OPTIMIZATION OF DNA EXTRACTION FROM BROWN ALGAE (PHAEOPHYCEAE) BASED ON A COMMERCIAL KIT1

Large‐scale DNA molecular studies require reliable and efficient tools for DNA extractions. However, for some plant species and brown algae, isolation of high‐quality DNA is difficult. We developed a novel method for isolating high‐quality DNA from the polysaccharide‐rich and polyphenol‐rich brown algae based on a commercial kit and protocol (Qiagen) by optimizing the lysis step and including a chloroform/isoamyl alcohol supplementary purification step. DNAs from 24 brown algal species extracted using the original and the modified Qiagen protocol were compared for yield, quality, and effectiveness in PCR amplification. There was no significant difference in the yields between protocols. However, a statistically significant increase in DNA purity was obtained with the modified protocol, for which the A₂₆₀/A₂₈₀ and A₂₆₀/A₂₃₀ absorbance ratios averaged 1.66 ± 0.05 and 1.31 ± 0.01, respectively, compared to 1.37 ± 0.04 and 0.52 ± 0.04 with the original protocol. DNAs extracted by the modified procedure were more successfully amplified by PCR (nuclear, mitochondrial, and chloroplastic regions) than DNAs extracted using the original commercial kit and protocol. Importantly, the modified protocol can be applied in a high‐throughput (e.g., 96‐well plate) format, allowing a higher efficiency for downstream molecular analysis. In addition, improved DNA quality could increase its stability for long‐term storage.     

Extraction of RAPD-friendly DNA from Laminaria japonica (Phaeophyta) after enzymatic dissociation of the frozen sporophyte tissues

A new extraction protocol has been developed to obtain high quality DNAfrom Laminaria japonica, which involves enzymatic dissociation ofsporophyte tissues and subsequent elimination of the remainingpolysaccharides with cetyltrimethyl ammonium bromide. Unicells isolatedfrom frozen kelp tissues with alginate lyase prepared from the abalone Haliotis diversicolor were used to extract total DNA; the yield wasapproximately 13 to 22.5 g DNA g^-1 (wet sporophyteweight). The average size of genomic DNA was around 23 kb estimated byagarose gel electrophoresis, and the purity of total DNA determinedspectrophotometrically as the ratio of OD₂₆₀/OD₂₈₀ wasabout 1.7. The extracted kelp DNA (20–40 ng) could be usedsuccessfully as a template for polymerase chain reaction (PCR) under theoptimized conditions (100 M dNTP, 0.2 M primer, 1.0unit Taq DNA polymerase). The random amplified polymorphicDNA (RAPD) patterns were highly reproducible. These results suggest thatthe contamination by soluble polysaccharides which interferes with RAPDreproducibility was largely controlled. This RAPD-suited method for DNAextraction from kelp sporophytes using enzyme treatment providedsufficient material, and was inexpensive and convenient to carry out.     

Rapid and efficient extraction of genomic DNA from differentphytopathogenic fungi using DNAzol reagent

A modified procedure using the commercial DNAzol reagent was successfully applied to extract genomic DNA from 25 fungal species. The DNA yield varied from 306 to 1,927 g g^-1 dry mycelia and the A₂₆₀/A₂₈₀ ratio from 1.59 to 1.93. Compared with the method of J.L. Cenis (Nucleic Acids Res. 1992, 20: 2380) this procedure generated a higher DNA yield from 17 species and a higher A₂₆₀/A₂₈₀ ratio from 23 species. But for four species, Cenis (1992) method was more suitable. No inhibitor of polymerase chain reaction was evident for the DNA extracted by the modified procedure, whereas some inhibitors remained in DNA of eight species extracted by the previous method.Revisions requested 8 September 2004; Revisions received 1 November 2004     

Evaluating genomic DNA extraction methods from human whole blood using endpoint and real-time PCR assays

The extraction of genomic DNA is the crucial first step in large-scale epidemiological studies. Though there are many popular DNA isolation methods from human whole blood, only a few reports have compared their efficiencies using both end-point and real-time PCR assays. Genomic DNA was extracted from coronary artery disease patients using solution-based conventional protocols such as the phenol–chloroform/proteinase-K method and a non-phenolic non-enzymatic Rapid-Method, which were evaluated and compared vis-a-vis a commercially available silica column-based Blood DNA isolation kit. The appropriate method for efficiently extracting relatively pure DNA was assessed based on the total DNA yield, concentration, purity ratios (A₂₆₀/A₂₈₀ and A₂₆₀/A₂₃₀), spectral profile and agarose gel electrophoresis analysis. The quality of the isolated DNA was further analysed for PCR inhibition using a murine specific ATP1A3 qPCR assay and mtDNA/Y-chromosome ratio determination assay. The suitability of the extracted DNA for downstream applications such as end-point SNP genotyping, was tested using PCR-RFLP analysis of the AGTR1-1166A>C variant, a mirSNP having pharmacogenetic relevance in cardiovascular diseases. Compared to the traditional phenol–chloroform/proteinase-K method, our results indicated the Rapid-Method to be a more suitable protocol for genomic DNA extraction from human whole blood in terms of DNA quantity, quality, safety, processing time and cost. The Rapid-Method, which is based on a simple salting-out procedure, is not only safe and cost-effective, but also has the added advantage of being scaled up to process variable sample volumes, thus enabling it to be applied in large-scale epidemiological studies.     

Improving PCR detection of prey in molecular diet studies: importance of group‐specific primer set selection and extraction protocol performances

While the morphological identification of prey remains in predators' faeces is the most commonly used method to study trophic interactions, many studies indicate that this method does not detect all consumed prey. Polymerase chain reaction–based methods are increasingly used to detect prey DNA in the predator food bolus and have proven efficient, delivering highly accurate results. When studying complex diet samples, the extraction of total DNA is a critical step, as polymerase chain reaction (PCR) inhibitors may be co‐extracted. Another critical step involves a careful selection of suitable group‐specific primer sets that should only amplify DNA from the targeted prey taxon. In this study, the food boluses of five Rattus rattus and seven Rattus exulans were analysed using both morphological and molecular methods. We tested a panel of 31 PCR primer pairs targeting bird, invertebrate and plant sequences; four of them were selected to be used as group‐specific primer pairs in PCR protocols. The performances of four DNA extraction protocols (QIAamp^® DNA stool mini kit, DNeasy^® mericon food kit and two of cetyltrimethylammonium bromide‐based methods) were compared using four variables: DNA concentration, A₂₆₀/A₂₈₀ absorbance ratio, food compartment analysed (stomach or faecal contents) and total number of prey‐specific PCR amplification per sample. Our results clearly indicate that the A₂₆₀/A₂₈₀ absorbance ratio, which varies between extraction protocols, is positively correlated to the number of PCR amplifications of each prey taxon. We recommend using the DNeasy^® mericon food kit (QIAGEN), which yielded results very similar to those achieved with the morphological approach.     

An efficient method for DNA isolation from red algae

A simple, inexpensive and efficient method was developed for rapid isolation of totalgenomic DNA from 15 red algal species. It resulted in 0.1 g high quality DNAfrom 1 mg fresh algal material, with an A₂₆₀/A₂₈₀ratio of 1.68–1.90.Using this rapidly isolated DNA, the 18S ribosomal RNA genes (rDNA) and the nuclearribosomal DNA of the internal transcribed spacer (ITS) regions were amplified. Thetested DNA was suitable for restriction endonuclease digestion, genetic markeranalysis and polymerase chain reaction (PCR) amplification, and may be valid forother genetic manipulation.     

Comparing DNA Extraction Methods for Analysis of Botanical Materials Found in Anti-Diabetic Supplements

A comparative performance evaluation of DNA extraction methods from anti-diabetic botanical supplements using various commercial kits was conducted, to determine which produces the best quality DNA suitable for PCR amplification, sequencing and species identification. All plant materials involved were of suboptimal quality showing various levels of degradation and therefore representing real conditions for testing herbal supplements. Eight different DNA extraction methods were used to isolate genomic DNA from 13 medicinal plant products. Two methods for evaluation, DNA concentration measurements that included absorbance ratios as well as PCR amplifiability, were used to determine quantity and quality of extracted DNA. We found that neither DNA concentrations nor commonly used UV absorbance ratio measurements at A ₂₆₀/A ₂₈₀ between 1.7 and 1.9 are suitable for globally predicting PCR success in these plant samples, and that PCR amplifiablity itself was the best indicator of extracted product quality. However, our results suggest that A ₂₆₀/A ₂₈₀ ratios below about 1.3 and above 2.3 indicated a DNA quality too poor to amplify. Therefore, A ₂₆₀/A ₂₈₀ measurements are not useful to identify samples that likely will amplify but can be used to exclude samples that likely will not amplify reducing the cost for unnecessarily subjecting samples to PCR. The two Nucleospin^® plant II kit extraction methods produced the most pure and amplifiable genomic DNA extracts. Our results suggest that there are clear, discernable differences between extraction methods for low quality plant samples in terms of producing contamination-free, high-quality genomic DNA to be used for further analysis.     

Rapid extraction of high-quality genomic DNA from Porphyra yezoensis (Bangiales, Rhodophyta)

We developed a simple, rapid and stable method for extraction of high molecular weight DNA from the marine red alga Porphyra yezoensis Ueda using both guanidium treatment and QIAGEN? kit (Funakoshi, Tokyo, Japan). The method does not require expensive equipment and complex steps. The DNA yield averaged 1.5 μg 100 mg^?1 of Porphyra tissue and the A260/A280 and A230/A260 ratios of the DNA were approximately 1.8 and 0.4, respectively. It was of sufficient quality to be used for not only polymerase chain reactions but also other DNA manipulation techniques such as restriction digestion and construction of genomic libraries.     

Rapid High Quality RNA Preparation from Pine Seedlings

Conventional RNA extraction methods have been shown to produce poor quality RNA when applied to pine and other gymnosperms. We present a protocol for extracting highly pure RNA from pine. Modifications to conventional procedures include: 1) the use of seedlings, 2) the use of phenol and PVP to rapidly remove DNA, proteins and pigments, and 3) the use of salt precipitation to remove other contaminating compounds. The procedure can be completed in less than eight hours. Yield and purity were monitored by denaturing gel electrophoresis and by UV absorbance (A₂₆₀ /A₂₈₀ and A₂₆₀/A₂₃₀). These ratios were over 2, indicating an absence of contaminating metabolites. Additionally, a new absorbance ratio (A₂₆₀/A₂₁₀) was introduced to monitor the RNA purity in each step (it indicates the ratio of covalent links in the solution belonging to RNA). The yield was around 300 µg total RNA per gram of tissue of Pinus sylvestris and over 400 µg of total RNA per gram of P. pinaster tissue, which is a high recovery (more than 63%) for gymnosperms. The RNA was of sufficient quality for use in a RT-PCR reaction that amplified 1 kb of the pine GS gene. This protocol has been applied with success to other woody plants like Populus species.Abbreviations: DEPC, diethyl pyrocarbonate; AMV, avian myeloblastosis virus; FW, fresh weight.     

Simple and efficient genomic DNA extraction protocol for molecular characterisation of Phytophthora colocasiae causing taro leaf blight

Genomic DNA extraction protocol with relatively high quantity and purity is prerequisite for the successful molecular identification and characterisation of plant pathogens. Conventional DNA extraction methods are often time-consuming and yield only very poor quantity of genomic DNA for samples with higher mycelial age. In our laboratory, we have aimed at establishing an efficient DNA isolation procedure, exclusively for the oomycete pathogen Phytophthora colocasiae causing serious leaf blight disease in taro. For this a phenol free protocol was adopted, which involves SDS/Proteinase K-based inactivation of protein contaminants, extraction of nucleic acids using chloroform: isoamyl alcohol and later precipitation of genomic DNA using isopropanol and sodium acetate. The purity of the isolated DNA was analysed by A_260/280 and A_260/230 spectrophotometric readings and confirmed by restriction digestion with restriction enzyme Eco RI. In this study, a comparative assessment was done with CTAB method and the commercial genomic DNA purification kit (Thermo Fisher Scientific, Fermentas, EU). The extracted DNA was found to be suitable for further downstream applications like ITS amplification of the rDNA ITS region and PCR amplification with species-specific primers.     

Efficient isolation of high quality nucleic acids from different tissues of <Emphasis Type="Italic">Taxus baccata</Emphasis> L.

Improved and efficient methods were developed for isolating high quality DNA and RNA from different sources of Iranian Yew (Taxus baccata L.). The methods were based on CTAB extraction buffer added with high levels of polyvinylpyrrolidone (PVP) and β-mercaptoethanol to properly remove polysaccharides and prevent oxidation of phenolics. The pellets obtained by ethanol precipitation were washed only with Chloroform: isoamyl alcohol (24:1). So, we could successfully eliminate the dangerous phenol/chloroform extraction steps from the isolation procedure. Both spectrophotometric (A₂₆₀/A₂₈₀ and A₂₆₀/A₂₃₀ ratios) and agarose electrophoresis analysis of isolated nucleic acids (DNA and RNA) indicated good results. DNA with the average yield of 100–300 μg/g leaf and stem tissue and total RNA with an average yield of 20–30 μg/g cell culture and 80–100 μg/g leaf and stem tissue of Iranian yew could be obtained. Successful amplification of pam and pds by PCR and RT-PCR, showed the integrity of isolated DNA and RNA, respectively.     

Optimisation of RNA extraction from Gracilaria changii (Gracilariales, Rhodophyta)

RNA extraction from seaweed tissues is problematic due to the presence of polysaccharides and polyphenolic compounds upon cell disruption. Besides, a successful RNA isolation from seaweed tissues can sometimes be strain- and species-specific. Four different methods were used to extract RNA from Gracilaria changii (Gracilariales, Rhodophyta), collected from the mangrove area at Morib, Selangor, Malaysia. An optimised and modified total RNA extraction method was developed for this recalcitrant species. The use of sand in tissue grinding, and the incorporation of phenol extraction at the initial stage resulted in the highest RNA yield (0.65–1.14 g g^–1 fresh weight) with high quality (A_260:280 ratio 1.80–2.05). The RNA obtained is suitable for cDNA synthesis and future functional genomic studies.     

A fast, simple, and reliable high-yielding method for DNA extraction from different plant species

Genetic studies and pathogen detection in plants using molecular methods require the isolation of DNA from a large number of samples in a short time span. A rapid and versatile protocol for extracting high-quality DNA from different plant species is described. This method yields from 1 to 2 mg of DNA per gram of tissue. The absorbance ratios (A₂₆₀/A₂₈₀) obtained ranged from 1.6 to 2.0. A minimal presence of contaminating metabolites (as polymerase chain reaction [PCR] inhibitors) in samples and a considerable savings in reagents are characteristics of this protocol, as well as the low cost of the analysis per sample. The quality of the DNA was suitable for PCR amplification.     

Isolation of RNA of high quality and yield from <Emphasis Type="BoldItalic">Ginkgo biloba</Emphasis> leaves

An improved protocol was developed to isolate total RNA in good yield and integrity from Ginkgo biloba leaves containing high levels of flavonoid glycosides, terpene lactones, carbohydrates and polyphenolic secondary metabolites. Polyvinylpolypyrrolidone at 2% and β-mercaptoethanol at 4% were added to the standard CTAB extraction buffer and, after chloroform and phenol extraction, the pellet obtained by ethanol/acetate precipitation was washed and a second phenol/chloroform extraction was introduced to remove co-precipitated polysaccharides. Both A₂₆₀/A₂₃₀ and A₂₆₀/A₂₈₀ absorbancy ratios of isolated RNA were around 2 and the yield was about 0.4 mg g^--1 fresh weight. At least seven distinct rRNA bands were detected by denaturing gel electrophoresis. Sharp hybridization signals were obtained from Northern blots with both nuclear and plastid gene probes. Two gene fragments: nuclear-encoded cab and chloroplast encoded rbcL were successfully amplified by RT-PCR, suggesting the integrity of isolated RNA. The total RNA isolated by this protocol is of sufficient quality for subsequent molecular applications.     

A rapid and simple method for DNA extraction from yeasts and fungi isolated from Agave fourcroydes

A simple and easy protocol for extracting high-quality DNA from different yeast and filamentous fungal species is described. This method involves two important steps: first, the disruption of cell walls by mechanical means and freezing; and second, the extraction, isolation, and precipitation of genomic DNA. The absorbance ratios (A₂₆₀/A₂₈₀) obtained ranged from 1.6 to 2.0. The main objective of this procedure is to extract pure DNA from yeast and filamentous fungi, including those with high contents of proteins, polysaccharides, and other complex compounds in their cell walls. The yield and quality of the DNAs obtained were suitable for micro/minisatellite primer-polymerase chain reaction (MSP-PCR) fingerprinting as well as for the sequence of the D1/D2 domain of the 26S rDNA.     

A simple method for DNA extraction from sporophyte in the brown alga <Emphasis Type="Italic">Laminaria japonica</Emphasis>

A simple method was developed for extracting DNA from brown algae Laminaria japonica, which possess large amounts of acidic polysaccharides. Firstly, the sporophyte were washed by eliminating polysaccaride buffer to remove the polysaccharides and then ground in liquid nitrogen. Secondly, the powders were treated with lysing buffer. Thirdly, KAc was used to eliminate the remaining acidic polysaccharides. The extracted DNA was purified using a chloroform-isoamyl alcohol (24:1 v/v), and precipitated in cold isopropanol. The yield was from 18.7 to 37.5 μg g⁻¹ (wet weight) and the purity of total DNA was determined spectrophotometrically as the ratio of A₂₆₀/A₂₈₀, which was about 1.7–1.9. The extracted DNA was of high quality and suitable for molecular analyses, such as PCR, restriction enzyme digestion. This method is a reproducible, simple, and rapid technique for routine DNA extraction from sporophyte in Laminaria japonica. Furthermore, the low cost of this method makes it attractive for large-scale studies.     

Cosmid library of the marine macroalga Bryopsis maxima (Bryopsidales, Ulvophyceae)

The purpose of this study was to construct a cosmid library from chromosomal DNA of a marine macroalga, Bryopsis maxima Okamura ex Segawa (Bryopsidales, Ulvophyceae), in a rapid, simple and inexpensive manner. In the DNA purification, polysaccharides were removed by covalently binding them to resin particles containing free boric acid groups. The DNA yield was 20 μg g^?1 of B. maxima fresh weight. This DNA was 100–200 kb in length, and its A₂₆₀/A₂₈₀ and A₂₃₀/A₂₆₀ ratios were 1.8 and 0.4, respectively. It was of sufficient quality for molecular research. The cloning procedures were carried out in the following steps: controlled partial shearing of purified DNA through a microsyringe, optimal size separation of the DNA by biased sinusoidal field gel electrophoresis, ligation of the DNA to the cosmid vector in the gel, and in vitro packaging into the lambda phage. The library consisted of 2.0 × 10³ independent clones with an average insert size of 40 kb. The fragment amplified by polymerase chain reaction in the library was hybridized with a DNA fragment (328 bp) encoding B. maxima glutamate dehydrogenase under high‐stringency conditions by Southern blot analysis, thus demonstrating that the library contained B. maxima chromosomal DNA. This cosmid library is the first to be constructed for any species of marine macroalgae.     

RNA-free DNA Extraction Protocol from PinusTissues for Molecular Biology or HPCE/HPLC Analyses

A simple method for extracting DNA from various in vitro or ex vitro Pinus tissues is described. Good yield and high quality RNA-free DNA ready to use in molecular biology assays or analytical analysis was obtained. DNA quality was measured analyzing absorption spectra between 200 and 300 nm, A_260/280 ratio and HPCE. This protocol was tested with no modification in a wide range of Pinus tissues from recalcitrant in vitro callus to mature field scions improving the results obtained with previous protocols. As the protocol is simple, almost universal and inexpensive it may be used for routine isolation from Pinus tissues. An isolation troubleshooting table was included to facilitate the setting up of reported protocol to other plant species.     

A simple and efficient protocol for isolation of functional RNA from plant tissues rich in secondary metabolites

A protocol is described for rapid RNA isolation from various plant species and tissues rich in polyphenolics and polysaccharides. The method is based on the Nucleon PhytoPure^™ system without the use of phenol. The procedure can be completed within 1 h and many samples can be processed at the same time. The yield ranged from 240 μg up to 3 mg per gram of tissue with an average purity measured as A_260/280 of 1.85. The RNA was of sufficient quality for use in RT-PCR reactions. Quantitation of single-stranded cDNA was carried out with the RiboGreen^™ reagent and of PCR products with the PicoGreen^™ reagent.     

Overproduction and purification ofEscherichia coli tRNALeu

Chemically synthesized genes encodingEscherichia coli tRNA ₁ ^Leu and tRNA ₂ ^Leu were ligated into the plasmid pTrc99B. then transformed intoEscherichia coli MT102, respectively. The positive transformants, named MT-Leu1 and MT-Leu2, were confirmed by DNA sequencing, and the conditions of cultivation for the two transformants were optimized. As a result, leucinc accepting activity of their total tRNA reached 810 and 560 pmol/A₂₆₀, respectively: the content of tRNA ₁ ^Leu was 50% of total tRNA from MT-Leu1, while that of tRNA ₂ ^Leu was 30% of total tRNA from MT-Leu2. Both tRNA^Leus from their rotal tRNs were fractionated to 1 600 pmol/A₂₆₀ after DEAE-Sepharose and BD-cellulose column chromatography. The accurate kinetic constants of aminoacylation of the two isoacceptors of tRNA^Leu catalyzed by leucyl-tRNA synthetase were determined.