A non-invasive technique for rapid extraction of DNA from fish scales

DNA markers are being increasingly used in studies related to population genetics and conservation biology of endangered species. DNA isolation for such studies requires a source of biological material that is easy to collect, non-bulky and reliable. Further, the sampling strategies based on non-invasive procedures are desirable, especially for the endangered fish species. In view of above, a rapid DNA extraction method from fish scales has been developed with the use of a modified lysis buffer that require about 2 hr duration. This methodology is non-invasive, less expensive and reproducible with high efficiency of DNA recovery. The DNA extracted by this technique, have been found suitable for performing restriction enzyme digestion and PCR amplification. Therefore, the present DNA extraction procedure can be used as an alternative technique in population genetic studies pertaining to endangered fish species. The technique was also found equally effective for DNA isolation from fresh, dried and ethanol preserved scales.     

Non-destructive genetic sampling in fish. An improved method for DNA extraction from fish fins and scales

DNA-based studies have been one of the major interests in conservation biology of endangered species and in population genetics. As species and population genetic assessment requires a source of biological material, the sampling strategy can be overcome by non-destructive procedures for DNA isolation. An improved method for obtaining DNA from fish fins and scales with the use of an extraction buffer containing urea and further DNA purification with phenol-chloroform is described. The methodology combines the benefits of a non-destructive DNA sampling and its high efficiency. In addition, comparisons with other methodologies for isolating DNA from fish demonstrated that the present procedure also becomes a very attractive alternative to obtain large amounts of high-quality DNA for use in different molecular analyses. The DNA samples, isolated from different fish species, have been successfully used on random amplified polymorphic DNA (RAPD) experiments, as well as on amplification of specific ribosomal and mitochondrial DNA sequences. The present DNA extraction procedure represents an alternative for population approaches and genetic studies on rare or endangered taxa.     

A quick, least-invasive, inexpensive and reliable method for sampling Gadus morhua postlarvae for genetic analysis

The present study describes the successful design and testing of a quick, least-invasive, reliable and inexpensive sampling procedure for Atlantic cod Gadus morhua. This protocol can be easily applied to postlarval fish following a simple three-step procedure, without availing of commercial DNA extraction kits, while ensuring survival of sampled individuals.     

Evaluation of DNA extraction methods from mouse stomachs for the quantification of H. pylori by real-time PCR

Real-time PCR methods have recently been developed for the quantification of Helicobacter pylori from infected mouse stomachs. However, the extent to which results is affected by the efficiency of different methods of DNA extraction and the degree of inhibition of the subsequent PCR have largely been ignored. In this study, mouse stomachs were processed using two homogenisation methods: complete disruption using a blender and homogenisation by vortexing with glass beads. Each procedure was followed by DNA purification by three different protocols-two commercially available kits-Qiagen DNA Mini Tissue kit and Qiagen Stool Kit and a phenol-chloroform extraction method. PCR inhibition was assessed by screening for mouse DNA and for H. pylori DNA after spiking stomach extracts with H. pylori 16S rDNA. PCR inhibition was found to be lower in DNA samples prepared by vortexing and processed by column kits. Validation of procedures was performed by quantification of H. pylori DNA and mouse DNA in infected mouse stomachs. Homogenisation with glass beads followed by the Qiagen Tissue kit was found to be the most suitable protocol combining high extraction and detection efficiency of 16S rDNA in the presence of a mouse DNA background.     

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.     

Soil sampling and isolation of extracellular DNA from large amount of starting material suitable for metabarcoding studies

DNA metabarcoding refers to the DNA-based identification of multiple species from a single complex and degraded environmental sample. We developed new sampling and extraction protocols suitable for DNA metabarcoding analyses targeting soil extracellular DNA. The proposed sampling protocol has been designed to reduce, as much as possible, the influence of local heterogeneity by processing a large amount of soil resulting from the mixing of many different cores. The DNA extraction is based on the use of saturated phosphate buffer. The sampling and extraction protocols were validated first by analysing plant DNA from a set of 12 plots corresponding to four plant communities in alpine meadows, and, second, by conducting pilot experiments on fungi and earthworms. The results of the validation experiments clearly demonstrated that sound biological information can be retrieved when following these sampling and extraction procedures. Such a protocol can be implemented at any time of the year without any preliminary knowledge of specific types of organisms during the sampling. It offers the opportunity to analyse all groups of organisms using a single sampling/extraction procedure and opens the possibility to fully standardize biodiversity surveys.     

Evaluation of different DNA sampling techniques for the application of the real-time PCR method for the quantification of cyanobacteria in water

AIMS: To evaluate different types of sample storage and DNA extraction techniques for the real-time PCR quantification of cyanobacteria in water. METHODS AND RESULTS: Two different filter types for the cell harvest of Microcystis sp. and Planktothrix spp. that were either freeze-dried or stored frozen, and two different methods for DNA extraction were compared. DNA extraction was achieved by standard phenol-chloroform extraction or by a faster commercially available purification kit (DNeasy, QIAGEN). In general there was good agreement between the cell number equivalents of phycocyanin (PC) genotypes that were estimated using the Taq nuclease assay (TNA) between both filter types and the storing of samples. The standard DNA extraction procedure gave higher numbers of PC genotypes when compared with the DNeasy procedure. TNA results obtained from Planktothrix from natural samples extracted with the standard procedure revealed a significant correlation with the cell numbers estimated via the microscope. CONCLUSIONS: Freeze-drying of samples gives quantifiable data. The standard DNA extraction is considered to be the most reliable and accurate, although the DNeasy procedure is useful for early warning monitoring. SIGNIFICANCE AND IMPACT OF THE STUDY: Application of quantitative genotype analysis in cyanobacteria from freeze-dried samples collected during recent and past sampling programmes.     

Pros and cons of external swabbing of amphibians for genetic analyses

Non-invasive DNA sampling is an important tool in amphibian conservation. Buccal swabs are nowadays replacing the wounding toe-clipping method. Skin and cloaca swabbing are even less invasive and easier to handle than buccal swabbing, but could result in contaminations of genetic material. Therefore, we test if external skin and cloaca swabs are as reliable as buccal swabs for genetic analysis of amphibians. We analysed eight microsatellite loci for the common frog (Rana temporaria, Linnaeus 1758) and compared genotyping results for buccal, skin and cloaca swabs regarding allelic dropouts and false alleles. Furthermore, we compared two DNA extraction methods regarding efficiency and cost. DNA quality and quantity (amplification success, genotyping error rate, in nanogram per microlitre) were comparable among DNA sources and extraction methods. However, skin and cloaca samples exhibited high degrees of contamination with foreign individuals, which was due to sample collection during mating season. Here, we established a simple low budget procedure to receive DNA of amphibians avoiding stressful buccal swabbing or harmful toe clipping. However, the possibility of contaminations of external swabs has to be considered.     

Proboscidean DNA from Museum and Fossil Specimens: An Assessment of Ancient DNA Extraction and Amplification Techniques

Applications of reliable DNA extraction and amplification techniques to postmortem samples are critical to ancient DNA research. Commonly used methods for isolating DNA from ancient material were tested and compared using both soft tissue and bones from fossil and contemporary museum proboscideans. DNAs isolated using three principal methods served as templates in subsequent PCR amplifications, and the PCR products were directly sequenced. Authentication of the ancient origin of obtained nucleotide sequences was established by demonstrating reproducibility under a blind testing system and by phylogenetic analysis. Our results indicate that ancient samples may respond differently to extraction buffers or purification procedures, and no single method was universally successful. A CTAB buffer method, modified from plant DNA extraction protocols, was found to have the highest success rate. Nested PCR was shown to be a reliable approach to amplify ancient DNA templates that failed in primary amplification.     

Comparison of Some Plant DNA Extraction Methods

DNA isolation is a routine procedure when performed in laboratory environment, yet in the field it may still remain problematic. This is especially true of some crop species bred for useful metabolites that may also hinder DNA extraction. Here we compare the efficiency of DNA extraction protocols and commercial DNA isolation kits when used on samples from Helianthus and Allium. Since extraction of DNA is known to be compromised by co-extraction of PCR-inhibiting metabolites, the isolation of DNA was followed by PCR as a testing procedure for the isolation step. The MagnoPrime Fact and MagnoPrime Uni DNA isolation kits were better suited for field work due to faster processing times and smaller required amount of starting material (20 mg fresh/0.5 mg dry). In all cases the subsequent PCR managed to amplify the DNA fragments of interest well enough to be useful in further research.     

Evaluation of the ISO Standard 11063 DNA Extraction Procedure for Assessing Soil Microbial Abundance and Community Structure

Soil DNA extraction has become a critical step in describing microbial biodiversity. Historically, ascertaining overarching microbial ecological theories has been hindered as independent studies have used numerous custom and commercial DNA extraction procedures. For that reason, a standardized soil DNA extraction method (ISO-11063) was previously published. However, although this ISO method is suited for molecular tools such as quantitative PCR and community fingerprinting techniques, it has only been optimized for examining soil bacteria. Therefore, the aim of this study was to assess an appropriate soil DNA extraction procedure for examining bacterial, archaeal and fungal diversity in soils of contrasting land-use and physico-chemical properties. Three different procedures were tested: the ISO-11063 standard; a custom procedure (GnS-GII); and a modified ISO procedure (ISOm) which includes a different mechanical lysis step (a FastPrep ®-24 lysis step instead of the recommended bead-beating). The efficacy of each method was first assessed by estimating microbial biomass through total DNA quantification. Then, the abundances and community structure of bacteria, archaea and fungi were determined using real-time PCR and terminal restriction fragment length polymorphism approaches. Results showed that DNA yield was improved with the GnS-GII and ISOm procedures, and fungal community patterns were found to be strongly dependent on the extraction method. The main methodological factor responsible for differences between extraction procedure efficiencies was found to be the soil homogenization step. For integrative studies which aim to examine bacteria, archaea and fungi simultaneously, the ISOm procedure results in higher DNA recovery and better represents microbial communities.     

快速、无损大豆种子连续取样技术及其DNA制备

建立简便、快速和无损种子连续取样技术流程及基因型鉴定技术体系,可节约种植成本及缩短鉴定周期,提高基因功能研究和育种效率。该研究利用微型电钻和空气泵等简单装置设计了一种连续且无损钻取大豆(Glycine max)种子组织的方法,并优化了利用384深孔微孔板高通量提取DNA及基因型鉴定技术体系。该方法也可用于水稻(Oryz...     

High-throughput DNA extraction from old paraffin-embedded biopsies.

We have developed a rapid and reliable microporous spin-column-based method for high-throughput extraction of DNA from old paraffin-embedded biopsies. The method was developed specifically for PCRs and molecular genetic studies. De-waxing and DNA extraction from tissues is performed in only one vessel, minimizing pipetting steps and eliminating supernatant/pellet procedures. All steps are performed at 60 degrees, 55 degrees and 95 degrees C minimize deleterious DNase activity. The amount of the extracted DNA was measured spectrophotometrically, and the quality of the extracted DNA and the PCR products was controlled on ethidium bromide-stained 3% agarose gel. The presented method for DNA extraction is less laborious and more convenient than previously published methods. It provides means by which extensive, paraffin-embedded material can be subjected to molecular genetic studies.     

Development of a fast and reliable method for the assessment of microbial colonization and growth on textiles by DNA quantification

There is a lack of relevant methods to assess the colonization of textiles by skin bacteria because present methods are mainly culture-based procedures. Therefore, the goal of this study was to develop a fast and sensitive culture-independent procedure for the quantification of microbial colonization and growth on textiles. We have established a suitable protocol to use DNA quantification as a reliable method for in vitroand in vivoinvestigations of textiles. For DNA extraction, a two-step procedure comprising treatment of the textile with a solution containing Triton X-100 and lysozyme for 1 h and a successive treatment by SDS and proteinase K for 2 h turned out to be most efficient. DNA extracted from textiles and fabrics was than quantified with the highly sensitive PicoGreen fluorescent dye. In vitrochallenge tests demonstrated a strong correlation between numbers of bacteria on textiles and amount of DNA extracted from textiles. Therefore, this method was used to compare different materials after in vivotrials for assessment of their susceptibility for microbial colonization and growth.     

Differential Nuclear and Mitochondrial DNA Preservation in Post-Mortem Teeth with Implications for Forensic and Ancient DNA Studies

Major advances in genetic analysis of skeletal remains have been made over the last decade, primarily due to improvements in post-DNA-extraction techniques. Despite this, a key challenge for DNA analysis of skeletal remains is the limited yield of DNA recovered from these poorly preserved samples. Enhanced DNA recovery by improved sampling and extraction techniques would allow further advancements. However, little is known about the post-mortem kinetics of DNA degradation and whether the rate of degradation varies between nuclear and mitochondrial DNA or across different skeletal tissues. This knowledge, along with information regarding ante-mortem DNA distribution within skeletal elements, would inform sampling protocols facilitating development of improved extraction processes. Here we present a combined genetic and histological examination of DNA content and rates of DNA degradation in the different tooth tissues of 150 human molars over short-medium post-mortem intervals. DNA was extracted from coronal dentine, root dentine, cementum and pulp of 114 teeth via a silica column method and the remaining 36 teeth were examined histologically. Real time quantification assays based on two nuclear DNA fragments (67 bp and 156 bp) and one mitochondrial DNA fragment (77 bp) showed nuclear and mitochondrial DNA degraded exponentially, but at different rates, depending on post-mortem interval and soil temperature. In contrast to previous studies, we identified differential survival of nuclear and mtDNA in different tooth tissues. Futhermore histological examination showed pulp and dentine were rapidly affected by loss of structural integrity, and pulp was completely destroyed in a relatively short time period. Conversely, cementum showed little structural change over the same time period. Finally, we confirm that targeted sampling of cementum from teeth buried for up to 16 months can provide a reliable source of nuclear DNA for STR-based genotyping using standard extraction methods, without the need for specialised equipment or large-volume demineralisation steps.     

Reference genes for quantitative reverse transcription-polymerase chain reaction expression studies in wild and cultivated peanut

Background

Molecular genetic studies on rare tumour entities, such as bone tumours, often require the use of decalcified, formalin-fixed, paraffin-embedded tissue (dFFPE) samples. Regardless of which decalcification procedure is used, this introduces a vast breakdown of DNA that precludes the possibility of further molecular genetic testing. We set out to establish a robust protocol that would overcome these intrinsic hurdles for bone tumour research.

Findings

The goal of our study was to establish a protocol, using a modified DNA isolation procedure and quality controls, to select decalcified samples suitable for array-CGH testing. Archival paraffin blocks were obtained from 9 different pathology departments throughout Europe, using different fixation, embedding and decalcification procedures, in order to preclude a bias for certain lab protocols. Isolated DNA samples were subjected to direct chemical labelling and enzymatic labelling systems and were hybridised on a high resolution oligonucleotide chip containing 44,000 reporter elements. Genomic alterations (gains and losses) were readily detected in most of the samples analysed. For example, both homozygous deletions of 0.6 Mb and high level of amplifications of 0.7 Mb were identified.

Conclusions

We established a robust protocol for molecular genetic testing of dFFPE derived DNA, irrespective of fixation, decalcification or sample type used. This approach may greatly facilitate further genetic testing on rare tumour entities where archival decalcified, formalin fixed samples are the only source.     

Two different clean-up procedures for liquid chromatographic determination of ochratoxin A in urine

This paper describes two different procedures for extraction of ochratoxin A (OTA) from urine samples: one using acidic chloroform-methanol mixture, followed by solid-phase extraction (SPE) clean-up and the other using commercial Chem Elut columns and a chloroform-formic acid mixture. The recovery of OTA using the procedure with silica gel columns was 82% with a R.S.D. < 8.4% and the detection and quantitation limits were 0.5 and 1.5 ng OTA/ml, respectively. The recovery of OTA in the second procedure with urine samples purified only on commercial Chem Elut columns was 95% with R.S.D. < 4.0%, and detection and quantitation limits 0.3 and 0.9 ng/ml, respectively. Both procedures of OTA extraction effectively eliminate interfering substances and give reliable and repeatable results. However, the procedure with Chem Elut columns gave higher recovery and lower detection and quantitation limits. It was successfully applied in determining OTA in human urine samples.     

Deproteination of nucleic acids by filtration through a hydrophobic membrane.

To remove or inactivate an enzyme from DNA in multistep procedures in molecular biology, it is often necessary to phenol extract the solution, followed by chloroform extraction and ethanol precipitation. In addition to being time-consuming and hazardous, there can be significant loss of DNA with this procedure, especially when small volumes or amounts of DNA are being used. We have found that filtering analytical reaction mixtures through a hydrophobic membrane specifically to remove protein is a rapid alternative to phenol extraction. Within broad limits commonly encountered in molecular biology, filtration through a polyvinylidene difluoride membrane quantitatively removes a variety of enzymes without significant loss of double-stranded nucleic acid.     

Evaluation of procedures for reliable PCR detection of Ralstonia solanacearum in common natural substrates

Several procedures were compared for reliable PCR detection of Ralstonia solanacearum in common substrates (plant, seed, water and soil). In order to prevent the inhibition of PCR by substances contained in crude extracts, numerous DNA extraction procedures as well as additives to buffers or PCR mixtures were checked. Our results showed that the efficiency of these methods or compounds depended greatly upon the nature of the sample. Consequently, preparation of samples prior to PCR depended upon sample origin. Simple methods such as a combined PVPP/BSA treatment or the association of filtration and centrifugation for detecting the bacterium in plant or water samples were very powerful. DNA capture also efficiently overcame PCR inhibition problems and ensured the detection of R. solanacearum in environmental samples. However, the commercial DNA extraction QIAamp kit appeared to be the most effective tool to guarantee the accurate PCR detection of the pathogen whatever the origin of the sample; this was particularly true for soil samples where the commonly used methods for the detection of R. solanacearum were inefficient. This study demonstrates that using an appropriate procedure, PCR is a useful and powerful tool for detecting low levels of R. solanacearum populations in their natural habitats.     

DNA from Buccal Swabs Suitable for High-Throughput SNP Multiplex Analysis

We sought a convenient and reliable method for collection of genetic material that is inexpensive and noninvasive and suitable for self-collection and mailing and a compatible, commercial DNA extraction protocol to meet quantitative and qualitative requirements for high-throughput single nucleotide polymorphism (SNP) multiplex analysis on an automated platform. Buccal swabs were collected from 34 individuals as part of a pilot study to test commercially available buccal swabs and DNA extraction kits. DNA was quantified on a spectrofluorometer with Picogreen dsDNA prior to testing the DNA integrity with predesigned SNP multiplex assays. Based on the pilot study results, the Catch-All swabs and Isohelix buccal DNA isolation kit were selected for our high-throughput application and extended to a further 1140 samples as part of a large cohort study. The average DNA yield in the pilot study (n=34) was 1.94 μg ± 0.54 with a 94% genotyping pass rate. For the high-throughput application (n=1140), the average DNA yield was 2.44 μg ± 1.74 with a ≥93% genotyping pass rate. The Catch-All buccal swabs are a convenient and cost-effective alternative to blood sampling. Combined with the Isohelix buccal DNA isolation kit, they provided DNA of sufficient quantity and quality for high-throughput SNP multiplex analysis.