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

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

Isolation of DNA from bacterial samples of the human gastrointestinal tract

The human gastrointestinal (GI) tract contains a complex microbial community that develops in time and space. The most widely used approaches to study microbial diversity and activity are all based on the analysis of nucleic acids, DNA, rRNA and mRNA. Here, we present a DNA isolation protocol that is suitable for a wide variety of GI tract samples, including biopsies with minute amounts of material. The protocol is set up in such a way that sampling can be performed outside the laboratory, which offers possibilities for implementation in large intervention studies. The DNA isolation is based on mechanical disruption, followed by isolation of nucleic acids using phenol:chloroform:isoamylalcohol extraction. In addition, it includes an alternative DNA isolation protocol that is based on a commercial kit. These protocols have all been successfully used in our laboratory, resulting in isolation of DNA of sufficient quality for microbial diversity studies. Depending on the number of samples and sample type, the whole procedure will take approximately 2.5-4 hours.     

Isolation of DNA from blood.

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

三种粪便总DNA提取方法的比较

目的比较不同粪便总DNA提取方法对肠道菌群多样性研究的影响。方法采用Bead beating法、化学裂解法和QIAamp DNA Stool Mini Kit提取同一份人粪便样品的总DNA,对比3种方法的DNA得率和16S rRNA基因V3区的变性梯度凝胶电泳（DGGE）图谱。结果Bead beating法的DNA得率约是其他2种方法的2倍;3种方法得到的DGGE图谱的Dice相似性为60％～70％,2条优势条带只出现在Bead beating法图谱中。在2～5min的Bead beating法击打时间里,DNA得率随击打时间的延长有一定的增加,但DGGE图谱无显著变化。结论不同的DNA提取方法会影响菌群的多样性分析。比较其他2种方法,Bead beating的裂解效率更高,能够检测到更多种类的细菌,更合适肠道菌群组成的分子研究。     

Rapid preparation of PCR-amplifiable fungal DNA by benzyl bromide extraction

For isolation of fungal DNA for PCR amplification, we compared three DNA isolation methods: enzymatic cleavage and the use of benzyl chloride or benzyl bromide. Since benzyl bromide is more reactive, its use enabled us to readily isolate the total nucleic acids as a DNA template source from various fungi, including dematiaceous hyphomycetes, for RAPD analysis.     

Ion pair-reversed phase HPLC approach facilitates subcloning of PCR products and screening of recombinant colonies

The isolation of a single DNA molecule for cloning is technically difficult, and the subsequent screening of colonies for recombinant DNA clones is time consuming. Ion pair-reversed phase HPLC (IP-RP-HPLC) analysis of nucleic acids improves the resolution and isolation of PCR products to be cloned. We demonstrate that PCR products analyzed and collected using the IP-RP-HPLC approach (WAVE DNA Fragment Analysis System) can be cloned directly into a plasmid vector. In addition, we demonstrate that when IP-RP-HPLC analysis is extended to the colony screening process, the time required for these procedures is reduced.     

An improved method of plant megabase DNA isolation in agarose microbeads suitable for physical mapping and YAC cloning

The isolation of high quality megabase DNA from plant cells that is susceptible to a variety of molecular reagents is a critical first step in the physical analysis of complex genomes. A method for the isolation of such DNA by encapsulating plant protoplasts in agarose microbeads is presented. In comparison with the conventional agarose plug method, microbeads provide a dramatic increase in the surface area yielding megabase DNA that can be treated essentially as an aqueous DNA solution. Examples of the utility of DNA prepared by this technique for physical mapping, partial restriction enzyme digestion and cloning of large inserts as YACs are presented.     

Rapid procedure for detection and isolation of large and small plasmids.

Procedures are described for the detection and isolation of plasmids of various sizes (2.6 to 350 megadaltons) that are harbored in species of Agrobacterium, Rhizobium, Escherichia, Salmonella, Erwinia, Pseudomonas, and Xanthomonas. The method utilized the molecular characteristics of covalently closed circular deoxyribonucleic acid (DNA) that is released from cells under conditions that denature chromosomal DNA by using alkaline sodium dodecyl sulfate (pH 12.6) at elevated temperatures. Proteins and cell debris were removed by extraction with phenol-chloroform. Under these conditions chromosomal DNA concentrations were reduced or eliminated. The clarified extract was used directly for electrophoretic analysis. These procedures also permitted the selective isolation of plasmid DNA that can be used directly in nick translation, restriction endonuclease analysis, transformation, and DNA cloning experiments.     

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

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

Co-precipitation of protein and polyester as a method to isolate high molecular weight DNA

DNA isolation is often the limiting step in genetic analysis using PCR and automated fragment analysis due to low quality or purity of DNA, the need to determine and adjust DNA concentrations after isolation etc. Several protocols have been developed which are either safe and provide good quality DNA or hazardous and provide excellent quality DNA. In this brief communication I describe a new and rapid method of DNA isolation which employs the co-precipitation of protein and polyester, in the presence of acetone, to remove contaminating proteins from a lysed-tissue sample, thus leaving high quality pure DNA. The advantages of this method are increased safety over the phenol:chloroform and the chaotrophic salt methods and increased purity over the salting-out method. Since the concentrations of DNA isolated using this method are relatively consistent regardless of the amount of starting tissue (within limits), adjustments of the DNA concentrations before use as templates in PCR's are not necessary.     

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

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

Am improved procedure for the isolation of chloroplast DNA fromChlamydomonas reinhardtii

The isolation of chloroplast DNA fromChlamydomonas reinhardtii requires the efficient separation of this AT-rich genome from the GC-rich nuclear genome by density-gradient centrifugation. We describe a simple and efficient method for separating these DNA fractions by using a sodium iodide gradient in combination with the DNA-binding dye, bisbenzimide. The yield of chloroplast DNA is close to the theoretical maximum and the DNA is suitable for restriction enzyme analysis and cloning. This method is applicable to the isolation of AT-rich plastid genomes from other organisms and may be appropriate as a general method for separating species of DNA that differ in their AT/GC ratios. An erratum to this article is available at .     

商城肥鲵二碱基重复和四碱基重复微卫星DNA的结构特征及对筛选效率的影响

两栖类有尾目物种的微卫星分离中的筛选成功率常常较低。为探索微卫星结构对筛选效率的影响,本研究通过AFLP快速分离法(fast isolation by AFLP of sequences containing repeats,FIASCO)对商城肥鲵(Pachyhynobius shangchengensis)二碱基重复类型和四碱基重复类型微卫星进行分离,并对微卫星序列进行了分析。研究中发现二碱基微卫星位点多以微卫星DNA家族形式存在,并因此导致了微卫星位点分离较低的筛选率;在四碱基重复的微卫星位点中未发现微卫星DNA家族的存在。对研究中得到的3个微卫星DNA家族的分析发现,同一家族的上、下游侧翼序列变异程度存在差异;毗邻微卫星重复单元区的侧翼序列碱基变异程度较高,而较远处的区段则相对保守。这些结构特征可能反映出微卫星DNA家族在演化中的复杂性。本文的研究结果提示在两栖动物的一些类群中,微卫星的筛选必须考虑微卫星DNA家族的影响,选取适宜的碱基重复类型将是决定筛选效率的关键。     

New procedure for isolation of Rous sarcoma virus-specific RNA from infected cells.

The use of mercurated "strong stop" complementary DNA (complementary to the 5'-terminal 101 nucleotides of Rous sarcoma virus RNA) in the isolation of virus-specific RNA from infected chicken embryo fibroblasts is described. Strong stop Rous sarcoma virus complementary DNA was mercurated chemically, and, as a result of the low complexity of this DNA, short hybridization times (up to 15 min) and heating in the absence of formamide were found to be adequate conditions for the isolation of virus-specific RNA. The purity of the isolated RNA was demonstrated by analysis of labeled RNase T1-resistant oligonucleotides by two-dimensional polyacrylamide gel electrophoresis. The isolated RNA could be translated in the in vitro protein synthesis system derived from rabbit reticulocytes, and an analysis of polypeptides programmed by isolated RNA before and after immunoprecipitation further demonstrated both the purity of the isolated mRNA and the quantitative nature of the isolation procedure.     

Extraction of high-quality genomic DNA from latex-containing plants

The isolation of intact, high-molecular-mass genomic DNA is essential for many molecular biology applications including long PCR, endonuclease restriction digestion, Southern blot analysis, and genomic library construction. Many protocols are available for the extraction of DNA from plant material. However, for latex-containing Asteraceae (Cichorioideae) species, standard protocols and commercially available kits do not produce efficient yields of high-quality amplifiable DNA. A cetyltrimethylammonium bromide protocol has been optimized for isolation of genomic DNA from latex-containing plants. Key steps in the modified protocol are the use of etiolated leaf tissue for extraction and an overnight 25 degrees C isopropanol precipitation step. The purified DNA has excellent spectral qualities, is efficiently digested by restriction endonucleases, and is suitable for long-fragment PCR amplification.     

Isolation and random amplified polymorphic DNA analysis of genomic DNA from soybean embryos

Summary An isolation procedure was developed for the extraction of genomic DNA and Random Amplified Polymorphic DNA (RAPD) analysis using individual soybean embryos. This procedure can be used to quickly and efficiently isolate DNA from a large number of individuals. DNA isolations were analyzed for total yield, integrity, and usefulness as a template in RAPD analysis.     

Rapid isolation of DNA from Dioscorea species suitable for PCR,restriction digestion and pathogen screening

The methods employed for DNA extraction from many plants is difficult because of the metabolites that interfere with DNA isolation procedures. We have developed a reliable and efficient method for isolating genomic DNA free from polysaccharide, polyphenols and protein contaminants from Dioscorea spp. The method involves inactivation of contaminant proteins by using CTAB/Proteinase K and precipitation of polysaccharides in the presence of high concentration of salt. The purity of genomic DNA was confirmed by A260/280 and A260/230 ratios calculated from the spectrophotometric readings and further by restriction analysis of the isolated DNA using restriction enzymes Eco RI. The total genomic DNA extracted by the new protocol was used for polymerase chain reaction amplification, RAPD analysis, restriction digestion and pathogen screening. The new protocol can be successfully used for both small- and large-scale preparation of genomic DNA from different tissues of Dioscorea spp. The quarantine of seed tubers and use of pathogen-free tubers for planting is a prerequisite for integrated disease management strategy. The protocol can be used for the isolation of genomic DNA from other crop plants too.     

Isolation of the proviral coding strand of avian myeloblastosis virus from leukemic chicken myeloblast by affinity chromatography.

The coding strand of the integrated proviral DNA of avian myeloblastosis virus (AMV) was isolated from the DNA of leukemic chicken myeloblast. The three-step isolation procedure employed a combination of affinity chromatography with Sepharose-linked RNA, nucleic acid hybridization, and hydroxypatite chromatography techniques. At each step of purification the product was analyzed for the enrichment of AMV coding strand by hybridization with AMV RNA. The final product was the coding strand of the AMV DNA (90% pure). These results show that such a procedure can be used for the isolation and analysis of a specific structural gens of eukaryotic cells.     

Comparison between modified DNA extraction protocols and commercial isolation kits in grapevine (Vitis vinifera L.)

Various protocols have been developed and used for DNA extraction in grapevine. However, owing to the long duration of the isolation steps in previously developed protocols, researchers have preferred to use isolation kits for studies in recent years. In our study, the DNA yield and purity obtained using six methods - namely three DNA isolation protocols and three commercial DNA isolation kits - were compared. Modifications were made and the isolation steps were shortened in the previously developed DNA isolation protocols to achieve more rapid and practical protocols. The samples were taken from plants grown under vineyard and greenhouse conditions in two periods during spring and autumn. The best results among the six DNA isolation methods were discussed. The results were also supported with polymerase chain reaction analyses conducted with isolated DNAs.     

富集培养及高质量DNA提取有利于从土壤宏基因组中获取新卤醇脱卤酶基因

目的:宏基因组技术作为一种不依赖于微生物纯培养的新方法,在挖掘新基因方面具有极大的潜力。本研究旨在建立一种从土壤中高效获取卤醇脱卤酶新基因的策略。方法:通过对现有DNA提取方法进行改进,同时结合富集培养途径以提高土壤宏基因组DNA质量和特异性;在此基础上,应用T-Coffee及CDEHOP程序设计特异引物并对目的基因进行扩增,同时采用正交法设计优化扩增条件,以提高获得卤醇脱卤酶基因的效率。结果:应用改进法提取的DNA质量较改进前有大幅度提高,其D260nm/D280nm及D260nm/D230nm值均大于1.8,且可以不经纯化直接用于PCR和相关酶切实验;PCR扩增目标基因的特异性增强,其中用经富集培养后所得DNA为模板扩增目标基因的特异性最强,TA克隆测序阳性结果比例最高。结论:富集培养和高质量DNA的获得有助于基于宏基因组途径获取新基因。