FTA卡和普通定性滤纸提取DNA方法研究

用FTA采样卡和普通定性滤纸采集藏绵羊血样,采用NaOH法提取血液基因组DNA,利用设计的一对引物对DRB1基因第三外显子进行扩增,通过PCR产物琼脂糖凝胶检测,对普通定性滤纸与FTA采样卡的两种提取DNA的方法进行比较,结果认为采用普通定性滤纸-NaOH法提取血液基因组DNA,NaOH的最佳洗涤浓度是25 mmol/L,采用FTA-NaOH法提取血液基因组DNA,NaOH的最佳洗涤浓度是20 mmol/L,但普通定性滤纸法提取血液基因组DNA平均成本远低于FTA采样卡,普通定性滤纸法提取血液基因组DNA具有快速、便捷、经济及高效的特点.     

A Practical and Novel Method to Extract Genomic DNA from Blood Collection Kits for Plasma Protein Preservation

Laboratory tests can be done on the cellular or fluid portions of the blood. The use of different blood collection tubes determines the portion of the blood that can be analyzed (whole blood, plasma or serum). Laboratories involved in studying the genetic basis of human disorders rely on anticoagulated whole blood collected in EDTA-containing vacutainer as the source of DNA for genetic / genomic analysis. Because most clinical laboratories perform biochemical, serologic and viral testing as a first step in phenotypic outcome investigation, anticoagulated blood is also collected in heparin-containing tube (plasma tube). Therefore when DNA and plasma are needed for simultaneous and parallel analyses of both genomic and proteomic data, it is customary to collect blood in both EDTA and heparin tubes. If blood could be collected in a single tube and serve as a source for both plasma and DNA, that method would be considered an advancement to existing methods. The use of the compacted blood after plasma extraction represents an alternative source for genomic DNA, thus minimizing the amount of blood samples processed and reducing the number of samples required from each patient. This would ultimately save time and resources.The BD P100 blood collection system for plasma protein preservation were created as an improved method over previous plasma or serum collection tubes¹, to stabilize the protein content of blood, enabling better protein biomarker discovery and proteomics experimentation from human blood. The BD P100 tubes contain 15.8 ml of spray-dried K2EDTA and a lyophilized proprietary broad spectrum cocktail of protease inhibitors to prevent coagulation and stabilize the plasma proteins. They also include a mechanical separator, which provides a physical barrier between plasma and cell pellets after centrifugation. Few methods have been devised to extract DNA from clotted blood samples collected in old plasma tubes^2-4. Challenges from these methods were mainly associated with the type of separator inside the tubes (gel separator) and included difficulty in recovering the clotted blood, the inconvenience of fragmenting or dispersing the clot, and obstruction of the clot extraction by the separation gel.We present the first method that extracts and purifies genomic DNA from blood drawn in the new BD P100 tubes. We compare the quality of the DNA sample from P100 tubes to that from EDTA tubes. Our approach is simple and efficient. It involves four major steps as follows: 1) the use of a plasma BD P100 (BD Diagnostics, Sparks, MD, USA) tube with mechanical separator for blood collection, 2) the removal of the mechanical separator using a combination of sucrose and a sterile paperclip metallic hook, 3) the separation of the buffy coat layer containing the white cells and 4) the isolation of the genomic DNA from the buffy coat using a regular commercial DNA extraction kit or a similar standard protocol.     

Optimization of conditions to extract high quality DNA for PCR analysis from whole blood using SDS-proteinase K method

In case of studies associated with human genetics, genomics, and pharmacogenetics the genomic DNA is extracted from the buccal cells, whole blood etc. Several methods are exploited by the researchers to extract DNA from the whole blood. One of these methods, which utilizes cell lysis and proteolytic properties of sodium dodecyl sulfate (SDS) and proteinase K respectively, might also be called SDS-PK method. It does not include any hazardous chemicals such as phenol or chloroform and is inexpensive. However, several researchers report the same method with different formulas and conditions. During our experiments with whole blood DNA extraction we experienced problems such as protein contamination, DNA purity and yield when followed some SDS-PK protocols reported elsewhere. A260/A280 and A260/A230 ratios along with PCR amplification give a clear idea about the procedure that was followed to extract the DNA. In an effort to increase the DNA purity from human whole blood, we pointed out some steps of the protocol that play a crucial role in determining the extraction of high quality DNA.     

One-step isolation of plant DNA suitable for PCR amplification

We report a one-step extraction technique for the isolation of plant DNA, DNA suitable for amplification by PCR can be produced from leaf material smaller than 0.3 mm² in less than 20 min, with no tube changes. The method was tested on several plant specA00AK020ies. The described method was found to extract DNA that could be amplified without any further purification or treatment. The isolated DNA was amplified using a universal chloroplast primer set. The method was validated by comparing size of PCR products generated by the novel method to PCR products generated using standard DNA isolation techniques.     

Establishment of a semi-automated pathogen DNA isolation from whole blood and comparison with commercially available kits

Molecular methods for bacterial pathogen identification are gaining increased importance in routine clinical diagnostic laboratories. Achieving reliable results using DNA based technologies is strongly dependent on pre-analytical processes including isolation of target cells and their DNA of high quality and purity. In this study a fast and semi-automated method was established for bacterial DNA isolation from whole blood samples and compared to different commercially available kits: Looxster, MolYsis kit, SeptiFast DNA isolation method and standard EasyMAG protocol. The newly established, semi-automated method utilises the EasyMAG device combined with pre-processing steps comprising human cell lysis, centrifugation and bacterial pellet resuspension. Quality of DNA was assessed by a universal PCR targeting the 16S rRNA gene and subsequent microarray hybridisation. The DNA extractions were amplified using two different PCR-mastermixes, to allow comparison of a commercial mastermix with a guaranteed bacterial DNA free PCR mastermix. The modified semi-automated EasyMAG protocol and the Looxster kit gave the most sensitive results. After hybridisation a detection limit of 10¹ to 10² bacterial cells per mL whole blood was achieved depending on the isolation method and microbial species lysed. Human DNA present in the isolated DNA suspension did not interfere with PCR and did not lead to non-specific hybridisation events.     

A novel method for whole blood PCR without pretreatment

PCR is usually performed on purified DNA. However, the extraction of DNA from whole blood is time consuming and involves the risk of contamination at every step. Hence, it is desirable to amplify DNA directly from whole blood. Earlier, investigators tried to achieve this target by either pretreatment of whole blood samples with different agents or by altering the conventional thermal cyclic conditions. This would make the technique cumbersome and time consuming. Here, we describe a simple protocol to amplify DNA directly from whole blood without the need of pretreatment. PCR buffer system was optimized in the laboratory and Apolipoprotein B gene was used as a model for this experiment. 480 bp was the target site for amplification. Fresh whole blood samples were used both from healthy and diseased individuals (coronary artery disease patients). Successful amplification was achieved with 1 μl volume of whole blood and it was comparable to that of genomic DNA. No pretreatment of whole blood samples was required with the optimized buffer system. 3mM concentration of MgCl(2) was observed to be optimal and hence used in the reaction mixture. Amplification was relatively better with this buffer system as compared to that of commercially available PCR buffer. With the present technique, amplicon detection did not require the centrifugation/dilution of the PCR products which further saves time. Successful amplification was achieved in both the healthy and diseased blood samples, indicating the robustness of the technique as changed blood composition and presence of increased inhibitory molecules in the diseased state did not seem to affect the efficacy of the present technique. In conclusion, as compared to the existing protocols for whole blood PCR, the present technique is relatively novel, simple, requires minimal steps and eliminates the need for additional standardizations.     

DNA methylation of cord blood cell types: Applications for mixed cell birth studies

Epigenome-wide association studies of disease widely use DNA methylation measured in blood as a surrogate tissue. Cell proportions can vary between people and confound associations of exposure or outcome. An adequate reference panel for estimating cell proportions from adult whole blood for DNA methylation studies is available, but an analogous cord blood cell reference panel is not yet available. Cord blood has unique cell types and the epigenetic signatures of standard cell types may not be consistent throughout the life course. Using magnetic bead sorting, we isolated cord blood cell types (nucleated red blood cells, granulocytes, monocytes, natural killer cells, B cells, CD4⁺T cells, and CD8⁺T cells) from 17 live births at Johns Hopkins Hospital. We confirmed enrichment of the cell types using fluorescence assisted cell sorting and ran DNA from the separated cell types on the Illumina Infinium HumanMethylation450 BeadChip array. After filtering, the final analysis was on 104 samples at 429,794 probes. We compared cell type specific signatures in cord to each other and methylation at 49.2% of CpG sites on the array differed by cell type (F-test P < 10^?8). Differences between nucleated red blood cells and the remainder of the cell types were most pronounced (36.9% of CpG sites at P < 10^?8) and 99.5% of these sites were hypomethylated relative to the other cell types. We also compared the mean-centered sorted cord profiles to the available adult reference panel and observed high correlation between the overlapping cell types for granulocytes and monocytes (both r=0.74), and poor correlation for CD8⁺T cells and NK cells (both r=0.08). We further provide an algorithm for estimating cell proportions in cord blood using the newly developed cord reference panel, which estimates biologically plausible cell proportions in whole cord blood samples.     

Gene-specific oxidative lesions in aged rat brain detected by polymerase chain reaction inhibition assay

An exposure of isolated rat brain genomic DNA to oxidative stress in the form of iron salts (Fe²⁺) and ascorbate results in gene-specific DNA lesions detectable by a quantitative polymerase chain reaction (PCR) based assay in which PCR amplification efficiency of the affected genes (e.g. β-actin and p53) is grossly impaired. Such oxidative DNA lesions are prevented by hydroxyl radical scavengers like mannitol (20 mM) and sodium benzoate (20 mM) or by the antioxidant enzyme catalase (50 μg/ml) present in the incubation mixture during exposure to Fe²⁺ and ascorbate. When brain DNA isolated from young (4–6 months of age) and aged (20–24 months of age) rats are analyzed similarly by the PCR based method, the amplification levels of β-actin and p53 genes are noticeably decreased in the case of aged rat indicating an accumulation of gene-specific DNA lesions during brain aging.     

Cord blood buffy coat DNA methylation is comparable to whole cord blood methylation

Cord blood DNA methylation is associated with numerous health outcomes and environmental exposures. Whole cord blood DNA reflects all nucleated blood cell types, while centrifuging whole blood separates red blood cells, generating a white blood cell buffy coat. Both sample types are used in DNA methylation studies. Cell types have unique methylation patterns and processing can impact cell distributions, which may influence comparability. We evaluated differences in cell composition and DNA methylation between cord blood buffy coat and whole cord blood samples. Cord blood DNA methylation was measured with the Infinium EPIC BeadChip (Illumina) in eight individuals, each contributing buffy coat and whole blood samples. We analyzed principal components (PC) of methylation, performed hierarchical clustering, and computed correlations of mean-centered methylation between pairs. We conducted moderated t-tests on single sites and estimated cell composition. DNA methylation PCs were associated with individual (P_PC1 = 1.4 × 10^?9; P_PC2 = 2.9 × 10^?5; P_PC3 = 3.8 × 10^-5; P_PC4 = 4.2 × 10^-6; P_PC5 = 9.9 × 10^-13, P_PC6 = 1.3 × 10^?11) and not with sample type (P_PC1-6>0.7). Samples hierarchically clustered by individual. Pearson correlations of mean-centered methylation between paired samples ranged from r = 0.66 to r = 0.87. No individual site significantly differed between buffy coat and whole cord blood when adjusting for multiple comparisons (five sites had unadjusted P<10^?5). Estimated cell type proportions did not differ by sample type (P = 0.46), and estimated proportions were highly correlated between paired samples (r = 0.99). Differences in methylation and cell composition between buffy coat and whole cord blood are much lower than inter-individual variation, demonstrating that both sample preparation types can be analytically combined and compared.     

Extraction and purification of microbial DNA from petroleum-contaminated soils and detection of low numbers of toluene, octane and pesticide degraders by multiplex polymerase chain reaction and Southern analysis

We investigated the use of multiplex polymerase chain reaction (FCR) techniques coupled with Southern analysis to detect xenobiotic-degrading organisms that had been added to three soils. Two soils highly contaminated with petroleum hydrocarbons and a less contaminated control soil were amended with tenfold dilutions of Pseudomonas putida mt-2 (pWWO), P. oleovorans (OCT), and Alcaligenes eutrophus JMP134 (pJP4), or, for controls, phosphate buffer alone. Total DNA was then isolated from the soils and purified using a sequential precipitation and dissolution purification procedure. This DNA was subjected to multiplex polymerase chain reaction (PCR) using primers that amplify regions of xylM (PCR product = 631 bp), alkB (546 bp) and tfdA (710 bp), which are found on pWWO, OCT and pJP4, respectively. The sizes of the amplified DNA fragments were designed to permit simultaneous amplification and detection of the target genes. Ethidium bromide-stained gels of the initial PCR reaction indicated detectable amplification of between 10* to 10* cells per gram soil, depending on the soil and the target gene. Southern analysis of the PCR amplified DNA improved detection limits to between 1 and 10 cells of each target species per gram of soil, and confirmed the identity of the PCR products. For some samples that were initially resistant to PCR, dilution of the environmental DNA resulted in positive PCR results. This treatment presumably overcame the inhibition of the PCR by diluting coextracted contaminants in the environmental DNA. A second PCR on an aliquot (1 μL) of the first reaction increased the ethidium bromide-based detection limits for one of the soils to six cells per gram of soil; it did not increase the detection limits for the other soils. Therefore, the DNA extraction procedure and multiplex PCR permitted the simultaneous detection of three types of biodegradarJve cells, at a lower detection limit of = > 10 cells per gram of highly contaminated, organic soil. However, due to kinetic limitations of multiplex PCR, the amplified signals did not follow a close dose response to the numbers of added target cells.     

Chicken red blood cells as a substrate for direct polymerase chain reaction

A protocol is presented for direct polymerase chain reaction (PCR) amplification of DNA from chicken nucleated red blood cells. Chicken blood in EDTA was found to have a strong inhibitory effect on the PCR. Consequently, PCR using this protocol should be performed only on a narrow range of blood volumes, from 0125 to 025 |ll.     

DNA EXTRACTION METHODS FOR KELP (LAMINARIALES) TISSUE1

Newly adapted extraction methods for harvesting total cellular DNA from kelp (Laminariales; Phaeophyta) exploit the life-history stages of these heteromorphic algae. Earlier techniques, developed primarily for chloroplast DNA extraction, were time consuming and labor intensive and required large quantities of fresh sporophyte tissue. In contrast, the new methods expedite DNA extraction by employing dried sporophyte laminae or fresh gametophyte filaments and meiospores. The current methods require less tissue and procedural manipulation, reducing the time and labor involved in DNA extraction. Additionally, the current methods were successfully employed to extract DNA from herbarium specimens up to 22 years old. Total cellular DNA yields were 12.8 and 26.4 μg:g^?1 from dried laminae,: 1.9 and 11 μg from small volumes of concentrated gametophyte filaments (25 μL), and 43 to 54.5 μg from pellets of isolated meiospores (50 μL). Following purification on Sepharose columns, DNA from all three sources was sufficiently pure for molecular applications, including restriction endonuclease digestion, Southern blot-hybridizations, and amplification via the polymerase chain reaction.     

A Study of Two Procedures of HIV-1 Isolation from Whole Blood Cultures

Culture techniques for isolation of HIV-1 from small amounts of whole blood (WB) treated with anticoagulant have been reported and gave results identical to those of culture of separated peripheral blood mononuclear cells. Some authors obtained much higher isolation rates when EDTA was used instead of heparin. We compared two previously described techniques for cultivation of HIV-1 from WB of adult HIV+ patients staged according to the CDC classification. In addition, we assessed the influence of the type of anticoagulant used for the collection of blood in viral replication in cell cultures from whole blood. Small volumes of WB treated with either heparin or EDTA were cocultivated with phytohemagglutinin (PHA)-stimulated peripheral blood mononuclear cells (PHA-PBMC) from healthy donors. We used two procedures for WB culture: procedure I, based on the culture of 250 μl of WB with 1 × 10⁶ PHA-PBMC from donors; and procedure II based on the culture of 500 μl of WB with 4× 10⁶ PHA-PBMC from donors. The cocultures were placed in 24-well plates and incubated for as long as 28 days in medium containing interleukin 2 (IL-2). Twice weekly half of the medium was replaced with fresh medium. In procedure II, one million fresh PHA-PBMC from donors was added on the 7th day of culture. The culture supernatant was assayed for the presence of HIV-1 p24 antigen in an enzyme immunoassay. The kinetics of HIV-1 replication in cultures of WB from 7 AIDS patients were similar using procedures I and II. In 8 HIV + patients the isolation rate was higher with heparin- than with EDTA-treated samples. The isolation rate was higher in AIDS patients (n = 8) than in others with both methods. In stage IV patients without AIDS (n = 8) we failed to isolate HIV-1 in 1 patient with procedure I, whereas we succeeded with procedure II. In stage II, HIV-I was isolated in 1 of 4 patients with both methods. HIV was isolated in cultures of WB from patients receiving zidovudine or related nucleoside analogues and in cultures of WB from untreated patients. HIV-1 could not be isolated from WB of patients with more than 400 CD4+ T lymphocytes in their peripheral blood (n=4); however, it was isolated from 14 of 16 patients with less than 400 CD4+ T lymphocytes. Our results suggest that procedure II is more sensitive than procedure I and that heparin is better than EDTA for collecting WB. We showed that the rate of HIV-1 isolation from WB increased in advanced-stage patients. Further studies are needed to define the clinical applications of WB culture.     

DNA提取的应用与相关技术分析

为了分析影响提取DNA的有关因素,采用标准酚—氯仿抽提法和蛋白酶消化法提取DNA。结果表明,平均每mL全血可提取200 ~ 300μgDNA;新鲜组织及OCT包埋冰冻组织提取DNA,平均每0.2g组织可获得200~300μgDNA;直接将石蜡标本提取物制作模版,PCR扩增良好。从4种组织中均获得较为纯净的DNA;OCT对组织DNA无不良影响。 Abstract:To explore influence factors of DNA extraction,the protease and phenol-chloroform method was used to extract DNA in whole blood,fresh tissues,frozen tissues embedding with OCT and tissues embedding in paraffin.It results that 200~300μg DNA was extracted from 1ml whole blood or 0.2g fresh tissues or frozen tissue embedding with OCT.DNA extracted from paraffin specimen can be directly used in PCR amplification.Purity DNA can be extracted from four kinds of different tissues.OCT hasn't harmful effect on tissue DNA extraction.     

Integrated method for single-cell DNA extraction, PCR amplification, and sequencing of ribosomal DNA from harmful dinoflagellates Cochlodinium polykrikoides and Alexandrium catenella

A simplified technique was developed for DNA sequence-based diagnosis of harmful dinoflagellate species. This protocol integrates procedures for DNA extraction and polymerase chain reaction (PCR) amplification into a single tube. DNA sequencing reactions were performed directly, using unpurified PCR products as the DNA template for subsequent sequencing reactions. PCR reactions using DNA extracted from single cells of Cocodinium polykrikoides and Alexandrium catenella successfully amplified the target ribosomal DNA regions. DNA sequencing of the unpurified PCR products showed that DNA sequences corresponded to the expected locus of ribosomal DNA regions of both A. catenella and C. polykrikoides (each zero genetic distance and 100% sequence similarity). Using the protocol described in this article, there was little DNA loss during the purification step, and the technique was found to be rapid and inexpensive. This protocol clearly resolves the taxonomic ambiguities of closely related algal species (such as Alexandrium and Cochlodinium), and it constitutes a significant breakthrough for the molecular analysis of nonculturable dinoflagellate species.     

Recovery of mitochondrial DNA from blood leukocytes using detergent lysis

Mitochondrial DNA (mtDNA) was isolated from leukocytes contained in whole blood of cattle. Leukocyte membranes except the nuclear envelope were solubilized in a buffer that contained 1% Triton X-100. After sedimentation of cell nuclei, mtDNA was purified from the cell lysate by organic solvent extraction and ethanol precipitation. Approximately 5 µg of mtDNA was recovered from 400 ml of whole blood, a quantity sufficient for routine DNA cloning procedures or for detailed restriction mapping studies. mtDNA isolated with this method is a suitable substrate for several DNA-modifying enzymes. Thus, preparation of mtDNA from blood by detergent lysis provides a noninvasive alternative to tissue biopsy for characterization of mitochondrial genotypes in studies of evolutionary genetics and population dynamics.This work was supported in part by the Iowa State University Biotechnology Council and by the Holstein Association.Journal Paper No. J-13683 of the Iowa Agriculture and Home Economics Experiment Station, Ames, Iowa. Project No. 2736.     

一种从人血凝块中提取基因组DNA的方法

介绍了一种新的从人血凝块中提取基因组DNA的方法,用该方法提取的DNA成功地应用于PCR和限制性酶切等后续实验中。基本过程为首先机械粉碎,然后高盐高EDTA溶液处理,含蛋白酶K和SDS的消化液变换温度消化,苯酚氯仿抽提。     

An optimisation approach to increase DNA amplification success of otter faeces

Faeces have proved to be a suitable non-invasive DNA source for microsatellite analysis in wildlife research. For the success of such studies it is essential to obtain the highest possible PCR amplification success rate. These rates are still relatively low in most carnivorous species, especially in the otter (Lutra lutra). We therefore optimised the entire microsatellite genotyping process by combining our findings with results from previous studies to gain a high rate of reliable genotypes. We investigated the influence of otter faecal quality in relation to the quantity of slimy secretions and three levels of storage periods at ?20°C on amplification success. Further, we tested the cost-effective and time-saving Chelex extraction method against the profitable QIAamp^® DNA Stool Kit (Qiagen), and compared three PCR methods - a standard single-step PCR protocol, a single-locus two-step PCR procedure and a multiplex two-step PCR procedure - regarding success rate and genotyping errors. The highest amplification success rate (median: 94%; mean: 78%) was achieved using faecal samples consisting only of jelly extracted with the QIAamp^® DNA Stool Mini Kit (Qiagen) immediately after collection and amplified following the time and cost efficient multiplex two-step PCR protocol. The two-step procedure, also referred to as pre-amplification approach, turned out to be the main improvement as it increases amplification success about 11% and reduces genotyping errors about 53%, most notably allelic dropouts.     

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.