Adsorption of BSA on QAE-dextran: equilibria

Equilibrium isotherms for adsorption of bovine serum albumin (BSA) on a strong-base (QAE) dextran-type ion exchanger have been determined experimentally. They were not affected by the initial concentration of BSA but were affected by pH considerably. They were correlated by the Langmuir equation when pH >/= 5.05 and by the Freundlich equation of pH 4.8, which is close to pl approximately 4.8 of BSA. The contribution of ion exchange to adsorption of BSA on the ion exchanger was determined experimentally. The maximum amounts of inorganic anion exchanged for BSA were 1% and 0.4% of the exchange capacity of the ion exchanger at pH 6.9, respectively. Since the effect of the ion exchange on the adsorption appeared small, BSA may be adsorbed mainly by electrostatic attraction when pH >/= 5.05 and by hydrophobic interaction or hydrogen bonding at pH 4.8. When NaCl coexisted in the solution, the shape of the isotherm was similar to the Langmuir isotherm, but it is shifted to the right. When the concentration of NaCl was 0.2 mol/dm(3), BsA was not adsorbed on the resin. When BSA was dissolved in pure water, the saturation capacity of BSA on HPO(4) (2-),-orm resin was about 2 times larger than that for adsorption from the solution with buffer (pH 6.9 and 8.79). The saturation capacity for adsorption of BSA in pure water on HPO(4) (2-) + H(2)O(4) (-)-from resin was much smaller than that from the solution with buffer. The isotherms for univalent Cl(-)-and H(2)PO(4) (-)-form resin was peculiar; that is, the amount of BSA adsorbed decreased with increasing the liquid-phase equilibrium concentration of BSA. (c) 1993 John Wiley & Sons, Inc.     

HaSNPV几丁质酶的分离纯化与毒理学研究

利用重组工程菌GS115-pPIC 9k-ChiA 4.0发酵几丁质酶粗液,经(NH₄)₂SO₄盐析、透析、DEAE Sepharose Fast Flow离子交换层析以及Sephadex G-100凝胶过滤层析分离纯化,获得电泳纯的棉铃虫单粒包埋型核型多角体病毒(HaSNPV)几丁质酶,回收率为19.64%,纯化17.74倍;经HaSNPV几丁质酶毒理学研究,通过触杀作用和胃毒作用,几丁质酶使小菜蛾幼虫细胞液化,导致死亡,其作用效果与几丁质酶浓度和作用时间成正比,且胃毒作用大于触杀作用;经小麦根腐、烟草赤星、番茄灰霉和苹果炭疽等植物病原真菌的抑菌实验,表明几丁质酶可以通过酶解真菌细胞壁中的几丁质达到抑菌作用。     

枯草芽孢杆菌中性β-甘露聚糖酶的纯化及性质研究

经硫酸铵分级沉淀、超滤浓缩、阴离子交换层析和凝胶过滤层析,由枯草芽孢杆菌（Ｂａｃｉｌｕｓｓｕｂｔｉｌｉｓ）ＢＭ９６０２培养滤液得到了常规凝胶电泳一条带的中性β－甘露聚糖酶．该酶具有与其它已知同类酶相类似的性质,但用ＳＤＳ－ＰＡＧＥ测得该酶分子量为３７ｋＤ;用聚丙烯酰胺等电聚焦电泳测得等电点ｐＩ为４．９．     

Adsorption of cadmium ion and gallium ion to immobilized metallothionein fusion protein

A fusion protein made from maltose binding protein (pmal) and human metallothionein (MT) was expressed using E. coli. The purified recombinant protein (pmal-MT) was immobilized on Chitopearl resin, and characteristics of pmal-MT for metal binding were evaluated. As expected from the tertiary structure of metallothionein, the pmal-MT ligand adsorbed 12.1 cadmium molecules per one molecule of the ligand at pH 5.2. The pmal-MT ligand also bound 26.6 gallium molecules per one molecule of the ligand at pH 6.5. Neither cadmium ion nor gallium ion bound to a control protein bovine serum albumin (BSA). Adsorption isotherms for both ions were correlated by Langmuir-type equations. Two types of binding sites have been elucidated on the basis of HSAB (hard and soft acid and base) theory. It was suggested that gallium ion specifically binds to amino acid residues containing oxygen and nitrogen atoms, while cadmium ion binds to specific binding sites formed by multiple cysteine residues. The pmal-MT ligand bound these metals in the concentration range of 0.2-1.0 mM, and the bound metal ions could be eluted under relatively mild conditions (pH 2.0). The pmal-MT Chitopearl resin was stable and could be used repeatedly without loss of binding activity. Thus, this new ligand would be useful for recovery of toxic heavy metals and/or valuable metal ions from various aqueous solutions.     

疏水层析分离正确折叠与错误折叠的复合干扰素

采用疏水层析纯化重组复合干扰素,成功去除了复性过程中产生的错误折叠体、聚集体及杂蛋白,并考察了配基类型、盐浓度、pH值和流速对疏水层析纯化效果的影响,结果表明采用ButylSepharose 4FastFlow、硫酸铵初始浓度0.8mol/L、缓冲液pH值8.3、线流速为90cm h时疏水层析纯化效果最佳,最终目标蛋白反相高效液相色谱检测纯度达到99.6% ,还原及非还原型SDS PAGE电泳均呈单一条带,其比活为2.3×10⁹IU/mg,回收率为36.7%。     

变色栓菌锰过氧化物酶同工酶的纯化及其性质研究

变色栓菌(Trametes versicolor)胞外产酶培养液经硫酸铵沉淀、DEAE-cellulose DE52离子交换柱层析后,获得两个活性组分D1和D2,其中活性组分D2经Phenyl SepharoseTM6Fast Flow疏水层析后,所得样品MnP1经SDS-PAGE检测已达到电泳纯。活性组分D1经Phenyl SepharoseTM6Fast Flow疏水层析、Sephacryl S-200HR凝胶过滤层析后,所得样品MnP2经SDS-PAGE检测已达到电泳纯。两种同工酶MnP1及MnP2,各自的比活力为579.09、425.00U/mg;纯化倍数为17.51、12.85;活力回收率为6.17%、2.47%。由SDS-PAGE法测得MnP1及MnP2的表观分子量分别为46.3kD、43.0kD。两种同工酶催化DMP(2,6-二甲氧基酚)氧化反应的最适pH值及最适反应温度有所不同,最适pH值分别为pH5.8、pH6.2,最适反应温度分别为60℃、65℃。在45℃以下,pH4.0~7.0之间,MnP1及MnP2的稳定性好。DMP为最佳酶促反应底物,以DMP为底物的Km分别为13.43μmol/L、12.45μmol/L。在无Mn2 存在的条件下,酶促反应几乎不发生。EDTA在较高浓度时抑制酶的活性,DTT在所试浓度下都完全抑制酶的活性。     

Further studies on the contribution of electrostatic and hydrophobic interactions to protein adsorption on dye-ligand adsorbents.

The adsorption equilibria of bovine serum albumin (BSA), gamma-globulin, and lysozyme to three kinds of Cibacron blue 3GA (CB)-modified agarose gels, 6% agarose gel-coated steel heads (6AS), Sepharose CL-6B, and a home-made 4% agarose gel (4AB), were studied. We show that ionic strength has irregular effects on BSA adsorption to the CB-modified affinity gels by affecting the interactions between the negatively charged protein and CB as well as CB and the support matrix. At low salt concentrations, the increase in ionic strength decreases the electrostatic repulsion between negatively charged BSA and the negatively charged gel surfaces, thus resulting in the increase of BSA adsorption. This tendency depends on the pore size of the solid matrix, CB coupling density, and the net negative charges of proteins (or aqueous - phase pH value). Sepharose gel has larger average pore size, so the electrostatic repulsion-effected protein exclusion from the small gel pores is observed only for the affinity adsorbent with high CB coupling density (15.4 micromol/mL) at very low ionic strength (NaCl concentration below 0.05 M in 10 mM Tris-HCl buffer, pH 7.5). However, because CB-6AS and CB-4AB have a smaller pore size, the electrostatic exclusion effect can be found at NaCl concentrations of up to 0.2 M. The electrostatic exclusion effect is even found for CB-6AS with a CB density as low as 2.38 micromol/mL. Moreover, the electrostatic exclusion effect decreases with decreasing aqueous-phase pH due to the decrease of the net negative charges of the protein. For gamma-globulin and lysozyme with higher isoelectric points than BSA, the electrostatic exclusion effect is not observed. At higher ionic strength, protein adsorption to the CB-modified adsorbents decreases with increasing ionic strength. It is concluded that the hydrophobic interaction between CB molecules and the support matrix increases with increasing ionic strength, leading to the decrease of ligand density accessible to proteins, and then the decrease of protein adsorption. Thus, due to the hybrid effect of electrostatic and hydrophobic interactions, in most cases studied there exists a salt concentration to maximize BSA adsorption.     

Purification and physicochemical properties of different polysaccharide fractions from the water extract of Boschniakia rossica and their effect on macrophages activation

Today more and more attentions had been attracted by many nutritionists and pharmacologists on polysaccharides from natural plants or animals due to their significant biological activities. In this research three polysaccharides (BRR-W1, BRR-WA1 and BRR-WA2) were isolated and purified from the water extract of Boschniakia rossica by DEAE Sepharose Fast Flow and Sepharose 6 Fast Flow column chromatography. Chemical and physical characteristics of three polysaccharides were investigated by a combination of chemical and instrumental analysis methods. The assays of their effect on macrophages activation were also investigated in vitro, including phagocytosis of macrophages, detections for NO production and TNF-α secretion. The results indicated that the effect of polysaccharides on macrophages activation was influenced by their respective physicochemical properties.     

Isolation of human fibrinogen by axial and radial flow chromatography from Nitschmann fraction I

An axial column (3×2.6 cm) and a radial flow column (3.5×5 cm) packed with DEAE Sepharose Fast Flow media had been evaluated for the separation of human fibrinogen. Nitschmann fraction I dissolved in buffered saline (0.015 M NaCl buffered with 0.06 M Tris/HCl to pH 7.5) was the starting material. Under radial flow conditions, sample flow up to 15 ml min^–1 (i.e., 18 bed volumes h^–1) was achieved. The operating pressures were below 0.2 MPa, even though the elution velocity was 30 ml min^–1 (i.e., 36 bed volumes h^–1).     

High-resolution anion exchange chromatography of the glucocorticoid receptor from WEHI-7 cells

A simple refinement of the current methods of DEAE chromatography of steroid receptors has been developed which takes advantage of the characteristics of Fast Flow DEAE Sepharose (Pharmacia). The approach provides a convenient and inexpensive means to carry out high-resolution chromatography of the glucocorticoid receptor. Using this method, at least five separate species of receptor have been detected within the single so-called "low-salt" peak normally seen using the current methods of receptor anion exchange chromatography.     

Refolding of lysozyme in hydrophobic interaction chromatography: Effects of hydrophobicity of adsorbent and salt concentration in mobile phase

The effects of salt concentration in mobile phase, elution strategy, and hydrophobicity of stationary phase on lysozyme refolding in hydrophobic interaction chromatography (HIC) were investigated. Butyl Sepharose 4 Fast Flow, the least hydrophobic HIC resin among the tested adsorbent, showed the best refolding yield. The binding efficiency of unfolded lysozyme on the adsorbent was maximized when 1 and 0.4 M of initial and final concentration of ammonium sulfate was used in mobile phase, respectively. The optimum gradient strategy for refolding and elution of lysozyme was determined as linear increase of urea concentration to 4M. The optimized condition suggests the less hydrophobic environment than conventionally used salt solutions and HIC resins. Consequently, total refolding yield was improved 1.6 times comparing with optimized dilution-based batch refolding method.     

Purification and Developmental Analysis of the Major Anionic Peroxidase from the Seed Coat of Glycine max

We show that the majority of peroxidase activity in soybean (Glycine max var Williams 82) seeds is localized to the seed coat. A single isozyme is responsible for this activity and has been purified to electrophoretic homogeneity by successive chromatography on DEAE Sepharose Fast Flow, concanavalin A-Sepharose, and Sephadex G-75. The peroxidase exhibits a pl of 4.1, an apparent molecular mass of 37 kilodaltons, and has properties characteristic of a glycoprotein. The enzyme begins to accumulate approximately 21 days after anthesis and continues to do so throughout the maturation of the seed coat where it can represent at least 5% of the soluble protein in dry seed coats. Due to its localization in the seed, we propose that this isozyme may play a role in the hardening of the seed coat.     

Using high throughput screening to define virus clearance by chromatography resins

High throughput screening (HTS) of chromatography resins can accelerate downstream process development by rapidly providing information on product and impurity partitioning over a wide range of experimental conditions. In addition to the removal of typical product and process‐related impurities, chromatography steps are also used to remove potential adventitious viral contaminants and non‐infectious retrovirus‐like particles expressed by rodent cell lines used for production. This article evaluates the feasibility of using HTS in a 96‐well batch‐binding format to study removal of the model retrovirus xenotropic murine leukemia virus (xMuLV) from product streams. Two resins were examined: the anion exchange resin Q Sepharose Fast Flow? (QSFF) and Capto adhere?, a mixed mode resin. QSFF batch‐binding HTS data was generated using two mAbs at various pHs, NaCl concentrations, and levels of impurities. Comparison of HTS data to that generated using the column format showed good agreement with respect to virus retentation at different pHs, NaCl concentrations and impurity levels. Results indicate that NaCl concentration and impurity level, but not pH, are key parameters that can impact xMuLV binding to both resins. Binding of xMuLV to Capto adhere appeared to tolerate higher levels of NaCl and impurity than QSFF, and showed some product‐specific impact on binding that was not observed with QSFF. Overall, the results demonstrate that the 96‐well batch‐binding HTS technique can be an effective tool for rapidly defining conditions for robust virus clearance on chromatographic resins. Biotechnol. Bioeng. 2013; 110: 1984–1994. © 2013 Wiley Periodicals, Inc.     

Enrichment of the basic/cationic urinary proteome using ion exchange chromatography and batch adsorption

Anionic or acidic proteins are the main compositions of normal urinary proteome. Efforts to characterize human urinary proteome, thus, have focused mainly on the anionic compartment. The information of cationic or basic proteins present in the normal urine is virtually unknown. In the present study, we applied different methods to enrich cationic urinary proteome. Efficacies of these methods were compared using equal volume (1 L) of urine samples from the same pool obtained from 8 normal healthy individuals. Cation exchange chromatography using RESOURCE-S column provided the least amount of the recovered proteins, whereas batch adsorption using SP Sepharose 4 Fast Flow beads equilibrated with acetic acid (pH 4.8) provided the greatest yield of protein recovery. The recovered proteins were then resolved with 2-DE (pI 7-11) and identified by peptide mass fingerprinting using MALDI-TOF MS. There were several isoforms of immunoglobulin heavy and light chains enriched by these methods. In addition, three isoforms of interferon alpha-3 (IFNalpha3) and six isoforms of eosinophil-derived neurotoxin (EDN), were also enriched. The enrichment of IFNalpha3 and EDN was particularly effective by batch adsorption using SP Sepharose 4 Fast Flow beads equilibrated with acetic acid (pH 6.0). Initial depletion of anionic components using DEAE batch adsorption reduced the recovery yield of these two proteins and did not improve recovery of any other cationic urinary proteins. We conclude that batch adsorption using SP Sepharose Fast Flow beads equilibrated with acetic acid (pH 6.0) is the method of choice to examine the basic/cationic urinary proteome, as this protocol provided the satisfactory yield of protein recovery and provided the greatest amount as well as maximal number of IFNalpha3 and EDN isoforms. Our data will be useful for further highly focused study targeting on cationic/basic urinary proteins. Moreover, the techniques described herein may be applicable for enrichment of cationic proteomes in other body fluids, cells, and tissues.     

A solid phase adsorption method for preparation of bovine serum albumin-bovine hemoglobin conjugate

A solid phase adsorption method was proposed to prepare well-defined bovine serum albumin–bovine hemoglobin (Hb) conjugate. After adsorption by the solid phase, Q Sepharose Fast Flow media, bovine serum albumin (BSA) molecules were allowed to react with glutaraldehyde. The spacing out of BSA molecules on the solid phase was assumed to limit polymerization of BSA molecules, except some molecules bound closely on the solid phase resulting in minor dimer formation. Following the elution procedure, the activated monomeric BSA was separated from the dimers by gel filtration chromatography on Superdex 200 and then reacted with bovine Hb at 4 °C and pH 9.5. The 1:1 (BSA:Hb) conjugate was obtained with the yield of 64%. The P₅₀ values of the conjugates, prepared under anaerobic and aerobic conditions, were 19.1 and 14.2 mmHg, respectively. The dependence of the P₅₀ on chloride ions for the conjugate was slightly diminished, presumably due to covalent attachment of BSA to bovine Hb.     

Purification and characterisation of phenoloxidase from amphioxus Branchiostoma belcheri tsingtauense

Phenoloxidase (PO) from the humoral fluid of amphioxus B. belcheri tsingtauense was purified using a sequential combination of ammonium sulphate precipitation, Sephadex G-200 chromatography and DEAE Sepharose Fast Flow chromatography. In PAGE, the purified enzyme exhibited a single band of 150 kDa under non-reducing conditions, and was resolved to three bands with molecular masses of 72, 46 and 44 kDa, respectively, under reducing conditions, suggesting that the PO in amphioxus humoral fluid seems to be a heterotrimer of three polypeptides held together by disulphide bonds. The substrate specificity and inhibition characteristics both indicate that the PO isolated from amphioxus humoral fluid is a tyrosinase-type enzyme. In addition, mouse antisera against the purified PO were prepared, and their specificity was confirmed by Western blotting, facilitating the future determination of the origin of PO in the humoral fluid and the distribution of PO-synthesising tissues in amphioxus.     

蓝莓多糖BBP3-1的分离及结构分析

采用酶法优化进行水提醇沉得到蓝莓粗多糖.经双氧水脱色、酶解和三氯乙酸正丁醇结合法脱蛋白后通过DEAE Sepharose Fast Flow离子交换层析和sephacryl s- 300 HR凝胶过滤层析得到蓝莓多糖(BBP3-1).经紫外扫描显示无蛋白、核酸杂质.经高效液相色谱分析,BBP3-1的重均分子量Mw为18...     

醇醛脱氢酶的分离纯化及其基因文库的构建和筛选

在维生素C的发酵生产过程中,普通生酮基古龙酸菌S2(Ketogulonigenium vulgare)能产生醇醛脱氢酶,将L-山梨糖转化为VC的前体2-酮基-L-古龙酸(2-KLG)。通过超声波破碎菌体、硫酸铵分级沉淀、DEAE Sepharose Fast Flow阴离子交换层析,QSepharose High Performance柱层析等过程,从普通生酮基古龙酸菌S2发酵液中分离纯化了醇醛脱氢酶,并用该纯化酶免疫新西兰兔制备出了合格抗血清。同时,普通生酮基古龙酸菌S2基因组DNA经Sau3AⅠ部分酶切后,与黏粒载体pKC505连接,用包装蛋白进行包装,转染大肠杆菌DH5浕,构建了基因组文库。最后应用免疫酶斑点技术(Dot-ELISA)从12000个克隆子中筛选得到一个阳性克隆K719#。通过检测该基因工程菌的活性,表明K719#具有使L-山梨糖转化为2-KLG的功能,从而使醇醛脱氢酶在大肠杆菌中获得了高效表达,这为简化VC的生产工艺奠定了基础。     

Cloning, expression, and characterization of uracil-DNA glycosylase of Chlamydia pneumoniae in Escherichia coli

A uracil-DNA glycosylase gene was cloned from Chlamydia pneumoniae AR39 and expressed in E. coli strains BL21 (DE3) and BL21 (DE3) pLysS. After purification by Ni-NTA His x Bind Resin and DEAE Sepharose Fast Flow column chromatography, recombinant CpUDG with a specific activity of 1,000,000 U/mg was obtained. The enzymatic activity of the purified CpUDG protein was further characterized using oligodeoxyribonucleotides carrying uracil bases as substrates. The base opposite to uracil in double strand DNAs affected uracil removal efficiencies in the order: U/- > U/T > U/C > U/G > U/A. Free uracil and abasic sites (AP site) could inhibit the reaction. The optimal temperature and pH for uracil removal by CpUDG were 37 degrees C and pH 8.0, respectively. Site-directed mutagenesis studies indicated that amino acids D77, H200, and A205 were important for the catalytic activity of CpUDG. Together, these data suggest that CpUDG is a member of the UDG family-I protein. This is the first report on cloning, expression, and characterization of Chlamydia uracil-DNA glycosylase.     

Purification of histidine-tagged nucleocapsid protein of Nipah virus using immobilized metal affinity chromatography

Nucleocapsid (N) protein of Nipah virus (NiV) is a potential serological marker used in the diagnosis of NiV infections. In this study, a rapid and efficient purification system, HisTrap? 6 Fast Flow packed bed column was applied to purify recombinant histidine-tagged N protein of NiV from clarified feedstock. The optimizations of binding and elution conditions of N protein of NiV onto and from Nickel Sepharose? 6 Fast Flow were investigated. The optimal binding was achieved at pH 7.5, superficial velocity of 1.25 cm/min. The bound N protein was successfully recovered by a stepwise elution with different concentration of imidazole (50, 150, 300 and 500 mM). The N protein of NiV was captured and eluted from an inlet N protein concentration of 0.4 mg/ml in a scale-up immobilized metal affinity chromatography (IMAC) packed bed column of Nickel Sepharose? 6 Fast Flow with the optimized condition obtained from the method scouting. The purification of histidine-tagged N protein using IMAC packed bed column has resulted a 68.3% yield and a purification factor of 7.94.