Modified plasmid isolation method for Clostridium perfringens and Clostridium absonum

A rapid plasmid isolation procedure for Clostridium perfringens and C. absonum is described. The ratio of culture volume to lysis buffer volume was found to be crucial for efficient plasmid isolation. The method can be scaled up, without difficulty, for large-scale plasmid preparation.     

Modified plasmid isolation method for Clostridium perfringens and Clostridium absonum.

A rapid plasmid isolation procedure for Clostridium perfringens and C. absonum is described. The ratio of culture volume to lysis buffer volume was found to be crucial for efficient plasmid isolation. The method can be scaled up, without difficulty, for large-scale plasmid preparation.     

A general method for plasmid isolation in lactobacilli

A simple procedure for rapid isolation and detection of plasmid DNA fromLactobacillus species is described. Using an alkaline-detergent lysis method, plasmid DNA was released and characterized from cells treated with either mutanolysin or lysozyme for 1 h at 0°C. Treatment of cells with either enzyme at 37°C for 1h was detrimental to plasmid isolation and charaterization in someLactobacillus species. The procedure was effective with small volumes of cells and allowed rapid characterization of plasmid DNA inLactobacillus plantarum, Lactobacillus acidophilus, Lactobacillus helveticus, andLactobacillus bulgaricus strains.     

A rapid method for the isolation of plasmid DNA from bacteria

Summary A rapid method is described for the isolation of plasmid DNA from Escherichia coli and Pseudomonas putida. The effect of heating the cell preparation during plasmid extraction is discussed in relationship to the final plasmid yield.     

A simple procedure for maximum yield of high-quality plasmid DNA

We have established a simple procedure for the rapid isolation of high-quality plasmid DNA suitable for various molecular techniques and provided a step-by-step protocol. The DNA samples isolated by this procedure have been used successfully for double-stranded DNA sequencing, restriction enzyme mapping, subcloning, in vitro mutagenesis, generation of deletion clones and so on. The procedure is highly reproducible, and superior quality DNA can be obtained without the use of phenol, chloroform or other organic solvents.     

碱裂解提取质粒DNA的改进

碱裂解提取质粒DNA是分子生物学实验中常用的方法,但通常方法所提取的质粒往往含有大量的RNA和其他杂质.本文适时加入较高浓度的RNA酶和适当延长冰浴时间,结果得到了几乎没有RNA和其他杂质的高纯质粒DNA,不仅达到了分子生物学实验要求,而且可用作抗原检测抗dsDNA抗体.该法操作简单、经济、实用.     

An efficient method for isolation of plasmid DNA from methylotrophic bacteria

A method, suitable for the isolation of closed circular plasmid DNA from methylotrophic bacteria is described. Improvement of cell lysis was achieved by butanol extraction of cells before application of the lytic agent. Using this method, cryptic plasmids of 7.8, 14, 36 and 200 kb were purified from soil-isolated methylotrophs.     

Simple method for extracting plasmid DNA from lactic acid bacteria

Rapid screening and large-scale plasmid DNA isolation procedures are described for lactic acid bacteria, using glass beads to break cells. The rapid screening procedure allows one to obtain plasmid DNA pellets in less than 1 h. This method has been successfully tested on various bacteria from the genera Lactococcus, Leuconostoc, Lactobacillus, Pediococcus, Streptococcus, Enterococcus and Propionibacterium. This procedure yields plasmid DNA with minor chromosomal and plasmid DNA-degraded form contaminations.     

Rapid isolation of substrate-quality plasmid DNA without CsCl-dye density gradients

The isolation of plasmid DNA produced in transformed bacterial cells is essential for many molecular biology techniques. Two drawbacks to the widely used CsCl-ethidium bromide method of preparation are the need for ultracentrifuge time and the generation of ethidium bromide waste. In this article we describe a method for the quick isolation of plasmid DNA without the use of an ultracentrifuge or ethidium bromide.     

Vertical dye-buoyant density gradients for rapid analysis and preparation of plasmid DNA

A rapid and easy method for the isolation of plasmid DNA, both in analytical and preparative scale, is described. Using dye-buoyant density-gradient centrifugation in a vertical rotor, separation of covalently closed, supercoiled plasmid DNA from relaxed circular and linear DNA is completed within 1 to 2 h.     

A simple method for shortening a plasmid genome using a system of plasmid cointegration mediated by a Tn3 mutant

This paper describes a simple method for the isolation of small plasmids of various sizes from pSMI, a derivative of the resistance plasmid R 100. The method is based on the observation that a repressor-negative mutant of the ampicillin-resistance (amp^r) transposon Tn3, Tn3 No. 5, mediates cointegration of a plasmid carrying Tn 3 No. 5 (pMB8::Tn 3 No. 5) into virtually any site on pSMI. The resulting cointegrate plasmids contain the pSMI sequence which is joined with the amp^r gene of the Tn 3 mutant. This cointegration is so frequent that large cointegrate plasmids can be readily detected in the total plasmid DNA prepared from cells carrying pSMI and pMB8::Tn3 No. 5. We were able to isolate small plasmids of various sizes by digesting the total plasmid DNAs with restriction endonucleases which cut both pSM 1 and Tn3 No. 5 sequences present in the cointegrates and subsequently ligating the restriction fragment containing both the amp^r gene and the region necessary for replication of pSMI. Analysis of these plasmids, named pBV plasmids, with restriction endonucleases and by nucleotide sequencing allowed us to determine regions necessary or unnecessary for replication, thus defining a minimal replication region of pSMI. The present method is generally useful for the isolation of small derivatives from any large plasmid for the study of genes and sites adjacent to or within the minimal replication region of the plasmid.     

Isolation of plasmid DNA from Bifidobacterium

Conditions for accumulation of the biomass and a procedure for isolation of plasmid DNA from bifidobacteria in microquantities were developed. It was shown that all the strains tested had 1 to 3 plasmids of different molecular weights electrophoretically detected. Relation between the detected plasmid DNA and bifidobacteria resistance to tetracycline and fusidin as well as utilization of some carbohydrates is discussed.     

A simple method for the direct extraction of plasmid DNA from yeast

Summary A rapid and simple method for the small scale isolation of shuttle plasmid DNA from Saccharomyces cerevisiae is described. It uses glass beads to break cells and reagents which are also used in bacterial mini-preps to yield plasmid DNA without chromosomal contamination in sufficient quantities to enable direct visualisation on agarose gels.     

A procedure for large-scale plasmid isolation without using ultracentrifugation.

An expedient procedure for large-scale plasmid isolation from Escherichia coli strains without using ultracentrifugation or special setups or reagents is described. The protocol, which utilizes a modified alkaline extraction procedure as well as differential precipitations by isopropanol and lithium chloride, is simple and rapid and yet produces plasmid DNA with a yield of about 2 mg/liter culture. The isolated plasmids consisted of mostly monomeric and dimeric covalently closed circular DNA. The plasmids could be digested by various restriction endonucleases and were compatible with gene cloning, transfection-gene expression, and viral production.     

Hybrid plasmid pBS251 containing genes for n-alkane degradation

The strain of Pseudomonas aeruginosa BS316 utilizing H-alkanes of the C6-C12 series (Alk+) harbours the 96 Md plasmid pBS250. The use of plasmid RP4 to mobilize Alk+ markers in conjugal transfer to Pseudomonas aeruginosa and Pseudomonas putida has resulted in isolation of transconjugants resistant to antibiotics (due to genes coded by plasmid RP4) and capable of growth on H-alkanes. A transconjugant from this series harbours plasmid pBS251, a derivative of plasmid RP4 containing the genes for octane and octanol catabolism. A fragment of DNA inserted into RP4 has a mol mass 3.8 Md, possesses two restriction sites for EcoRI, one site for PstI, is not restricted by SmaI and BamHI restriction endonucleases, and is localized in the region 4.5-5.7 Md on the physical map of plasmid RP4.     

Thiophilic interaction chromatography for supercoiled plasmid DNA purification

Supercoiled plasmid DNA was selectively purified from its open circular form by thiophilic interaction chromatography, performed in the presence of high concentrations of water-structuring salts. To identify optimal conditions for purification, various aromatic thioether ligands were coupled to a chromatographic support and screened for their ability to separate plasmid isoforms from each other and from other host cell contaminants, including RNA, genomic DNA, protein, and endotoxins. Selectivity of the chromatographic medium depended on the structure of the ligands, with characteristics of the substituents on the aromatic ring determining the resolution between the different plasmid DNA isoforms. Optimal resolution was obtained with ligands consisting of an thioaromate, substituted with highly electronegative groups. When 2-mercaptopyridine was used as a ligand, the difference in conductivity for eluting open circular and supercoiled plasmid DNA is only 6 mS/cm. However, with 4-nitrothiophol the resolution for plasmid DNA separation on the media increased, resulting in a 20 mS/cm difference. When used in combination with a prior group separation step, these aromatic thioether ligands facilitated the isolation of highly purified supercoiled plasmid DNA, suitable for use in gene therapy and DNA vaccine applications.     

Simple and rapid method for isolating large plasmid DNA from lactic streptococci.

A procedure for the rapid isolation of plasmid DNA larger than 30 megadaltons from lactic streptococci is described. This protocol can be used on a preparative scale to isolate sufficient quantities of plasmid DNA required for restriction analysis, cloning, or transformation experiments. A scaled-down protocol is very useful for rapidly screening the plasmid content of streptococcal strains. With this methodology, previously undetected large plasmids were observed.     

Hofmeister series salts enhance purification of plasmid DNA by non-ionic detergents

Ion-exchange chromatography is the standard technique used for plasmid DNA purification, an essential molecular biology procedure. Non-ionic detergents (NIDs) have been used for plasmid DNA purification, but it is unclear whether Hofmeister series salts (HSS) change the solubility and phase separation properties of specific NIDs, enhancing plasmid DNA purification. After scaling-up NID-mediated plasmid DNA isolation, we established that NIDs in HSS solutions minimize plasmid DNA contamination with protein. In addition, large-scale NID/HSS solutions eliminated lipopolysaccharides (LPS) contamination of plasmid DNA more effectively than Qiagen ion-exchange columns. Large-scale NID isolation/NID purification generated increased yields of high-quality DNA compared to alkali isolation/column purification. This work characterizes how HSS enhance NID-mediated plasmid DNA purification, and demonstrates that NID phase transition is not necessary for LPS removal from plasmid DNA. Specific NIDs such as IGEPAL CA-520 can be utilized for rapid, inexpensive, and efficient laboratory-based large-scale plasmid DNA purification, outperforming Qiagen-based column procedures.     

A new rapid procedure for the preparation of plasmid DNA

This report describes a simple and efficient procedure for the isolation of plasmid DNA free from chromosomal DNA, cellular RNA, and protein. The technique comprises a modified cleared lysate procedure of D. B. Clewell and D. R. Helinski (1969, Proc. Natl. Acad. Sci. USA, 62, 1159–1166) followed by high-performance liquid chromatography on a Dupont Bioseries GF250 surface stable diol-coated silica gel permeation column (Zorbax) for the final purification of the plasmid DNA. The use of HPLC facilitates rapid and high-resolution separations within 3–4 h. Plasmid DNA produced in this manner retains its biological activity and exhibits yields equal to those obtained by the conventional cesium chloride-ethidium bromide density centrifugation method.     

High-throughput method for isolating plasmid DNA with reduced lipopolysaccharide content

Isolating plasmid DNA from bacteria is a fundamental step in molecular biology. It is often accomplished by an alkaline lysis of bacteria and the subsequent adsorption of nucleic acids to silica oxide in the presence of chaotropic substances. Here we show that the addition of such chaotropic reagents is not required for the efficient DNA isolation with silica oxide. This surprising finding allowed us to purify plasmid DNA with significantly less lipopolysaccharides (LPS), which is otherwise a common bacterial contaminant of silica oxide-isolated DNA and inhibits subsequent applications. In addition, we have implemented a precipitation step that altogether leads to a reduction of the LPS content by a factor of 900 relative to published methods. Our novel protocol facilitates an inexpensive high-throughput analysis of pure plasmids in a 96-well format without the addition of hazardous reagents.