PCR-based accurate synthesis of long DNA sequences

Here we describe a simple and rapid method for assembly and PCR-based accurate synthesis (PAS) of long DNA sequences. The PAS protocol involves the following five steps: (i) design of the DNA sequence to be synthesized and of 60-bp overlapping oligonucleotides to cover the entire DNA sequence; (ii) purification of the oligonucleotides by PAGE; (iii) first PCR, to synthesize DNA fragments of 400-500 bp in length using 10 inner (template) and two outer (primer) oligonucleotides; (iv) second PCR, to assemble the products of the first PCR into the full-length DNA sequence; and (v) cloning and verification of the synthetic DNA by sequencing and, if needed, error correction using an overlap-extension PCR technique. This method, which takes approximately 1 wk, is suitable for synthesizing diverse types of long DNA molecule. We have successfully synthesized DNA fragments from 0.5 to 12.0 kb, with high G+C content, repetitive sequences or complex secondary structures. The PAS protocol therefore provides a simple, rapid, reliable and relatively inexpensive method for synthesizing long, accurate DNA sequences.     

Comparative analysis of three methods from dried blood spots for expeditious DNA extraction from mosquitoes; suitable for PCR based techniques

The objective of this work was to compare the quality, purity and quantity of DNA isolated from dried blood spots (DBS) by three methods (Chelex-100, QIAamp DNA mini kit, and TE (Tris EDTA)-Buffer). Sample collection was performed in six districts in Odisha, India and screened for cases of clinical malaria and dengue and vector density. Mosquito abdomens were spotted on Whatman 3MM (MERCK) Filter paper and dried for 10 min at room temperature. DNA was isolated from DBS using three methods (Chelex-100, QIAamp DNA mini kit, and TE-Buffer), and PCR was used to determine the feeding behaviours of vector mosquitoes. DNA was quantified using a UV-spectrophotometer, and q-PCR was used to determine the target gene copy number to compare the methods. The QIAamp DNA mini kit method was used as the reference method. The yield and purity of DNA extracted with Chelex-100 and TE were 14–72 ng/µl and 1.51–1.85 and 9–50 ng/µl and 1.68–2.1, respectively. DNA extracted using the Chelex-100 method was stored for over 1 month at ? 20 °C and was suitable for later use. The Chelex-100 method had a sensitivity of 99.5% and specificity of 78%. A Bland–Altman plot suggested that the Chelex-100 method was similar to the QIAamp DNA mini kit method for determining the feeding behaviours of vector mosquitoes. The Chelex-100 method is simple, cost-effective, and safe and requires minimal time for DNA extraction from dried blood spots. In malaria and dengue research, detecting the feeding behaviours from mosquito DNA from dried blood spots on filter paper by PCR is an easy, minimally invasive and inexpensive molecular technique that can be performed in remote areas.

     

High-quality genomic DNA extraction from formalin-fixed and paraffin-embedded samples deparaffinized using mineral oil

Extracting DNA from formalin-fixed and paraffin-embedded (FFPE) tissue remains a challenge, despite numerous attempts to develop a more effective method. Polymerase chain reaction (PCR) success rates with DNA extracted using current methods remain low. We extracted DNA from 140 long-term archived FFPE samples using a simple but effective deparaffinization method, removing the wax with mineral oil, and a commercially available DNA extraction kit. DNA quality was subsequently tested in a genotyping experiment with 14 microsatellite markers. High-quality DNA was obtained with a mean PCR success rate of 97% (range: 88–100%) across markers. The results suggested that DNA extracted using this novel method is likely to be suitable for genetic studies involving DNA fragments <200 bp.     

A simple, rapid, high-fidelity and cost-effective PCR-based two-step DNA synthesis method for long gene sequences

Chemical synthesis of DNA sequences provides a powerful tool for modifying genes and for studying gene function, structure and expression. Here, we report a simple, high-fidelity and cost-effective PCR-based two-step DNA synthesis (PTDS) method for synthesis of long segments of DNA. The method involves two steps. (i) Synthesis of individual fragments of the DNA of interest: ten to twelve 60mer oligonucleotides with 20 bp overlap are mixed and a PCR reaction is carried out with high-fidelity DNA polymerase Pfu to produce DNA fragments that are ~500 bp in length. (ii) Synthesis of the entire sequence of the DNA of interest: five to ten PCR products from the first step are combined and used as the template for a second PCR reaction using high-fidelity DNA polymerase pyrobest, with the two outermost oligonucleotides as primers. Compared with the previously published methods, the PTDS method is rapid (5–7 days) and suitable for synthesizing long segments of DNA (5–6 kb) with high G + C contents, repetitive sequences or complex secondary structures. Thus, the PTDS method provides an alternative tool for synthesizing and assembling long genes with complex structures. Using the newly developed PTDS method, we have successfully obtained several genes of interest with sizes ranging from 1.0 to 5.4 kb.     

Chemiluminescence detection of telomere DNA in human cells on a membrane by using fluorescein-5-isothiocyanate-labeled primers

Telomere DNA is related to cell aging and cancer genesis because the telomeric region of DNA sequences at chromosome ends are shortened with cell divisions. Therefore, a sensitive and specific detection method is required for the telomere DNA. Here we propose a chemiluminescence (CL)-based method for the sensitive detection of telomere DNA in human cells. In this study, the telomere DNA was amplified by polymerase chain reaction (PCR) using special forward and reverse primers labeled with fluorescein-5-isothiocyanate (FITC) at the 5′ end, and then the FITC-containing PCR products were detected by CL reaction with 3,4,5-trimethoxyphenylglyoxal (TMPG) after electrophoresis followed by Southern blot onto a nylon membrane. The TMPG reagent specifically reacted with guanine moiety in DNA at room temperature and provided CL intensities. The CL intensities from the PCR products could be enhanced approximately 10-fold using FITC-labeled primers as compared with those using nonlabeled primers. The detection limit of the PCR products with the proposed method was 0.3 ng on the membrane. The developed CL method could quantitatively determine the telomere DNA in a small number of human cells (∼350) and gave approximately 10 times higher sensitivity than a conventional fluorescence-based method.     

Site-specific mutagenesis using synthetic oligodeoxyribonucleotide primers: II. In vitro selection of mutant DNA

A method for the in vitro selection of mutant DNA has been devised as an adjunct to the recently developed method for the use of short enzymatically-synthesized oligodeoxyribonucleotides of defined sequence as sitespecific mutagens for circular DNA. The selection method uses the mutating oligodeoxyribonucleotide as a primer for Escherichia coli DNA polymerase I (large fragment) under conditions where there is preferential interaction with mutant DNA template. After ligation using T4 DNA ligase, endonuclease Sl is used to degrade single-stranded non-mutant DNA leaving the desired mutant as closed circular duplex DNA. This paper describes the development of the method using mutants in ØX174 DNA as the model system. Studies on the changes A → G and G → A at position 587 of ØX174 viral DNA (am 3 to wild-type and its reversal) show that one or two cycles of selection can lead to a population of phage consisting of close to 100% mutants.     

An alternative nonradioactive method for labeling DNA using biotin

An alternative nonradioactive labeling method and a highly sensitive technique for detecting specific DNA sequences are described. The labeling method requires the "Klenow" fragment of DNA polymerase I and random hexanucleotides (synthesized or naturally extracted) as a primer for the production of highly sensitive DNA probes. The system has three main steps: (i) labeling of DNA with biotinylated 11-dUTP; (ii) detection of biotinylated DNA by a one-step procedure with streptavidin-alkaline phosphatase complex; (iii) blocking of background with Tween 20. Twenty attograms (2 X 10(-17) g) of pBR322 plasmid DNA was detected by dot-blot hybridization. Upon Southern blot hybridization, 7.4 fg (7.4 X 10(-15) g) of pBR322 HindIII DNA was detected using the biotinylated pBR322 plasmid DNA probe; 40.8 ag and 7.4 fg of lambda HindIII DNA were detected with the biotinylated whole lambda DNA probe by dot and Southern blot hybridization, respectively. Specific bands were also detected with the biotinylated argininosuccinolyase probe upon Northern blotting of mouse poly(A+) RNA. Further applications for in situ hybridization are also described.     

Evaluation of mailed pediatric buccal cytobrushes for use in a case-control study of birth defects

BACKGROUND: Buccal cell collection is a convenient DNA collection method; however, little attention has been given to the quality of DNA obtained from pediatric populations. The purpose of this study was to determine the effect of a modified cytobrush collection method on the yield and quality of infant buccal DNA collected as part of a population-based case-control study of birth defects. METHODS Cytobrushes were collected from infants, mothers, and fathers using a standard collection method in 1997 to 2003 and a modified protocol that allows air-drying of the cytobrushes after collection from 2003 to the present. Yield and quality of DNA from 1057 cytobrushes was assessed by quantitative PCR and short tandem repeat (STR) genotyping, respectively. RESULTS Air-dried cytobrushes from infants had higher median DNA yields (1300 ng) and STR completion rates (99.5%) than standard collection method cytobrushes (60 ng and 59.5%, respectively). A subset of DNA aliquots was genotyped for six single nucleotide polymorphisms (SNPs). Aliquots from both collection methods that passed the quality protocol (DNA concentration >1 ng/μl, and successful amplification of ≥1 STR) had high genotype completion rates (99-100%). The median DNA yield following whole genome amplification was more than twofold higher for air-dried than standard collection specimens (p < 0.001). CONCLUSION Yield and quality of buccal DNA collected from infants are improved by using a method that incorporates air-drying; however, DNA collected by both methods is suitable for genotyping if stringent quality control procedures are instituted. These findings may be helpful for future epidemiologic studies of birth defects and other adverse pediatric outcomes.     

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.     

A rapid DNA extraction method for sugarcane and its relatives

A simple DNA extraction method based on CTAB precipitation was used to obtain DNA from members of the genusSaccharum and related species. DNA yields and purities were similar for allSaccharum species sampled. The method described here resulted in high quality total DNA suitable for polymerase chain reaction (PCR)-based techniques as well as restriction endonuclease digestion, Southern hybridization, and DNA cycle-sequencing.     

Bacteriophages of Clostridium saccharoperbutylacetonicum

The HM-phages contained only deoxyribonucleic acid (DNA) as the nucleic acid moiety. The DNA was extracted from the phages by the phenol method. The content of guanine plus cytosine (%G + C) in the DNA was determined by paper chromatography and by thermal denaturation method. The values of HM 2 (group I), HM 3 (group II) and HM 7 (group III) were 35, 30 and 29, respectively.

The DNA was also isolated from the two host strains of Clostridium saccharoperbutylacetonicum by the method of Marmur and by Saito and Miura’s phenol extraction method. The %G + C of the DNA was 31. No unusual bases were detected in either the bacterial or phage DNA.     

A novel method for collection and preservation of faeces for genetic studies

Quantitative and qualitative measurements of DNA were used to compare faecal sample storage in ethanol and silica with a novel method (two‐step) in which samples are soaked in ethanol and then desiccated with silica. Silica‐preserved samples had the lowest DNA concentrations. The two‐step method yielded significantly more DNA in high quality samples (average DNA concentrations > 100 pg/µL with all storage methods). However, for lower quality samples, the ethanol and two‐step methods performed similarly. The amounts and rates of sample degradation were not strongly affected by storage method and neither was the percentage of target DNA (< 1%) obtained from the samples.     

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.     

Effective DNA extraction method for fragment analysis using capillary sequencer of the kelp, Saccharina

Deoxyribonucleic acid (DNA) fragment analysis can become an effective tool to study genetic differences between species and individuals on saccharinan kelp from which the little genetic diversity has been reported. Here, extraction methods of DNA suitable for use in analysis with a capillary sequencer is examined on Saccharina japonica var. diabolica which contains abundant polysaccharide. When amplified fragment length polymorphism was performed using genomic DNA extracted by seven different methods: (1) commercial kit, (2) original cetyl trimethylammonium bromide (CTAB) method, (3)–(5) three types of modified CTAB method, (6) modified sodium dodecyl sulfate (SDS) method, (7) combination of CTAB method and SDS method, a high reproducible peak that was suitable for analysis was noticeable in the electropherogram in the experiment with the last combination method (7). It is considered that the pretreatment washing of polysaccharide and the subsequent purification for protein and ribonucleic acid in SDS method and for polysaccharide in CTAB method are effective to obtain the high-purity DNA.     

A modified method for PCR-directed gene synthesis from large number of overlapping oligodeoxyribonucleotides

Here we report an improved, reproducible, simple, rapid, and cost-effective PCR-based DNA synthesis method using short (25–40 bp) overlapping oligodeoxyribonucleotides (oligos). The method involves two steps; (1) assembly of multiple/overlapping oligos by PCR to generate the template DNA and (2) amplification of the template DNA sequence with the two outermost oligos as primers. We have tested this method by synthesizing approximately 35 genes ranging in size between 300 bp and 1700 bp and G + C content from moderate (30%) to high (65%). In addition, we used the method to introduce 29 mutations simultaneously into a single gene. Key to the success of this method is the use of optimized oligo concentrations and the type of DNA polymerase used. This simplified and highly reproducible method is expected to be beneficial for the synthesis of a wide variety of genes.     

Could a strong alkali deproteinization replace the standard lysis step in alkaline single cell gel electrophoresis (comet) assay (pH > 13)?

The alkaline version of single cell gel electrophoresis (comet) assay is widely used for evaluating DNA damage at the individual cell level. The standard alkaline method of the comet assay involves deproteinization of cells embedded in agarose gel using a high salt–detergent lysis buffer, followed by denaturation of DNA and electrophoresis using a strong alkali at pH > 13 [N.P. Singh, M.T. McCoy, R.R. Tice, E.L. Schneider, A simple technique for quantitation of low levels of DNA damage in individual cells, Exp. Cell. Res. 175 (1988) 184–191]. However, a recent report showed that a strong alkali treatment results in simultaneous deproteinization of cells and denaturation of genomic DNA [P. Sestili, C. Martinelli, V. Stocchi, The fast halo assay: an improved method to quantify genomic DNA strand breakage at the single cell-level, Mutat. Res. 607 (2006) 205–214]. This study was carried out to test whether the strong alkali deproteinization of cells could replace the high salt–detergent lysis step used in the standard method of the alkaline comet assay. Peripheral blood lymphocytes from 3 healthy individuals were irradiated with gamma rays at doses varying between 0 and 10 Gy. Following irradiation, the comet assay was performed according to the standard alkaline method (pH > 13) and a modified method. In the modified method, agarose embedded cells were treated with a strong alkali (0.3 M NaOH, 0.02 M Trizma and 1 mM EDTA, pH > 13) for 20 min to allow deproteinization of cells and denaturation of DNA. This was followed by electrophoresis using the same alkali solution to obtain comets. DNA damage expressed in terms of comet tail length, percentage of DNA in comet tail and tail moment obtained by the standard alkaline method and the modified method were compared. In both methods, DNA damage showed a good correlation with the dose of gamma ray. The results indicate a satisfactory sensitivity of the modified method in detecting radiation-induced DNA damage in human peripheral blood lymphocytes.     

Improved PCR-BSP Assay for Multiplex Methylation Pattern Analysis in Minimal Amount of DNA

Cell-specific DNA methylation pattern detection is of great importance for the tumorigenesis and differentiation studies. Comparatively, large amounts of DNA were needed for traditional methods of DNA methylation pattern detection, and therefore, more sensitive method for high throughput analysis with a limited amount of DNA is needed. With Mouse 3T3 cells, we developed new multiplex-nested PCR technologies for bisulfite-assisted genomic sequencing PCR (BSP) methylation pattern detection method. Primers step add-in method and templates precipitation methods efficiently increase the throughput of the assay, and the nested PCR method also increased the sensitivity. The optimized assay could successfully detect 15 sequences of methylation pattern with a minimal amount of DNA (500–1,000 cells of genome DNA).     

A FIELD-COMPATIBLE METHOD FOR EXTRACTION OF FINGERPRINT-QUALITY DNA FROM MACROCYSTIS PYRIFERA (PHAEOPHYCEAE)1

A method for extracting DNA from laminarialean algae resulting in DNA of sufficient quantity and purity for DNA fingerprints is presented. The method both eliminates the use of liquid N₂ and delays the use of toxic chemicals in the initial extraction steps; thus, it is appropriate for use in remote field locations. The algal samples were ground in a solution of hexadecyltrimethylammonium bromide (CTAB) and polyvinylpyrrolidone (PVPP) at room temperature and then stored for 1 week in the CTAB-PVPP solution at room temperature before extraction with chloroform-isoamyl alcohol and purification by cesium chloride ultracentrifugation. No degradation of DNA was observed. Hybridization of RsaI-digested Macrocystis pyrifera (L.) C. Ag. DNA with the M13repeat probe yielded a DNA fingerprint with 12 discrete bands 4–19 kb in molecular size.     

Analysis of polymerase chain reaction products by high-performance liquid chromatography with fluorimetric detection and its application to DNA diagnosis

We describe the development of a sensitive high-performance liquid chromatographic (HPLC) method for polymerase chain reaction (PCR) products using bisbenzimide (Hoechst 33258 dye) based fluorimetric detection. The detection limit and specificity for double-strand DNA detection are improved in comparison with HPLC with UV absorbance detection. This HPLC, using a column packed with diethylaminoethyl-bonded non-porous resin particles, was applied to the detection of allele-specific PCR and restriction fragment length polymorphism analysis. We also developed a hybridization method analyzed by HPLC. DNA fragments (149 bp) containing the mutation site (C→A,G,T) in the N-ras gene were amplified by PCR. Fluorescein isothiocyanate (FITC)-labeled DNA probes were also prepared by PCR using FITC-labeled 5′ primer. Analysis of mutation was performed by the separation of a hybrid and non-reactive DNA probe with HPLC with fluorimetric detection after the hybridization of target DNA (149 bp) and a FITC DNA probe. The effects of various factors on hybridization were examined to establish optimal assay conditions. Under the conditions determined, a point mutation in PCR products obtained from the N-ras gene could be detected specifically by this method. The analysis of PCR products by HPLC may potentially be useful for DNA diagnosis.