An automatic multidimensional chromatography system for purification of human uterine progesterone receptor and induction of polyclonal antibodies

This paper reports on the synthesis of Org2058-bonded microparticulate silicas and their use in affinity chromatography as the first step for the purification of human progesterone receptor. The development of microprocessor-controlled instruments allows all the various steps to be performed automatically. The various steps used for the purification of human progesterone receptor were carried out with the FPLC system: affinity chromatography, desalting of eluate on Sephadex G-25, anion-exchange chromatography using a Mono Q column. With this procedure the receptor was purified approx. 10,000-fold within 24 h. The yield of receptor was generally 85-95%. Investigations with induced anti-progesterone receptor antibodies obtained after the fourth immunization show their immunoreactive behaviour towards progesterone receptor in crude cytosol, which was proved by sucrose density gradient centrifugation and by gel filtration on the FPLC system using a Sepharose 12 column. This implies that progesterone receptor was efficiently purified by our purification procedure.     

A simple and efficient procedure for the isolation of high-quality phage lambda DNA using a DEAE-cellulose column

A simple and rapid procedure for purifying large quantities of bacteriophage lambda particles and DNA is described. The procedure involves DEAE-cellulose column chromatography of the phage particles and elution of the phage particles from the column with a low-ionic-strength buffer. The resulting phage were well separated from RNA, DNA, and proteins derived from Escherichia coli host cells. The lambda DNA was prepared from the purified phage particles by the conventional method of phenol extraction and ethanol precipitation. This procedure did not use nucleases, proteases, detergents, or CsCl density gradient centrifugation. The lambda DNA obtained by this method was equivalent in purity to the material prepared by CsCl density gradient centrifugation and amenable to restriction enzyme digestion, ligation, radiolabeling, and double-stranded DNA sequencing. A detailed protocol is described for obtaining 0.5 to 1.0 mg DNA from a 1-liter liquid lysate in less than 5 h. This procedure is simple, inexpensive, and timesaving, and is particularly suitable for large-scale isolation of lambda DNA.     

Purification of NAD glycohydrolase from Agkistrodon acutus venom

NAD glycohydrolase (NADase) from Agkistrodon acutus venom was purified to electrophoretic homogeneity by a fast, reproducible 3-step procedure including Q Sepharose Fast Flow, Superdex 75, and Mono S column chromatography. This new procedure gave a 15.6-fold purification with a recovery yield of 7.9% and a specific activity of 12.8 units/mg.     

Purification of plasmid DNA by fast protein liquid chromatography on superose 6 preparative grade

We were able to reduce both the time and the use of hazardous chemicals associated with the previous plasmid isolation methods of high-pressure liquid chromatography and CsCl gradient centrifugation by employing fast protein liquid chromatography (FPLC). Plasmid was first crudely prepared from bacterial cultures by a standard alkaline lysis method. After an alcohol precipitation, the nucleic acids were divided into two equal portions. One half was used for a standard purification method employing CsCl centrifugation. The other was dissolved in FPLC buffer, treated with RNase A, and applied to a Superose 6 preparative grade column (HR 10/30). Plasmid eluted off the column within 20 min as a single, highly resolved peak. Plasmid isolated by FPLC had yields, purity, and transformation efficiencies similar to that isolated by CsCl centrifugation.     

Monitoring of protein product formation during fermentation with fast protein liquid chromatography

A method is described using fast protein liquid chromatography (FPLC) for the monitoring of protein formation during fermentation. The procedure consists of centrifugation to recover the cells, sonication of the cells, centrifugation to remove cell debris, and analysis of supernatant on a column of Mono Q (a strong anion exchanger). Analysis of peak areas provides quantitative determination of product concentration. Maintenance and life of the Mono Q column is discussed. We find that FPLC is a convenient method for measuring products in cell homogenates because it gives rapid, highly resolved separations.     

Large-scale purification of plasmid DNA by anion-exchange high-performance liquid chromatography.

Numerous methods have previously been reported for the final steps in the large-scale purification of plasmid DNA. Although gel permeation and reverse-phase high-performance liquid chromatography have been utilized for this procedure in the past, the limited capacity of these systems often necessitated multiple rounds of chromatography, especially with the high copy number plasmids commonly in use today. In this paper, the use of the high-capacity, high-resolution Protein-Pak DEAE 8HR column is presented for the large-scale isolation of highly purified plasmid DNA from crude E. coli cell lysates. Up to 5 mg of plasmid DNA have been purified in a single 50-minute chromatography run. The purified DNA demonstrated excellent biological activity as demonstrated by restriction endonuclease digestion, E. coli transformation and DNA-mediated gene transfection of eukaryotic cells.     

huGM-CSF(9-127)-IL-6(29-184)融合蛋白的复性及纯化研究

利用Q Sepharose H.P.离子交换柱层析在8mol/L尿素变性条件下对huGM-CSF(9-127)-IL-6(29-184）融合蛋白进行初步纯化,然后再利用Sephacryl S-200分子筛柱层析复性及纯化后获得目的蛋白,其纯度达到95％以上。该纯化方案成功地解决了稀释复性或透析复性产物在进行Q Sepharose H.P.离子交换柱层析时目的蛋白不稳定而沉积于柱上的问题,获得了较好的复性效果,复性率达到80％以上。使用该纯化方案,1天内便可基本完成重组蛋白的复性及纯化过程,而且也便于扩大。     

Purification of plasmid DNA by tangential flow filtration

A simple, scalable method for purification of plasmid DNA is described. The method includes modification of the classical alkaline-lysis-based plasmid extraction method by extending the solubilization step from less than 30 min to 24 h. The extraction is followed by the novel use of tangential flow filtration (TFF) for purification of the remaining contaminants. The method does not include the use of any organic solvents, RNase, high-speed centrifugation, or column chromatography steps. The method typically yields 15 to 20 mg of plasmid DNA per liter of bacterial culture and results in removal of >99% of RNA and >95% of the protein that remains after the modified alkaline lysis procedure. The procedure has been demonstrated to be effective in the isolation of seven different plasmids. Plasmids isolated using this method had comparable transfection capability relative to plasmid isolated using a classical, cesium chloride gradient-based method.     

Large-scale isolation of covalently closed circular DNA using gel filtration chromatography

The isolation of covalently closed circular (ccc) DNA free of contamination by RNA and other forms of DNA is fundamental to molecular biology. A variety of methods have been explored but CsCl density-gradient centrifugation remains the method most widely used for preparative scale resolution. The process is expensive, time-consuming, requires the use of large amounts of the carcinogen ethidium bromide, and is subject to considerable variation in yield and purity. To avoid these problems, we have devised a procedure for the preparation of cell lysates which results in consistently good yields of biologically active ccc DNA minimally contaminated with chromosomal DNA fragments and RNA. Lysates are deproteinized, precipitated with CaCl2 to remove rRNA, concentrated by ethanol precipitation, and applied to a Sephacryl S-1000 column which resolves chromosomal fragments, open circular plasmid DNA, and residual RNA from the ccc DNA. We have found that substituting the gel filtration column for CsCl density-gradient centrifugation results in substantially better purification as well as reducing processing time, cost, and degree of difficulty. The time required from harvest of cells to final recovery of DNA is about 16 h. We have used the method to isolate plasmids from 4.4 to 12 kb and, with slight modifications, recombinant M13 replicative form DNAs.     

Purification and characterization of DNA polymerases from Bacillus species.

DNA polymerases from Bacillus stearothermophilus, Bacillus caldotenax, and Bacillus caldovelox were purified by chromatography on DEAE-cellulose, phosphocellulose, and heparin-Sepharose and obtained in high yield. The enzyme preparations are free of exo- and endonuclease activities. Additional purification steps, e.g., hydrophobic interaction chromatography and chromatography on a Mono Q column or sucrose density gradient centrifugation, are needed to obtain the enzymes in the form of homogeneous 95-kDa proteins. Each of the three organisms possesses a major DNA polymerase activity comparable to DNA polymerase I. The enzymes require Mg2+ (10 to 30 mM) for optimal activity, although 0.4 mM Mn2+ could substitute for magnesium. The optimal reaction temperatures were lowest in B. stearothermophilus (60 to 65 degrees C) and about equal in B. caldovelox and B. caldotenax (65 to 70 degrees C). The thermal stabilities of the enzymes increased in the same order. The DNA polymerase from Thermus thermophilus was isolated for comparison by using a similar procedure. The enzyme was obtained as a homogeneous 85-kDa protein that was also free of exo- and endonucleolytic activities.     

A simple procedure for large-scale purification of plasmid DNA

We report a simple, rapid and reliable procedure for large-scale purification of plasmid DNA from non-amplified bacterial cultures. It is a modification of the boiling method of Holmes and Quigley [Anal. Biochem. 114 (1981) 193-197] and involves gel-filtration chromatography using Sephacryl S-1000 for final purification of plasmid DNA. This method does not require CsCl gradients and the recovered plasmids are free of RNA and chromosomal DNA, are supercoiled, retain their biological activity, and are suitable for restriction analysis.     

Purification of a full-length recombinant glucocorticoid receptor

We described a novel purification method for a recombinant glucocorticoid receptor (GR) in detail. The purification procedure consists of sequential chromatographies using common ion-exchange columns (Mono Q and Mono S). This procedure is based upon a new finding that the activated GR binds both to a Mono Q column and to a Mono S column at the same pH. The entire chromatographies took about 3 h and GR represented 97% of the purified protein sample. This purification protocol will be applicable to the purification of native GR, point-mutated recombinant GR and other nuclear receptors.     

Use of Mono Q high-resolution ion-exchange chromatography to obtain highly pure and active Escherichia coli RNA polymerase

A method for the purification of highly pure and active Escherichia coli RNA polymerase holoenzyme is described. This method is simple, reproducible, and can be performed at room temperature. The procedure involves the high-performance liquid chromatography of a partially purified RNA polymerase sample on a Mono Q ion-exchange column. Under the conditions used, RNA polymerase holoenzyme is well separated from the core RNA polymerase and other impurities. The purified RNA polymerase contains virtually no impurities as judged by SDS-polyacrylamide gel electrophoresis. The purified RNA polymerase holoenzyme contains the sigma 70 subunit in stoichiometric amounts and is at least 90% active.     

Purification of bacteriophage M13 by anion exchange chromatography

M13 is a non-lytic filamentous bacteriophage (phage). It has been used widely in phage display technology for displaying foreign peptides, and also for studying macromolecule structures and interactions. Traditionally, this phage has been purified by cesium chloride (CsCl) density gradient ultracentrifugation which is highly laborious and time consuming. In the present study, a simple, rapid and efficient method for the purification of M13 based on anion exchange chromatography was established. A pre-packed SepFast™ Super Q column connected to a fast protein liquid chromatography (FPLC) system was employed to capture released phages in clarified Escherichia coli fermented broth. An average yield of 74% was obtained from a packed bed mode elution using citrate buffer (pH 4), containing 1.5 M NaCl at 1 ml/min flow rate. The purification process was shortened substantially to less than 2 h from 18 h in the conventional ultracentrifugation method. SDS-PAGE revealed that the purity of particles was comparable to that of CsCl gradient density ultracentrifugation method. Plaque forming assay showed that the purified phages were still infectious.     

Overexpression and purification of the separate tryptophan synthase alpha and beta subunits from Salmonella typhimurium.

To obtain high levels of expression of the free alpha and beta subunits of tryptophan synthase from Salmonella typhimurium, we have used two plasmids (pStrpA and pStrpB) that carry the genes encoding the alpha and beta subunits, respectively. The expression of each plasmid in Escherichia coli CB149 results in overproduction of each subunit. We also report new and efficient methods for purifying the individual alpha and beta subunits. Microcrystals of the beta subunit are obtained by addition of polyethylene glycol 8000 and spermine to crude bacterial extracts. This crystallization procedure is similar to methods used previously to grow crystals of the S. typhimurium tryptophan synthase alpha 2 beta 2 complex for X-ray crystallography and to purify this complex by crystallization from bacterial extracts. The results suggest that purification by crystallization may be useful for other overexpressed enzymes and multienzymes complexes. Purification of the alpha subunit utilizes ammonium sulfate fractionation, chromatography on diethylaminoethyl-Sephacel, and high-performance liquid chromatography on a Mono Q column. The purified alpha and beta subunits are more than 95% pure by the criterion of sodium dodecyl sulfate gel electrophoresis. The procedures developed can be applied to the expression and purification of mutant forms of the separate alpha and beta subunits. The purified alpha and beta subunits provide useful materials for studies of subunit association and for investigations of other properties of the separate subunits.     

A simplified method for the production of recombinant baculovirus

A simplified method for producing recombinant baculovirus for expression of foreign genes is described. The method utilizes insect cells infected with the wild-type virus before transfection with the plasmid transfer vector, instead of the standard procedure utilizing cotransfection with a plasmid and viral DNA. Recombinant virus is preselected by a limiting dilution dot-blot hybridization procedure, rather than by morphologic criteria alone. In addition, we have found that plasmid purification by anion-exchange chromatography is as efficacious for transfection as plasmid purified by cesium chloride density gradient centrifugation. These modifications allows for an efficient, rapid, inexpensive and more objective protocol for the selection of recombinant baculovirus compared to the conventional protocol.     

Simultaneous purification of DNA topoisomerase I and II from eukaryotic cells

We have developed a procedure for the simultaneous purification of DNA topoisomerase I and II from calf thymus. Both enzymes were first extracted from isolated nucleoprotein complexes. After batchwise chromatography on hydroxylapatite the two enzyme activities were separated on a FPLC phenylsuperose column. The enzymes were further purified by a second chromatography on phenylsepharose (topo I) or FPLC Mono Q (topo II). The purification can be finished within three days, yielding 0.5-1.0 mg quantities of homogeneous, enzymatic active preparations of the two proteins from 200 g of starting material.     

Rapid purification of plasmid DNA by a single centrifugation in a two-step cesium chloride-ethidium bromide gradient

A procedure for rapid, preparative purification of plasmid DNA is described and compared with a conventional equilibrium centrifugation method. A discontinuous, two-step CsCl-ethidium bromide gradient is used, with the starting position of the plasmid-containing extract being at the bottom of the tube. During centrifugation in a fixed angle rotor, covalently closed circular plasmid DNA is separated from contaminating protein, RNA, and chromosomal DNA in 5 hr. Plasmids purified by this method are considerably less contaminated with RNA than when purified by a 48-hr equilibrium run in a homogeneous gradient, as determined by agarose gel electrophoresis and 5'-end-labeling studies. Plasmid DNA purified in two-step gradients can be used directly for restriction endonuclease analysis and DNA sequencing.     

A Simple Method for the Purification of Organelle DNA of Plants

We report here a simple procedure for the purification of the organelle DNA. Mitochondrial DNA from Sorghum and the chloroplast DNA from Populus and spinach were purified using this protocol. The method utilizes a quick centrifugation of the isolated organelle DNA through a two step CsCl density gradient for removal of small molecular weight nucleic acids which pose a major problem for getting clean restriction patterns. This method of purification can be adopted with any isolation procedure for organelle DNA.