiO_2大孔材料孔道表面的原位聚合制得聚多巴胺表面功能化修饰的二氧化硅大孔材料(PDA/SiO_2)。应用SEM、EDX、MIP、BET、TG-DTA和FTIR等技术对修饰前后的材料进行表征。以PDA/SiO_2为载体固定荧光假单胞菌脂肪酶(PFL),优化固定化条件并对比游离脂肪酶和固定化脂肪酶的性质。结果表明SiO_2大孔材料具有三维连续贯通的孔道结构,孔径分布在300~500 nm,聚多巴胺修饰后形成聚多巴胺/二氧化硅复合纳米薄膜构筑的大孔材料。在固定化时间为14 h、p H值为8、初始脂肪酶浓度为0.4 mg·m L-1时,固定化效果最佳,酶活回收率达246%。与游离脂肪酶相比,固定化脂肪酶有更宽的温度和p H适用范围、热稳定性显著提高,并展现出良好的储存稳定性和操作稳定性,固定化脂肪酶的Km低于游离脂肪酶的,酶与底物的亲和性较好。     

A novel and simple pathway to synthesis of porous polyurea absorbent and its tests on dye adsorption and desorption

A novel one-step protocol for the preparation of porous polyurea material (PPU) through precipitation polymerization of toluene diisocynate (TDI) is presented. The process is based on step polymerization of one singlemonomer, TDI, with water in water-acetonemixed solvent. PPU is obtained without need for any porogen or additives, and no any chemical modification on the outcome polymer is necessary. The morphology, pore size and size distribution of PPU are characterized by scanning electron microscope and BET nitrogen adsorption. Taking acid fuchsine (AF) and Congo Red as dye examples in wastewaters, their adsorption on, desorption from PPU and the reusability of PPU were tested. Experimental conditions for AF adsorption were optimized with regard to pH, adsorption time, AF concentration and amount of PPU. Results demonstrate that the as-prepared PPU is of high performance in dyes adsorption and recycled use. This work presents therefore a novel and attractive candidate for removal of anionic dyes from wastewaters.     

Catalytic effect of calix[n]arene based sol–gel encapsulated or covalent immobilized lipases on enantioselective hydrolysis of (R/S)-naproxen methyl ester

In this paper the catalytic performance of the immobilized lipases was investigated in the presence of calixarene based polymers using different immobilization techniques. For this reason, Candida rugosa lipase was encapsulated in sol–gel matrices using alkoxysilane precursors and calix[n]arene based silica polymers as additives. The hydrolytic activities of encapsulated lipases were evaluated and compared with the free lipase and covalently immobilized lipases (CnP-L). These encapsulated lipases were also used in the kinetic resolution of the R/S-Naproxen methyl ester. The results indicated that the C6P encapsulated lipase has significantly higher conversion and enantioselectivity as compared to the free lipase; other encapsulated lipases and CnP-L. The optimal pH and temperature region of the C6P encapsulated lipase in the kinetic resolution of the R/S-naproxen methyl ester were 7.0 and 55?°C. Nevertheless, the encapsulated lipases have good stability, adaptability and reusability in comparison with the free enzyme.     

Superparamagnetic nanoparticle-supported enzymatic resolution of racemic carboxylates

Candida rugosa lipase immobilized on maghemite nanoparticles demonstrated high stereoselectivity in kinetic resolution of racemic carboxylates and improved long-term stability over its parent free enzyme, allowing the supported enzyme to be repeatedly used for a series of chiral resolution reactions.     

Carboligation reactivity of benzaldehyde lyase (BAL,EC 4.1.2.38) covalently attached to magnetic nanoparticles

Epoxy-functionalized Fe₃O₄–SiO₂ core–shell magnetic nanoparticles (epoxy-M-support) were prepared by modification with glycidyloxypropyltrimethoxysilane (GPTMS) and characterized by X-ray diffraction (XRD), transmission electron microscopy (TEM), and fourier transform infrared spectroscopy (FTIR) methods. Pure histidine-tagged recombinant benzaldehydelyase (BAL, EC 4.1.2.38) was efficiently immobilized onto the epoxy-M-support with covalent binding. An immobilized BAL epoxy-M-support system was tested to catalyze the self and cross condensation reactions of aldehydes, and the kinetic resolution of racemic acyloins. The acyloin products were obtained in high yield and with high enantiomeric excesses (?98% ee). The carboligation reactivity of the immobilized enzyme was comparable to that of free enzyme-catalyzed reactions. The covalent immobilization offers high enzyme activity and stability (at least 5 repeats without losing its activity).     

Properties of pectinesterase immobilized on glycophase-coated controlled-pore glass

Pectinesterase was immobilized on a porous glass support, which surface was covered with glyceryl residues. The parameters of the immobilization were characterized with respect to the coupling method used as well as the support pore size. Chemical modification level resulted an important parameter in determining the activity of the immobilized derivative. Attachment of the enzyme through thiol groups gave the best results, whereas a nominal pore size of 20 nm seemed to be the most suitable for the demethoxylating activity of the enzyme on citrus pectin. Optimum conditions for activity as well as the inhibition constant for polygalacturonic acid did not change on immobilization, as the Michaelis constant did. Fluorescence spectra revealed a partial unfolding of the enzyme tertiary structure when immobilized.     

Resolution of (D,L)-Phenylalanine in Biphasic System by α-Chymotrypsin Immobilized on Superparamagnetic Nanogels

α-Chymotrypsin immobilized on super paramagnetic nanogels covered with carboxyl groups, exhibited high stereoselectivity in kinetic resolution of racemic phenylalanine in toluene/water biphasic system, and even improved reusability over its parent free enzyme. The results also showed that the addition of ionic liquid to water phase could enhance the stereoselectivity of the immobilized enzyme to a certain extent while the conversion yield decreased. The long-term stability allows the supported enzyme with nano-scaled dimension to use in continuous chiral resolution reaction, which opens a new horizon for enzymatic chiral resolution in large-scale production.     

疏水性聚丙烯酸/聚乙烯醇/葡萄糖淀粉酶复合纳米纤维膜的制备及酶学性质

利用混合静电纺丝将葡萄糖淀粉酶(GA)固定于聚丙烯酸(PAA)/聚乙烯醇(PVA)纳米纤维膜上,并通过鉴定固定化GA的酶学特征检验PAA/PVA可否成为一种优良的酶固定化载体。 对其理化性质和酶学特征进行鉴定,经红外光谱(FT-IR)和扫描电子显微镜(SEM)表征发现,GA可成功包埋于PAA/PVA纳米纤维膜内部;对包裹固定的GA进行酶学性质鉴定,发现固定化GA的最适反应温度为68 ℃,比游离GA提高了9 ℃;固定化GA的适用pH值范围明显变宽;热稳定性和存贮稳定性显著增强且可以重复使用。PAA/PVA纳米纤维膜是一种优良的酶固定化载体,可以通过混合静电纺丝包埋法简便地将蛋白质分子固定于其内部,具有一定的应用前景。     

介孔材料MCFs的合成及组装青霉素酰化酶的性质研究

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