A procedure for the large-scale isolation of highly purified plasmid DNA using alkaline extraction and binding to glass powder

A preparative procedure for obtaining highly purified plasmid DNA from bacterial cells is described. The method is adapted from our earlier procedure, which gave partially purified plasmid in a form suitable for rapid screening of a large number of samples. In the present method, all detectable RNA, chromosomal DNA, and protein are removed without the use of enzymes, phenol extraction, dialysis, or equilibrium centrifugation. Binding of plasmid DNA to glass powder in the presence of 6 m sodium perchlorate is used for the final purification step.     

Simple and rapid preparation of plasmid template by a filtration method using microtiter filter plates.

We developed a new simple high-throughput plasmid DNA extraction procedure, based on a modified alkaline lysis method, using only one 96-well microtiter glassfilter plate. In this method, cell harvesting, lysis by alkaline and plasmid purification are performed on only one microtiter glassfilter plate. After washing out RNAs or other contaminants, plasmid DNA is eluted by low-ion strength solution, although precipitated chromosomal DNA is not eluted. The plasmid prepared by this method can be applied to sequencing reactions or restriction enzyme cleavage.     

A procedure for the isolation and purification of plasmid DNA from Rhizobium meliloti

A procedure is described for the isolation and purification of the DNA of plasmids that are indigenous to the agriculturally important nitrogen-fixing bacterium Rhizobium meliloti. The procedure involves the lysis of bacteria with an ionic detergent or a mixture of ionic and nonionic detergents, the extraction of total DNA from precipitated membrane-DNA complexes, the enrichment of supercoiled plasmid DNA by the selective alkaline denaturation of chromosomal DNA, and a further purification of plasmid DNA using cesium chloridepropidium diiodide gradients. This procedure yields pure plasmid DNA in amounts of 30 to 50 μg per liter of a culture of cell density of approximately one A550 unit. The DNA thus obtained has been found to be of sufficient purity to serve as substrate for the most commonly used restriction endonucleases.     

Evaluation of six methods for extraction and purification of viral DNA from urine and serum samples

The sensitivity and reliability of PCR for diagnostic and research purposes require efficient unbiased procedures of extraction and purification of nucleic acids. One of the major limitations of PCR-based tests is the inhibition of the amplification process by substances present in clinical samples. This study used specimens spiked with a known amount of plasmid pBKV (ATCC 33-1) to compare six methods for extraction and purification of viral DNA from urine and serum samples based on recovery efficiency in terms of yield of DNA and percentage of plasmid pBKV recovered, purity of extracted DNA, and percentage of inhibition. The most effective extraction methods were the phenol/chloroform technique and the silica gel extraction procedure for urine and serum samples, respectively. Considering DNA purity, the silica gel extraction procedure and the phenol/chloroform method produced the most satisfactory results in urine and serum samples, respectively. The presence of inhibitors was overcome by all DNA extraction techniques in urine samples, as evidenced by semiquantitative PCR amplification. In serum samples, the lysis method and the proteinase K procedure did not completely overcome the presence of inhibitors.     

Large-scale purification of plasmid DNA by fast protein liquid chromatography using a Hi-Load Q Sepharose column.

The large-scale purification of plasmid DNA was achieved using fast protein liquid chromatography on a Hi-Load Q Sepharose column. This method allows for the purification of plasmids starting from crude plasmid DNA, prepared by a simple alkaline lysis procedure, to pure DNA in less than 5 h. In contrast to the previously described plasmid purification methods of CsCl gradient centrifugation or high-pressure liquid chromatography, this method does not require the use of any hazardous or expensive chemicals. More than 100 plasmids varying in size from 3 to 15 kb have been purified using this procedure. A Mono Q Sepharose column was initially used to purify plasmids smaller than 8.0 kb; however, a Hi-Load Q Sepharose column proved more effective with plasmids larger than 8 kb. The loading of plasmids larger than 8 kb on the Mono Q column resulted in a high back pressure and the plasmid DNA could not be eluted from the column. Thus, for routine purification we utilize the Hi-Load Q Sepharose column. Plasmids purified by this method had purity, yield, and transfection efficiency in mammalian cells similar to those of plasmids purified by CsCl density gradient centrifugation.     

Large scale purification of plasmid DNA

A simple and rapid procedure for large scale purification of plasmid DNA is described. The procedure consists of two main steps: 1. Alkaline extraction of plasmid DNA (by a slight modification of the method of Birnboim and Doly (1)) and 2. Purification of the crude extract by hydroxyapatite chromatography. The plasmids obtained are biologically active and can be used in gene manipulation experiments.     

Rapid and simple removal of contaminating RNA from plasmid DNA without the use of RNase

A procedure for the removal of RNA and RNA fragments from large quantities of pBR322 plasmid DNA without the use of RNase is described. Sephacryl S-300 is employed for the separation of low-molecular-weight RNA from plasmid DNA molecules on the basis of gel filtration. The technique thus circumvents many of the dangers associated with treating plasmid DNA preparations with RNase. The procedure should be generally applicable to the purification of virtually any type of plasmid DNA isolated from a bacterial host.     

An improved method for rapid purification of covalently closed circular plasmid DNA over a wide size range

An improved method has been developed for the large-scale purification of covalently closed circular (CCC) plasmid DNA molecules of sizes ranging from 4·3 to 73 kb. This protocol uses an alkaline-lysis procedure followed by acid-phenol extraction but with several modifications to previously reported methods. The principal modification is the replacement of NaCl by MgCl₂ in the extraction buffer to improve yield and to remove chromosomal and other non-CCC plasmid DNA. Plasmid DNA can be purified in less than 1 h and used successfully in restriction enzyme analysis and cloning experiments.     

A continuous method for the large-scale extraction of plasmid DNA by modified boiling lysis

This protocol describes a streamlined method of plasmid DNA extraction by continual thermal lysis, a modification of the basic boiling lysis technique, to simplify the processing of large volumes of Escherichia coli cultures. Fermented bacteria are harvested using a hollow fiber-membrane module and pre-treated with lysozyme prior to passing through a thermal exchange coil set at 70 degrees C to lyse the cells, and into a juxtaposed cooling coil on ice. The lysed and cooled bacteria are subsequently separated from the lysate by centrifugation and plasmid DNA is precipitated from the supernatant for further purification. The use of peristaltic pumps and two heating coils at constant temperature without the use of centrifugation enable the lysis process to become constant and controllable, providing a flow-through protocol for cell lysis and plasmid DNA extraction. Large volumes of bacterial cultures (20 l) can be processed in 2 h, yielding approximately 100 mg plasmid DNA l(-1) culture, making this an attractive protocol for consistent and large-scale preparation of plasmid DNA.     

Rapid isolation of high quality, multimeric plasmid DNA using zwitterionic detergent

Purification of plasmid DNA from bacteria is an essential tool in recombinant DNA technology and has become an essential task in laboratories to industries. Moreover, the recent progress of "Gene therapy" and "Genetic vaccination" also demands production of pharmaceutical grade plasmid DNA in 'kilogram' level. Despite existence of a number of purification protocols, all most all have been originated from a pioneering work [Birnboim, H.C., Doly, J., 1979. A rapid extraction procedure for screening recombinant plasmid DNA. Nucleic Acids Res. 7, 1513-1523] and so suffer from one or more drawbacks, such as purification time, purity or quantity of isolated plasmid DNA. Here, we have reported an innovative approach for isolation of highly pure and functional plasmid DNA in significant amount, based on generation of "soft protein aggregate" with the help of zwitterionic detergents and alkali. Solibilized proteins and RNA could be removed by a simple and mild washing with Tris buffer of low ionic strength and multimeric plasmid DNA could be eluted in a single step from the protein aggregate. Additionally, isolated plasmid DNA could easily be digested by restriction enzymes and had high functionality in protein expression. Thus, considering both its remarkable simplicity and efficiency in producing sufficiently pure plasmid DNA, the new strategy would emerge a useful tool in modern recombinant technology and therapeutic applications.     

A simple method for recovering DNA from agarose gels using glass fibre filters

A simple and reproducible procedure for the recovery of plasmid DNA is described. The method was standardised for the purification of plasmids from Gluconobacter oxydans ATCC9937. The protocol is based on the use of glass microfibre filter paper for entrapment of DNA and its subsequent recovery by an elution buffer. The method precludes the use of phenol and butanol for the removal of proteins and ethidium bromide respectively, therefore, making the procedure inexpensive and gentle.     

Development of technology for purification of plasmid DNAs for pharmaceutical purposes

Optimization of the stage of fractioning of nucleotide material has been performed, and a technology for purification and obtaining of plasmid DNAs for pharmaceutical purposes has been developed. Plasmid DNAs can be used for construction of DNA vaccines to urgent viral infections. Conditions for extraction and preliminary purification of DNA by salt and alcohol precipitations were determined. An effective gel-filtration procedure of separation of plasmid DNA from contaminants was suggested.     

Rapid purification of Ti plasmids from Agrobacterium by ethidium bromide treatment and phenol extraction

An efficient method is described for the purification of Ti plasmid DNA from Agro-bacterium. The procedure is based on the relative binding capacity of ethidium bromide to supercoiled plasmid DNA and linear DNA and on the high solubility of ethidium bromide in phenol. Following treatment with ethidium bromide, more than 87% of linear chromosomal DNA and most of the RNA was present in the phenol phase, while 91% of Ti plasmid DNA was recovered from the aqueous phase. The Ti plasmid DNA was sufficiently pure for restriction endonuclease analysis and cloning. The procedure is simple, fast and provides eight times higher yield than the standard isopycnic ultracentrifugation method.     

A novel procedure for the isolation of glycolipids from Bifidobacterium adolescentis 94 BIM using supercritical carbon dioxide

This study describes a novel isolation procedure for major glycolipids from Bifidobacterium adolescentis 94 BIM. The procedure consists of the use of supercritical carbon dioxide (scCO(2)) with hydro-methanolic solution as co-solvent. The major glycolipids were isolated using the following operating conditions: pressure, 30 MPa, co-solvent concentration, 10% (9:1, methanol/water, v/v), CO(2) flow rate, 5 g/min, extraction time and temperature, 2h and 55 degrees C, respectively. The reference glycolipids sample was prepared by classical organic solvent extraction followed by chromatographic purification. All isolates were characterized by TLC and the major glycolipids additionally by enzyme linked immunosorbent (ELISA). Sixty milligrams of glycolipids with similar immunoreactivity as the reference glycolipids were isolated from 1g of freeze-dried biomass (6% of yield).     

The use of cetyltrimethylammonium bromide for the rapid isolation from Staphylococcus aureus of relaxable and non-relaxable plasmid DNA suitable for in vitro manipulation

Plasmid DNA was isolated from Staphylococcus aureus by a rapid method that depends on the precipitation of DNA from cleared lysates by cetyltrimethylammonium bromide at low salt concentrations. The method was validated by its ability to provide DNA for restriction analysis of a highly relaxable plasmid species that is not isolated by more traditional techniques. The DNA can be digested with restriction endonucleases and used for transformation without further purification. The method also provides the basis for analysing staphylococcal plasmids that display a high frequency of deletion after transfer. Simple modifications of the technique allow plasmid DNA to be isolated from other bacteria and the rapid purification of DNA samples before in vitro manipulation.     

Simple preparation of parapoxvirus genome DNA for endonuclease analysis

We compared five methods for improved extraction of very-large parapoxvirus DNA from infected cells: (i) alkaline-lysis procedure followed by phenol extraction; (ii) modified Hirt procedure, which was a neutral lysis procedure followed by phenol extraction; (iii) Hirt procedure; (iv) method used for extraction of vaccinia virus DNA; and (v) standard procedure using virus purification with an ultracentrifuge and protease-sodium dodecyl sulfate-phenol treatment. The alkaline-lysis procedure was more rapid, inexpensive and simpler than the other methods. Moreover, with this method it is not necessary to prepare any special facilities, reagents and kits. Although the extracted DNA was still crude, we could reproducibly prepare viral DNA from 2 X 10(6) infected cells in less than 2 hr and it could be readily digested by restriction endonuclease. This method will aid rapid genetic classification of parapoxvirus.     

Large-scale isolation of plasmid DNA using cetyltrimethylammonium bromide

A rapid procedure for the large-scale isolation of plasmid DNA is described. The method utilizes cetyltrimethylammonium bromide to precipitate the plasmid following extraction of DNA by lysozyme digestion and boiling. The plasmid is then purified by passing through the spin column pZ523. The purity and yield of the plasmid obtained with this method is similar to that isolated by cesium chloride-ethidium bromide gradient centrifugation. The method does not involve any phenol-chloroform extractions and takes five to six hours for completion after growth of the bacterial cells. The plasmid obtained is amenable to digestion with various restriction endonucleases, can be used for cloning with high efficiency and is also suitable as template for dideoxy sequencing.     

Purification of plasmid DNA using tangential flow filtration and tandem anion-exchange membrane chromatography

A new bioprocess using mainly membrane operations to obtain purified plasmid DNA from Escherechia coli ferments was developed. The intermediate recovery and purification of the plasmid DNA in cell lysate was conducted using hollow-fiber tangential filtration and tandem anion-exchange membrane chromatography. The purity of the solutions of plasmid DNA obtained during each process stage was investigated. The results show that more than 97% of RNA in the lysate was removed during the process operations and that the plasmid DNA solution purity increased 28-fold. One of the main characteristics of the developed process is to avoid the use of large quantities of precipitating agents such as salts or alcohols. A better understanding of membrane-based technology for the purification of plasmid DNA from clarified E. coli lysate was developed in this research. The convenience of anion-exchange membranes, configured in ready-to-use devices can further simplify large-scale plasmid purification strategies.     

A method for plasmid purification directly from yeast

A rapid technique for purifying plasmids from yeast Saccharomyces cerevisiae is described that yields high-quality DNA suitable for bacterial transformation, yeast transformation, and direct DNA sequencing. The method requires only small culture volumes and proprietary bacterial plasmid miniprep kits that allow one to simultaneously prepare a large number of samples in a very short period of time while avoiding the use of toxic organic chemicals. Both yeast single-copy CEN/ARS and high-copy 2micro shuttle plasmids can be isolated using this method. This technique is useful for plasmid purification from yeast two-hybrid experiments as well as yeast genetics and molecular biology experiments.