两步串联层析法纯化鼠抗人CD80单克隆抗体4E5

采用阴离子交换与凝胶过滤两步串联层析法,纯化了小鼠腹水来源的CD80阻断型单克隆抗体4E5。腹水样品经离心、过滤预处理后,在Tris-HCl缓冲溶液(pH8.0, 50mmol/L)条件下上阴离子交换柱对目的单抗进行捕集,采用0-0.5 mol/L NaCl浓度分步洗脱;含目的单抗的洗脱馏分再上凝胶过滤柱纯化,用PB缓冲溶液（pH7.2, 20mmol/L）洗脱,获得目的单抗4E5,其生物学活性高、纯度大于95%,抗体总回收率达61%。     

发酵液中L-色氨酸分离纯化工艺研究

通过静态吸附实验,考察了温度、pH值对001×7阳离子交换树脂平衡吸附量的影响,并测定了吸附动力学曲线。通过动态实验,测定了动态吸附曲线和洗脱曲线。最后确定了001×7阳离子交换树脂分离纯化L-色氨酸的最佳工艺条件:用001×7阳离子交换树脂吸附L-色氨酸,以浓度为2 mol.L-1氨水进行洗脱,收集的流份经D315阴离子交换树脂脱色,浓缩结晶后得L-色氨酸成品,总提取率为73.0%。     

从姜黄中提取姜黄素的研究

本文利用75％乙醇浸提姜黄得到姜黄素粗提物,然后分别采用吸附分离法和沉淀法对粗提物进一步分离提纯得到纯度较高的姜黄素产品。在吸附分离法提取姜黄素实验中,考察了不同洗脱剂组成对洗脱率的影响,实验发现90％乙醇洗脱效果最好;在沉淀法实验中,考察了不同pH值条件下的姜黄素沉淀量,发现pH值为7．0时,姜黄素沉淀量最大。实验结果表明,沉淀法得到的姜黄素产品纯度比吸附分离法得到的高,但沉淀法产品收率比吸附分离法低,吸附分离法比沉淀法更适合工业应用。     

虎血清免疫球蛋白（IgG）的纯化及纯度、活性鉴定

目的 建立高纯度、高活性的虎血清IgG纯化方法。方法 用饱和硫酸铵沉淀虎血清得到IgG粗品;结合Hitrap Protein A亲和层析预装柱及阴离子交换层析法对粗品IgG进一步分离纯化,采用PAGE电泳和Western-Blot免疫印迹法鉴定IgG纯度和免疫活性。结果 80 mL虎血清亲和纯化得到84 mg IgG,阴离子交换层析纯化得到30 mg虎的IgG纯品。结论 建立了简便快速、纯度高、活性好的虎血清IgG的分离纯化方法,为虎血清IgG二级抗体的制备提供了高纯度、活性好的一级抗体免疫原。     

树脂交换基的型式和上柱液的pH 对精氨酸生产的影响

<正> 树脂交换基的型式和上柱液的 pH 对氨基酸的分离有着十分重要的影响,根据资料报道,强酸性阳离子交换树脂的交换基为游离酸型如 H~+是其交换基时,全部氨基酸均可以进行交换吸附;交换基为盐型如 Na~+、NH_4~+是其交换基时,且上柱液的 pH 又在中性或微碱性时,只有碱性氨基酸可以进行交换吸附。但是,对于猪毛酸水解,提取胱氨酸后 pH4.8母液中精氨酸的生产,树脂交换基采用何种型式阳上柱液的 pH 以多少为最合适呢?为此,我们将732树脂处理成 H~+、Na~+、NH_4~+三种型式和调上柱液的 pH4.8、6.5,进行了精氨酸纯度和产量测定,我们又用稀氨水洗脱,绘制了精氨酸洗脱曲线。     

离子交换法从生产胱氨酸废液中分离提取三种碱性氨基酸

本研究利用国产７３２阳离子交换树脂,从生产胱氨酸废液中提取了三种碱性氨基酸。通过实验确定了洗脱分离三种氨基酸：组氨酸、赖氨酸、精氨酸的较适宜工艺条件,并根据平衡原理和色谱理论探讨了洗脱剂阴离子和ｐＨ值对洗脱分离的影响规律。有如下关系：设单位体积中离子交换树脂吸附总量为Ｑ,则：注＊：Ｋ＝ｐ／ｑｐ、ｑ分别为氨基酸在固定相（树脂）和流动相）（洗脱剂）中所占分数。注：ｎ（ｍａｘ）＝ｒ／ｑ：指洗脱出氨基酸最大浓度时洗脱剂用量。其中γ表示理论塔板数。由（４）式可看出,Ｅ值增大时ｎ（ｍａｘ）减小,即洗脱剂用量减少,由（３）式可知,ｐＨ值直接影响Ｅ值大小,不同ｐＨ条件下对Ｅ的影响如图１。由图１可知,Ｅ值随ｐＨ变化存在一个突跃阶段。恰当地调节ｐＨ值,可大幅度提高洗脱剂的洗脱能力,从而降低洗脱剂用量,降低成本;同时使洗脱后氨基酸与洗脱剂的分离更容易;另外不同的氨基酸由Ｅ值表现出的突跃阶段所对应的ｐＨ范围是不同的,因此可以利用洗脱剂ｐＨ值的改变选择性地洗脱某种特定的氨基酸,使性质类似的三种碱性氨基酸得以分离,由图２表示的实验结果证实了这一点。１．２．洗脱剂中阴离子对阳离子交换树脂洗脱的影响。当洗脱剂阴离子为弱酸根离子（以Ｓ－表示?     

离子交换树脂纯化还原型谷胱甘肽(GSH)的研究

研究005×7阳离子交换树脂分离纯化谷胱甘肽(GSH)的工艺条件。考察了005×7阳离子交换树脂对GSH的静态吸附量,洗脱时铵离子浓度、洗脱流速等对分离纯化产品GSH的影响。根据试验结果确定最佳工艺条件为:最适上柱pH为3.0,洗脱流速为:2.4ml/min,洗脱液为0.5mol/L的NH4Cl溶液;收集洗脱液,浓缩,乙醇沉淀,真空冷冻干燥,用高效液相色谱检测产品GSH,所得GSH纯度为60.8%,GSH的平均收得率为61.3%。说明此分离纯化GSH工艺可行。     

炭样小单孢菌JXNU-1广谱抗生素产物的分离及其理化性质

基于实验室自行分离到的一株具有广谱抗菌活性的炭样小单孢菌JXNU-1,研究了该菌株广谱抗生素产物的分离纯化工艺及其部分理化性质.结果表明,该茵产生的抗生素在中性和碱性条件下具有极高的热稳定性,但在酸性条件下不稳定.发酵液通过离心、过滤的预处理过程后,抗生素可吸附到717型阴离子交换树脂上,经2 mol/L的NaCl溶液洗脱除杂,再用20%的乙醇洗脱,可得抗生素产物,且在20%的乙醇溶液中加入2 mol/L的NaCl,可大大提高抗生素的洗脱效率.抗生素的酒精--盐洗脱液经减压浓缩去酒精、透析除盐后可得抗生素的水溶液.该抗生素水溶液经纸层析分析仅检测到单一活性斑点,HPLC分析表明其纯度达到99%以上.所得抗生素在Molish反应,Benedict反应扣二苯胺反应中均呈现阳性,紫外吸收具有典型的核苷类物质的光吸收特征,推测该抗生素为一核苷类抗生素.     

辛酸沉淀结合阴离子交换层析纯化马IgG的研究

目的以辛酸沉淀结合离子交换层析纯化破伤风抗毒素马免疫血浆,获得高质量的马IgG,为抗毒素F(ab')2的制备奠定基础。方法通过对辛酸沉淀马血浆过程中的pH、辛酸浓度以及血浆稀释倍数的实验设计(DoE),研究不同条件对IgG纯度、效价、比活性、浊度以及过滤速度的影响,确定各工艺参数的可操作区间,并结合Capto DEAE阴离子交换层析以流穿模式进一步纯化IgG。结果马血浆经一步辛酸沉淀获得的IgG纯度(SDSPAGE)大于92%、分子排阻色谱(SEC)纯度大于95%,比活性较血浆提高2.14±0.29倍;辛酸沉淀后的IgG样品经阴离子交换层析,可有效去除聚合体以及小分子杂质,将纯度提高至95%(SDS-PAGE)和98%(SEC)。结论马血浆经辛酸沉淀和阴离子交换层析可获得高纯度、高比活的IgG。     

应用强碱性阴离子交换剂分离人血清免疫球蛋白G(IgG)

本文就使用强碱性阴离子交换剂(QAE-交联葡聚糖A-50)提取人血清或人脐带血清中的IgG所需要的一些条件进行了研究。发现:(1)平衡及洗脱缓冲液用乙二胺-醋酸(pH=7.0,离子强度μ=0.10),再生缓冲液用醋酸铵-醋酸(pH=4.0,μ=0.075)最好;(2)对于交换容量等于3.0±0.4毫克当量/克的交换剂来说,血清体积与干交换剂重量之比以略小于2:1为好;(3)为了获得均一产品,血清必须事先对平衡缓冲液充分透析。在以上条件下,IgG产品可以相当纯,不含IgA及运铁蛋白,只含微量清蛋白。其纯度胜于某些进口品或世界卫生组织提供的标准品。用强碱性阴离子交换剂来提取血清IgG,具有简单,可在柱上直接再生,反复使用,节省试剂,适于大量连续提取等优点。     

Separation of supercoiled from open circular forms of plasmid DNA,and biological activity detection

To establish a cost-effective purification process for the large-scale production of plasmid DNA for gene therapy and DNA vaccination, a single anion-exchange chromatography (AEC) step was employed to purify supercoiled plasmid DNA (sc pDNA) from other isoforms and Escherichia coli impurities present in a clarified lysate. Two different size and conformation plasmids were used as model targets, and showed similar elution behavior in this chromatographic operation, in which sc pDNA was effectively separated from open circle plasmid DNA (oc pDNA) in a salt gradient. The process delivered high-purity pDNA of homogeneity of 95 ± 1.1% and almost undetectable levels of endotoxins, genomic DNA, RNA and protein, at a yield of 65 ± 8%. Furthermore, the transfection efficiency (29 ± 0.4%) was significantly higher than that (20 ± 0.1%) of a pDNA control. The present study confirms the possibility of using a single AEC step to purify sc pDNA from other isoforms and host contaminants present in a clarified E. coli lysate.     

The suitability of DEAE-Cl active groups on customized poly(GMA-co-EDMA) continuous stationary phase for fast enzyme-free isolation of plasmid DNA

The creation of a commercially viable and a large-scale purification process for plasmid DNA (pDNA) production requires a whole-systems continuous or semi-continuous purification strategy employing optimised stationary adsorption phase(s) without the use of expensive and toxic chemicals, avian/bovine-derived enzymes and several built-in unit processes, thus affecting overall plasmid recovery, processing time and economics. Continuous stationary phases are known to offer fast separation due to their large pore diameter making large molecule pDNA easily accessible with limited mass transfer resistance even at high flow rates. A monolithic stationary sorbent was synthesised via free radical liquid porogenic polymerisation of ethylene glycol dimethacrylate (EDMA) and glycidyl methacrylate (GMA) with surface and pore characteristics tailored specifically for plasmid binding, retention and elution. The polymer was functionalised with an amine active group for anion-exchange purification of pDNA from cleared lysate obtained from E. coli DH5alpha-pUC19 pellets in RNase/protease-free process. Characterization of the resin showed a unique porous material with 70% of the pores sizes above 300 nm. The final product isolated from anion-exchange purification in only 5 min was pure and homogenous supercoiled pDNA with no gDNA, RNA and protein contamination as confirmed with DNA electrophoresis, restriction analysis and SDS page. The resin showed a maximum binding capacity of 15.2 mg/mL and this capacity persisted after several applications of the resin. This technique is cGMP compatible and commercially viable for rapid isolation of pDNA.     

Purification of plasmid DNA from Escherichia coli ferments using anion-exchange membrane and hydrophobic chromatography

A novel downstream bioprocess was developed to obtain purified plasmid DNA (pDNA) from Escherichia coli ferments. The intermediate recovery and purification of the pDNA in cell lysate was conducted using hollow-fiber tangential filtration and frontal anion-exchange membrane and elution hydrophobic chromatographies. The purity of the solutions of pDNA obtained during each process stage was investigated. The results show that the pDNA solution purity increased 30-fold and more than 99% of RNA in the lysate was removed during the process operations. The combination of membrane operations and hydrophobic interaction chromatography resulted in an efficient way to recover pDNA from cell lysates. A better understanding of membrane-based technology for the purification of pDNA from clarified E. coli lysate was developed in this research.     

Poly(hydroxyethyl methacrylate) based affinity cryogel for plasmid DNA purification

The aim of this study is to prepare supermacroporous pseudospecific cryogel which can be used for the purification of plasmid DNA (pDNA) from bacterial lysate. N-methacryloyl-(l)-histidine methyl ester (MAH) was chosen as the pseudospecific ligand and/or comonomer. Poly(hydroxyethyl methacrylate-N-methacryloyl-(l)-histidine methyl ester) [PHEMAH] cryogel was produced by free radical polymerization initiated by N,N,N',N'-tetramethylene diamine (TEMED) and ammonium persulfate (APS) pair in an ice bath. Compared with the PHEMA cryogel (50 μg/g polymer), the pDNA adsorption capacity of the PHEMAH cryogel (13,350 μg/g polymer) was improved significantly due to the MAH incorporation into the polymeric matrix. The amount of pDNA bound onto the PHEMAH cryogel disks first increased and then reached a saturation value (i.e., 13,350μg/g) at around 300 μg/ml pDNA concentration. pDNA adsorption amount decreased from 1137 μg/g to 160 μg/g with the increasing NaCl concentration. The maximum pDNA adsorption was achieved at 25 °C. The overall recovery of pDNA was calculated as 90%. The PHEMAH cryogel could be used 3 times without decreasing the pDNA adsorption capacity significantly. The results indicate that the PHEMAH cryogel disks promise high selectivity for pDNA.     

Application of superparamagnetic nanoparticles in purification of plasmid DNA from bacterial cells

The aim of this study was to develop a simple and rapid method for purification of ultrapure supercoiled plasmid DNA with high yields from bacterial cultures. Nanosized superparamagnetic nanoparticles (Fe3O4) were prepared by chemical precipitation method using Fe2+, Fe3+ salt, and ammonium hydroxide under a nitrogen atmosphere. The surface of Fe3O4 nanoparticles was modified by coating with the multivalent cationic agent, polyethylenimine (PEI). The nanoparticles were characterized by transmission electron microscopy, X-ray diffraction, Fourier transformation infrared spectroscopy and superconducting quantum interference device magnetometer. The PEI-modified magnetic nanobeads were employed to simplify the purification of plasmid DNA from bacterial cells. We demonstrated a useful plasmid, pRSETB-EGFP, encoding the green fluorescent protein with T7 promoter, was amplified in DE3 strain of Escherichia coli. The loaded nanobeads are recovered by magnetically driven separation and regenerated by exposure to the elution buffer with optimal ionic strength (1.25 M) and pH (9.0). Up to approximately 35 microg of high-purity (A260/A280 ratio=1.87) plasmid DNA was isolated from 3ml of overnight bacterial culture. EGFP expression was detected by fluorescent microscopy in the transformed E. coli cells, indicating the biological activities of DNA fragments were retained after purified from magnetic nanobeads. The protocol, starting from the preparation of bacterial lysate and ending with purified plasmids takes less than 10 min. Thus, the separation and purification qualities of PEI-modified magnetic nanobeads as well as its ease of use surpass those of conventional anion-exchange resins.     

One-step isolation of adenosine triphosphate from crude fermentation broth of Saccharomyces cerevisiae by anion-exchange chromatography using supermacroporous cryogel

Adenosine triphosphate (ATP) is an important high-energy compound widely used in biological and therapeutic fields. It can be produced by phosphorylation of adenosine monophosphate (AMP) with microbial cells in industrial scale and the effective isolation of ATP from microbial fermentation broth is a challenging work. In this work, we develop a novel one-step method to directly separate ATP from fermentation broth of Saccharomyces cerevisiae by anion-exchange chromatography using supermacroporous cryogel. The cryogel bed with tertiary amine groups was prepared by grafting N,N-dimethylaminoethyl methacrylate (DMAEMA) monomer chains onto the matrix of a polyacrylamide-based cryogel in a glass column and its properties of liquid dispersion, water permeability, porosity as well as the ligand density were measured. Chromatographic separation of ATP from the fermentation broth by the cryogel was carried out using deionised water and 0.01 M HCl as running buffer, respectively. The breakthrough characteristics and elution performance in the cryogel bed were revealed and analyzed. The purities of the obtained ATP were analyzed quantitatively by high performance liquid chromatography (HPLC). The maximal purity of ATP by the one-step separation method was 95.5% using 0.01 M HCl as running buffer in this work. The corresponding chromatographic behaviors were investigated and analyzed.     

Integrated bioprocess for the production and isolation of urokinase from animal cell culture using supermacroporous cryogel matrices

An integrated cell cultivation and protein product separation process was developed using a new type of supermacroporous polyacrylamide gel, called cryogel (pAAm-cryogel) support matrix. Human fibrosarcoma HT1080 and human colon cancer HCT116 cell lines were used to secrete urokinase (an enzyme of immense therapeutic utility) into the culture medium. The secreted protein was isolated from the circulating medium using a chromatographic capture column. A pAAm cryogel support with covalently coupled gelatin (gelatin-pAAm cryogel) was used for the cultivation of anchorage dependent cells in the continuous cell culture mode in 5% carbon dioxide atmosphere. The cells were attached to the matrix within 4-6 h of inoculation and grew as a tissue sheet inside the cryogel matrix. Continuous urokinase secretion into the circulating medium was monitored as a parameter of growth and viability of cells inside the bioreactor. No morphological changes were observed in the cells eluted from the gelatin-cryogel support and re-cultured in T-flask. The gelatin-pAAm cryogel bioreactor was further connected to a pAAm cryogel column carrying Cu(II)-iminodiacetic acid (Cu(II)-IDA)-ligands (Cu(II)-IDA-pAAm cryogel), which had been optimized for the capture of urokinase from the conditioned medium of the cell lines. Thus an automated system was built, which integrated the features of a hollow fiber reactor with a chromatographic protein separation system. The urokinase was continuously captured by the Cu(II)-IDA-pAAm cryogel column and periodically recovered through elution cycles. The urokinase activity increased from 250 PU/mg in the culture fluid to 2,310 PU/mg after recovery from the capture column which gave about ninefold purification of the enzyme. Increased productivity was achieved by operating integrated bioreactor system continuously for 32 days under product inhibition free conditions during which no backpressure or culture contamination was observed. A total 152,600 Plough units of urokinase activity was recovered from 500 mL culture medium using 38 capture columns over a period of 32 days.     

Adsorptive purification of pDNA on superporous rigid cross-linked cellulose matrix

Use of plasmid DNA (pDNA) in the emerging gene therapy requires pure DNA in large quantities requiring production of safe DNA on large scale. While a number of kit-based DNA purification techniques have become popular, large scale cost effective purification of DNA remains a technological challenge. Most traditional, as well as newly developed methods for DNA purification are expensive, tedious, use toxic reagents, and/or generally not amenable for scaled up production. Our attempts to develop a scalable adsorptive separation technology resulted in successful use of indigenously developed rigid cross-linked cellulose beads for single step purification of pDNA from alkaline cell lysates. This mode of purification employs a combination of intra-particle interactions that could give a product plasmid DNA free from chromosomal DNA, RNA and host proteins in a single scalable chromatographic step. The technology can be employed as a batch adsorption step on small scale, or on a large scale column chromatography. A high copy number 9.8 kb plasmid (from an Escherichia coli strain) was purified in yields of 77 and 52%, respectively in batch and column modes. The product obtained was homogeneous supercoiled plasmid with no RNA and protein contamination confirmed by quantitative analysis, agarose gel electrophoresis and SDS-PAGE.     

Preparation of a novel hydrophobic affinity cryogel for adsorption of lipase and its utilization as a chromatographic adsorbent for fast protein liquid chromatography

In this study, we have prepared a hydrophobic cryogel for the chromatographic separation of lipase from its aqueous solutions including single protein and protein mixture and also Yarrowia lipolytica cell extract. N‐methacryloyl‐(l )‐phenylalanine methyl ester was used as a monomer to provide the hydrophobic character to the prepared cryogels. The highest adsorption capacity was observed at pH 5.0 at 0.5 mL min^?1 flow rate. The chromatographic separation of lipase was achieved from a binary mixture of lipase:bovine serum albumin (BSA) and lipase:lysozyme, and was also achieved from triple‐mixture of lipase:lysozyme:BSA by using fast protein liquid chromatography. Finally, lipase purification was performed from Yarrowia lipolytica cell extract used as a natural source. These studies have shown that the hydrophobic cryogel has good chromatographic performance for the separation and purification of lipase not only from aqueous solution, but also from cell extract as a natural source of lipase. © 2013 American Institute of Chemical Engineers Biotechnol. Prog., 30:376–382, 2014     

Single step purification of plasmid DNA using peptide ligand affinity chromatography

Single step affinity chromatography was employed for the purification of plasmid DNA (pDNA), thus eliminating several steps compared with current commercial purification methods for pDNA. Significant reduction in pDNA production time and cost was obtained. This chromatographic operation employed a peptide-monolith construct to isolate pDNA from Escherichia coli (E. coli) impurities present in a clarified lysate feedstock. Mild conditions were applied to avoid any degradation of pDNA. The effect of some important parameters on pDNA yield was also evaluated with the aim of optimising the affinity purification of pDNA. The results demonstrate that 81% of pDNA was recovered and contaminating gDNA, RNA and protein were removed below detectable levels.