Isolation of high-molecular-weight DNA from insects.

A simple and rapid method for the isolation of high-molecular-weight DNA from insects is described. The method does not require CsCl ultracentrifugation or extensive dialysis. High-molecular-weight DNA was obtained within 24 h. Since the entire insect was used for DNA isolation, an initial nuclei-enriched fraction was required. Genomic DNA was extracted from lysed nuclei by organic phase separation (liquid/liquid extraction). This method has been successfully applied to the isolation and purification of DNA from eight different adult insects (Heliothis zea, Musca autumnalis, M. domestica, Blatta orientalis, Tenebrio molitor, Lymantria dispar, Ostrinia nubilalis, and Manduca sexta). The recovered DNA can be cleaved with restriction endonucleases, ligated efficiently using standard cloning vectors, and hybridized to synthetic oligonucleotides.     

FRACTIONATION OF NUCLEAR,CHLOROPLAST, AND MITOCHONDRIAL DNA FROM POLYSIPHONIA BOLDII (RHODOPHYTA) USING A RAPID AND SIMPLE METHOD FOR THE SIMULTANEOUS ISOLATION OF RNA AND DNA1

Extraction of nucleic acids from red algae is complicated by the presence of phycocolloids. For this reason, methods used for nucleic acid isolation from other organisms are not always amenable to use with red algal preparations; modifications in some cases lead to protocols that are time consuming and complicated, often requiring large amounts of algal tissue for starting material. Here we describe the isolation of both RNA and DNA followed by fractionation and identification of nuclear, chloroplast, and mitochondrial DNAs from a single preparation of Polysiphonia boldii Wynne and Edwards using a simple method that yielded approximately 100 μg of total RNA and 20 μg of total DNA from 1 g of frozen powdered algae. The potent protein denaturant guanidinium thiocyanate and the detergent sarkosyl were used to gently lyse the cells and organelles and immediately inhibit nuclease activity in the extract. The nucleic acids were isolated by ultracentrifugation into a dense solution of CsCl; the RNA was recovered as a pellet and the DNA as a band within the CsCl solution. Agarose gel electrophoresis of the total RNA showed discrete ribosomal RNA bands, indicating little nonspecific degradation. The nuclear, chloroplast, and mitochondrial DNAs were fractionated by density gradient ultracentrifugation in the presence of the DNA binding dye, bisbenzimide H (Hoechst 33258), which binds preferentially to DNA with a high A + T:G + C ratio, thus altering its density to a greater degree than it does that of DNA with a lower nucleotide ratio. The three fractions were identified by Southern blot analysis using heterologous gene probes specific for the different genomes. The protocol should be applicable to different types of algae. The simple nucleic acid isolation step can be performed on multiple samples simultaneously without subsequent fractionation of DNA, allowing comparison of DNA from different individuals, populations, or species.     

Simultaneous purification of DNA and RNA from small numbers of eukaryotic cells

An extraction procedure for the simultaneous isolation of RNA and DNA from tissue culture cells is described. The procedure is a variation of the guanidium/lithium chloride method for RNA isolation which is rapid, simple, and avoids costly ultracentrifugation equipment. The genomic DNA yielded by this procedure is greater than 50 kb in length and may be readily cleaved by restriction endonucleases. Sufficient DNA for Southern blot analysis, and RNA for Northern blot or nuclease protection analysis, can be obtained from as few as 2 x 10(6) cells, making this method particularly suitable for the genetic screening of large numbers of individual, stably transfected cell clones.     

Filter-supported preparation of lambda phage DNA

A rapid and simple method is described for the isolation of DNA from phage lambda which requires neither special equipment nor expensive material such as cesium chloride for ultracentrifugation nor extractions with organic solvents or ethanol precipitation. Microgram quantities of lambda DNA are obtained in less than 2 h from 90-mm plate lysates or 5-ml liquid cultures. The method allows the simultaneous isolation of large numbers of probes, e.g., clones from phage libraries. Lambda phages are precipitated by polyethylene glycol/sodium chloride and recovered by low speed centrifugation onto glass fiber filters positioned in disposable syringes. The DNA of phages is released by a 50% formamide/4 M sodium perchlorate solution, washed in filter-bound form, eluted with a small volume of low-salt buffer or water, and finally recovered by centrifugation. Comparison of the DNA isolated by this method with that obtained by two conventional procedures reveals both a similar recovery and a similar suitability for restriction enzyme digestion and subcloning.     

A rapid inexpensive method for the isolation of restrictable mitochondrial DNA from various plant sources

A simplified method for the isolation of mitochondrial DNA (mtDNA) of several plant species from either coleoptile or tissue cultured cells is described. The procedure does not require gradient ultracentrifugation or organic solvent extractions (such as phenol, chloroform, ether, etc.). Protoplast isolation is not required for the release of organelles from cell suspension cultured cells. The entire procedure can be performed in a single day and employs differential low speed centrifugations for isolation of mitochondria and differential precipitations for the recovery of restrictable DNA.     

New preparation of PM2 phage DNA and an endonuclease assay for a single-strand break

PM2 is a bacteriophage which has closed circular double-stranded DNA as a genome, which is the sole source for endonuclease assay for a single strand break in the fmol range. Therefore, it is important to isolate PM2 DNA with low control nicks for the endonuclease assay. Usually, the isolation method of phage DNA is to use ultracentrifugation which takes at least 4 days. In this report, a fast and effective method which takes only 2 days was developed to purify DNA using polyethylene glycol (PEG) 8000 and the yields of phage DNA isolated by these two methods were compared. The method using PEG 8000 increased the yield of PM2 DNA from 31.2% to 45.2%, and decreased the nick from 17.1% to 13.1%. Recently, the complete PM2 DNA genome sequence of 10,079 bp was published. The exact number of nucleotides of PM2 DNA is important for the correct enzyme assay which measures nicks generated by an endonuclease. The correct calculation of endonuclease activity of rpS3 for nick-circle assay was performed to measure single-strand breaks in this report. This revised version was published online in June 2006 with corrections to the Cover Date.     

A modified procedure for isolation of yeast mitochondrial DNA

A modified, rapid and inexpensive method for preparation of mitochondrial DNA (mtDNA), suitable for molecular analysis is proposed. It comprises batch cultivation of Saccharomyces cerevisiae strain NBIMCC 583 on a simple nutrient medium at 28 degrees C; permeabialization of cells from late exponential growth phase with cetyltrimethylamonnium bromide, mechanical disintegration of the cell wall; preparation of a mitochondrial fraction and subsequent isolation and purification of mtDNA. The amount and the purity of the obtained mtDNA have been checked and its application for molecular analysis proven. The main advantages of the proposed procedure for isolation of mtDNA are introduction of simple nutrient medium, replacement of the enzymatic lysis of the cell wall by the cheaper mechanical one, avoidance of ultracentrifugation steps and use of harmful chemical substances.     

Recycling Isolation of Plant DNA,A Novel Method

DNA is one of the most basic and essential genetic materials in the field of molecular biology.To date,isolation of sufficient and good-quality DNA is still a challenge for many plant species,though various DNA extraction methods have been published.In the present paper,a recycling DNA extraction method was proposed.The key step of this method was that a single plant tissue sample was recycled for DNA extraction for up to four times,and correspondingly four DNA precipitations(termed as the 1st,2nd,3rd and 4th DNA sample, respectively) were conducted.This recycling step was integrated into the conventional CTAB DNA extraction method to establish a recycling CTAB method.This modified CTAB method was tested in eight plant species,wheat,sorghum,barley,corn,rice,Brachypodium distachyon,Miscanthus sinensis and tung tree.The results showed that high-yield and good-quality DNA samples could be obtained by using this new method in all the eight plant species.The DNA samples were good templates for PCR amplification of both ISSR and SSR markers.The recycling method can be used in multiple plant species and can be integrated with multiple conventional DNA isolation methods,and thus is an effective and universal DNA isolation method.     

Isolation, identification and electrophoretic properties of DNA excreted by human lymphocytes

It was shown that the buoyant density of DNA isolated from lymphocyte incubation media as well as from blood plasma of healthy patients and patients with chronic lympholeukemia (CLL) using the SDS-phenol method with subsequent ultracentrifugation in a cesium trifluoroacetate density gradient is 1.59-1.60 and 1.60-1.63 g/ml, respectively. Using electrophoresis in 0.6% agarose gel, it was found that the DNA excreted by lymphocytes from healthy patients and CLL patients is a high molecular weight fraction comprising 21,000 nucleotide pairs. This DNA fragment contains 90-95% of [3H]thymidine used for the labeling of DNA excreted by lymphocytes from healthy patients and patients with CLL. No traces of [3H]thymidine were found in the middle part of the agarose gel containing the diffuse material bound to ethidium bromide.     

Properties of satellite DNA from Brassica nigra

The DNA components of B. nigra were preparatively separated by equilibrium ultracentrifugation in a CsCl density gradient, the buoyant density of the main component being 1,696 g . cm-3, that of the satellite component--1,704 g . cm-3. The properties of individual DNA fractions were investigated. Four major components could be observed on the differential melting curve of satellite DNA. Using the reassociation kinetics method it was shown that 30% of satellite DNA are presented as a fast reassociating component with a length of a repeated unit of approximately 2,5 . 10(3) nucleotide pairs. The calculated values of Tm and buoyant density suggest that the m5C content in satellite DNA is lower than that in the main component. During equilibrium ultracentrifugation in the density gradients of actinomycin D--CsCl and Hg2+--Cs2SO4 the satellite DNA is split into 4 major components.     

An A + T-rich satelitte DNA in a monocotyledonous plant, Cymbidium.

The DNA of aseptically grown protocorms of a Cymbidium hybrid and in vitro developed leaves, as well as DNA of leaves and flower buds of Cymbidium ceres from the greenhouse, was analysed by analytical ultracentrifugation and thermal denaturation. Upon ultracentrifugation a satellite DNA with a buoyant density of 1.682 g/cm-3 appears as a shoulder on the main band (density 1.694 g/cm-3). Thermal denaturation reveals an inhomogeneous main peak with the major component melting at 84 degrees C and a separate peak melting at 75 degrees C. This is the first demonstration of a satellite DNA in a monocot, and one of the rare examples of a major A + T-rich DNA fraction in a plant.     

RAPD analysis in flax: Optimization of yield and reproducibility using klenTaq 1 DNA polymerase,chelex 100, and gel purification of genomic DNA

We have developed an optimized RAPD analysis approach using the unusually heat-stable KlenTaq1 DNA polymerase. This enzyme is used in conjunction with a genomic DNA isolation method that includes a modified CTAB DNA isolation protocol, ethanol re-precipitation of resuspended nucleic acids from 2M NaCl, and Chelex 100 treatment. When needed, additional gel purification and isolation of high molecular weight DNA for use as a template in RAPD analysis is shown to remove amplification product ambiguity from within isolates of the same line as well as from between lines. This optimized RAPD analysis was used to define polymorphisms in lines of flax nearly isogenic for rust resistance at theL locus. It should also be useful for any plant species.     

A Method for Isolation of Chloroplast DNA and Mitochondrial DNA from Sunflower

We present a method for isolation of chloroplast and mitochondrial DNA from sunflower seedlings. The protocol includes: organelle isolation, deoxyribonuclease treatment, lysis, deproteinisation and a final DNA purification with sodium dodecyl sulphate and potassium acetate. The organelle DNA yield is 5–10 micrograms per gram of tissue and the DNA is fully restrictable. The technique is inexpensive and appropriate for the isolation of multiple samples of organelle DNA from a small amount of tissue.     

DNA Isolation Method Is a Source of Global DNA Methylation Variability Measured with LUMA. Experimental Analysis and a Systematic Review

In DNA methylation, methyl groups are covalently bound to CpG dinucleotides. However, the assumption that methyl groups are not lost during routine DNA extraction has not been empirically tested. To avoid nonbiological associations in DNA methylation studies, it is essential to account for potential batch effect bias in the assessment of this epigenetic mechanism. Our purpose was to determine if the DNA isolation method is an independent source of variability in methylation status. We quantified Global DNA Methylation (GDM) by luminometric methylation assay (LUMA), comparing the results from 3 different DNA isolation methods. In the controlled analysis (n = 9), GDM differed slightly for the same individual depending on extraction method. In the population analysis (n = 580) there were significant differences in GDM between the 3 DNA isolation methods (medians, 78.1%, 76.5% and 75.1%; p<0.001). A systematic review of published data from LUMA GDM studies that specify DNA extraction methods is concordant with our findings. DNA isolation method is a source of GDM variability measured with LUMA. To avoid possible bias, the method used should be reported and taken into account in future DNA methylation studies.     

Cooperative binding of tetrameric p53 to DNA

We analysed by analytical ultracentrifugation and fluorescence anisotropy the binding of p53 truncation mutants to sequence-specific DNA. The synthetic 30 base-pair DNA oligomers contained the 20 base-pair recognition elements for p53, consisting of four sites of five base-pairs per p53 monomer. We found that the binding at low ionic strengths was obscured by artifacts of non-specific binding and so made measurements at higher ionic strengths. Analytical ultracentrifugation of the construct p53CT (residues 94-360, containing the DNA-binding core and tetramerization domains) gave a dissociation constant of approximately 3 microM for its dimer-tetramer equilibrium, similar to that of full-length protein. Analytical ultracentrifugation and fluorescence anisotropy showed that p53CT formed a complex with the DNA constructs with 2:1 stoichiometry (dimer:DNA). The binding of p53CT (1-100 nm range) to DNA was highly cooperative, with a Hill coefficient of 1.8 (dimer:DNA). The dimeric L344A mutant of p53CT has impaired tetramerization. It bound to full-length DNA p53 recognition sequence, but with sixfold less affinity than wild-type protein. It did not form a detectable complex with a 30-mer DNA construct containing two specific five base-pair sites and two random sites, emphasizing the high co-operativity of the binding. The fundamental active unit of p53 appears to be the tetramer, which is induced by DNA binding, although it is a dimer at low concentrations.     

End-labeling of long DNA fragments with biotin and detection of DNA immobilized on magnetic beads

To immobilize DNA fragments onto magnetic beads coated with streptavidin for isolation purpose, it is important to label one biotin molecule at one terminus of DNA fragment. After failure to label long DNA with biotin by PCR and filling-in reaction, a 9.2 kb DNA was labeled with biotin by a modified ligation strategy. A simple method is also reported to detect the quantity and integrity of DNA immobilized on the magnetic beads.     

Isolation of DNA from blood.

A rapid, economical method of DNA isolation from blood was developed that yields DNA suitable for Southern analysis and polymerase chain reactions without organic solvent extractions. Bovine DNA was prepared from peripheral leukocytes and nuclei using pronase E digestion and ethanol precipitation. This isolation method readily adapts to multiple samples. The DNA is characterized by high yield, solubility, lack of protein contamination, and ease of restriction endonuclease digestion.     

Microfluorometric filter determination of DNA in sucrose density gradients

A simple filter method for the fluorometric estimation of DNA in alkaline and neutral sucrose gradient fractions with DABA·2HCl is discussed. Alpha-450 membrane filters of regenerated cellulose (Gelman Instrument Co., Ann Arbor, Michigan) were used. In the proposed method washing of the DNA precipitate as well as the reaction with DABA·2HCl were performed directly on the filters, thus avoiding repeated washing and centrifugations of DNA precipitates applied hitherto in analogous fluorometric techniques. A good coincidence of the results concerning localization of DNA sedimentation profiles determined by radioisotopic and fluorometric methods was obtained. The method is very convenient for DNA estimation in alkaline and neutral sucrose density gradient fractions obtained by ultracentrifugation of DNA of nonproliferating cells where DNA labeling is very difficult, and in the case of human lymphocytes even impossible without stimulation for blastic transformation. Its other advantages are a considerably simplified procedure and a higher precision with respect to other fluorometric methods for determination of DNA.     

Isolation of organellar DNA from Codium fragile (Codiaceae, Codiales, Ulvophyceae)

Organellar DNA was isolated from Codium fragile (Suringar) Hariot (Codiaceae, Codiales, Ulvophyceae) by CsCI-buoyant density centrifugation in the presence of Hoechst dye 33258. Three bands were formed by ultracentrifugation and each fraction of DNA was identified by Southern hybridization. The uppermost fraction was identified as chloroplast DNA, the middle fraction was nuclear DNA and the bottom fraction was mitochondrial DNA. Nuclear rDNA was isolated in the same fraction as mitochondrial DNA. The estimated genome size of mitochondrial DNA by analysis with restriction endonucleases was more than 141.6 kb, which was larger than that of microalgae but smaller than land plants. Restriction endonuclease analysis of the chloroplast DNA showed no difference with that known of C. fragile in New York.     

Purification of eucaryotic extrachromosomal circular DNAs using exonuclease III

A method for the isolation of eucaryotic extrachromosomal circular (ecc) DNA is described. Exonuclease III was used to preparatively digest linear and open circular forms of DNA; the resultant exonuclease-resistant molecules were then characterized by buoyant density gradient sedimentation and were found to be essentially covalently closed circular DNA. The efficiency of the exonuclease method was compared to ultracentrifugation techniques and was found to give yields greater than those obtained by two or more equilibrium density gradients. The utility of the exonuclease III technique was determined by purifying eccDNAs from mouse liver, brain, heart, and kidney tissues. The results showed that there are tissue-related differences in eccDNA content.