Isolation of high molecular weight DNA suitable for BAC library construction from woody perennial soft-fruit species

We have developed a novel nuclei extraction method that allows for the extraction of high molecular weight DNA from leaves of woody perennial soft-fruit species that contain high levels of carbohydrates and polyphenolics. The method utilizes a modified buffer system including 4% (w/v) polyvinylpyrrolidone (PVP)-10 and a combination of nylon filters and Percoll gradients to purify nuclei extracts prior to embedding in agarose plugs. The effectiveness of the method was demonstrated on leaves of red raspberry (Rubus idaeus) and blackcurrant (Ribes nigrum), two soft-fruit species that have shown to be recalcitrant to standard genomic DNA extraction methods. Extracted DNA was readily digested by restriction enzymes and, as shown for raspberry, suitable for bacterial artificial chromosome (BAC) library construction.     

Use of DNA purified in situ from cells embedded in agarose plugs for the molecular analysis of tk-/- mutants recovered in the L5178Y tk+/- 3.7.2C mutagen assay system

We have reported that tk-/- mutants recovered in the mouse L5178Y tk+/- 3.7.2C mutagen assay have often lost the tk+ allele. Allele loss in the tk-/- mutants is documented on Southern blots as the absence of a 6.3-kb Nco I fragment seen in both tk+/+ and tk+/- cell DNAs. For the routine screening of large- and small-colony tk-/- mutants DNAs for the absence of this genomic fragment, we have found that cells can be lysed in agarose plugs, and DNA of cells embedded in plugs can be purified, restricted with Nco I, electrophoresed, and analyzed on Southern blots without significant band distortion or diffusional loss of tk- specific fragments in the 2-7-kb range. Purification and restriction analysis of DNA in agarose plugs, originally developed to allow pulsed-field gel electrophoresis of very large DNA fragments, represents a convenient alternative to conventional DNA purification methods, allowing quantitative recovery of DNA from small numbers of cells, eliminating centrifugation, phenol extraction, and ethanol precipitation steps, and requiring smaller quantities of reagents.     

Isolation and characterization of human DNA in agarose block

Classic phenol-chloroform extraction of human DNA results in substantial shearing and low yield. Because DNA analysis in human genetic disorders needs relatively intact DNA, we modified the existing method and systematically analyzed the human DNA isolated from HeLa cells, leukocytes, amniocytes, and fibroblasts in agarose block and compared the results to those obtained by conventional phenol method. Our results showed that DNA isolated by the agarose method was higher in molecular weight, with minimal shearing as compared to the phenol method. Yield of DNA from the agarose method was substantially higher, almost twice that obtained by the phenol method. Restriction enzyme digestion of DNA from the agarose method indicated the usefulness of this DNA for restriction fragment length polymorphism (RFLP) analysis without further purification. DNA obtained by the agarose method was found to be more resistant to thermal degradation and more stable on long-term storage than that of phenol-extracted DNA.     

A simple method to recover intact high molecular weight RNA and DNA after electrophoretic separation in low gelling temperature agarose gels.

Defined RNA fractions can be recovered from low gelling temperature agarose gels by a combination of agarose melting at 65°C and phenol extraction. By this approach RNA molecules up to a size of 37 kb can be eluted undegraded with a recovery of 60–90%. The method is applicable also to DNA and the eluted DNA can be correctly cleaved with restriction endonucleases as shown for λDNA using EcoRI.     

AMPLIFICATION OF FUNGAL rDNA-ITS REGIONS FROM NON-FERTILE SPECIMENS OF THE LICHEN-FORMING GENUSPARMELIA

A method is described for the selective amplification of single mycobiont rDNA sequences from vegetative, non-ascomatal material of the lichenized thalli ofParmelia sulcataandP. saxatilis. The method includes a simple DNA extraction procedure employing rhizines, which avoids the use of liquid nitrogen disruption methods and phenol based extractions. The resulting amplified DNA is suitable for restriction enzyme analysis, and can be used to provide material for investigating population distribution and species concepts.     

Short protocol for pulsed field gel electrophoresis of a variety of Clostridia species

While pulsed field gel electrophoresis has become an important tool for genotyping of bacteria, one of its drawbacks is that standard methods are rather time-consuming. In order to overcome this problem, shortened procedures for DNA preparation have been developed for some bacterial species. The aim of this study was to examine if a short procedure used for pulsed field gel electrophoresis of Clostridium botulinum could be applied to other Clostridia species. For this, the protocol was modified and used to prepare the DNA of 34 strains of 25 different Clostridia species. In contrast to a standard procedure, which takes at least 5 days from DNA extraction to completion of the electrophoresis, this protocol yielded results within 2 days. In order to directly compare the results of the short protocol with those of the standard, long procedure, parallel DNA preparations were performed using both methods and the two DNA samples thus obtained per strain were then run on the same gel. Briefly, the procedure was as follows. After embedding the bacterial cells in agarose, the agarose blocks were incubated for 1 h in lysis solution containing lysozyme, mutanolysin, lysostaphin and RNase. This was followed by a 1-h proteinase K treatment. Then, slices were cut from the agarose blocks and washed for 15 min in TE buffer, these washes were repeated four times with fresh TE. After a 2-h restriction with SmaI, electrophoresis was carried out overnight.     

一种基于PCR分析多样性的小鼠肠道微生物宏基因组提取方法

目的建立一种基于PCR分析分子多样性的小鼠肠道菌群宏基因组提取方法。方法比较、综合国内外小鼠肠道菌群宏基因组的提取方法后建立一种新方法,小鼠肠道内容物经丙酮洗涤,差速离心,溶菌酶、SDS裂解,CTAB处理,酚／氯仿抽提后可得到高质量的DNA,通过紫外分光光度计、琼脂糖凝胶电泳、细菌通用引物PCR和扩增核糖体限制性酶切片段分析（ARDRA）等检测该方法的实用性。结果该方法获得的小鼠肠道菌群宏基因组DNA大小在23kb左右,A260／A280在1．8—2．0,经细菌通用引物PCR后能得到适用于ARDRA的目的产物。结论该方法经济适用性较强,具备一定的应用价值。     

Single copy gene detection requiring minimal cell numbers

There has been an increasing application of molecular DNA probes to evaluate a variety of clinical conditions. Frequently, the amount of tissue or number of cells available limits analysis by conventional DNA extraction and Southern blot hybridization. Moreover, DNA amplification techniques cannot be used in all cases. We have applied a modification of the DNA extraction-Southern blot hybridization technique to clinical samples which provides essentially quantitative recovery and analysis of DNA from minimal numbers of cells. DNA was obtained from cells which were immobilized in agarose blocks for lysis, deproteinization and restriction enzyme digestion. The DNA was then run directly into agarose gels to size fractionate for Southern blot analysis. Cells can be suspended in agarose blocks for over one year and frozen cells can be thawed and suspended in agarose. A variety of restriction enzymes can be used. Single copy sequences can be detected from as few as 5 x 10(4) cells. We have employed this method to examine immunoglobulin gene rearrangements in PBL from leukemia patients as well as bone marrow from myeloma patients. In addition, we have used the technique to accurately assess bone marrow engraftment after transplant. These results demonstrate a diagnostic application of this technique in a variety of clinical samples where there may be limited availability of cells.     

Unexpected loss of genomic DNA from agarose gel plugs

Intact chromosomal DNAs are routinely prepared by embedding cells in agarose plugs before lysis. The large sizes of the genomic DNAs cause their retention while other macromolecules diffuse into and out of the gel matrix during lysis, washing and restriction cleavage incubations. However, in an analysis of agarose-embedded chromosomal DNAs cleaved with restriction enzymes, fragments larger than 30 kilobases were found to have eluted from the gel plugs. Since loss of fragments from gel plugs may affect qualitative and quantitative interpretations of electrophoretic patterns, an analysis of the diffusion of DNA segments from agarose plugs was performed. The two variables monitored were the time dependence and the DNA fragment size dependence of the diffusion process. The results indicate that small fragments (less than or equal to 2 kilobases) are quickly lost from 1% agarose gel plugs; moreover, significant amounts of large DNA segments (i.e., the 48.5-kilobase lambda phage chromosome) are also lost. In addition to urging caution in the analysis of restriction cleavage data, these observations suggest that intact small organelle genomes and extrachromosomal DNAs also may be lost from genomic DNAs prepared in agarose gel plugs.     

一种快速、简单的琼脂糖凝胶DNA片段分离法

该方法利用Ｎａｌ溶解凝胶,硅胶颗粒吸附ＤＮＡ片段便之分离。有快速、不影响后续酶反应、高回收率等特点,可用于基因工程中酶切片段、ＰＣＲ产物的分离纯化。     

从植物细胞核分离大分子量核DNA

研究了从植物中分离百万碱基对级大分子量核DNA的方法。该方法利用差速离心分离植物细胞核,经低熔点琼脂糖块或低熔点琼脂糖微珠包埋,蛋白酶K原位裂解后制备大分子量核DNA。结果表明,选择不同生长时期的材料和不同的包埋细胞核方式对大分子量核DNA的制备有很大的影响,由黄化苗或幼嫩的绿叶为材料分离细胞核,进行胶块包埋是制备大分子量核DNA的最佳条件。利用该法获得的DNA分子量在200kb－5．7Mb之间,主要集中在2．2～5．7Mb之间;每一胶块DNAE量为18～20μg。与包埋原生质体制备大分子量核DNA的方法相比,该方法获得的DNA纯度较高,去除了大部分细胞器DNA的污染;易于被限制性内切酶部分和完全消化,其消化结果具可重复性。该方法操作简单、适用植物种类广泛,用该方法从水稻（OryzasativaL．）、苹果（MaluspumilaMill．）、大豆（Glycinemax（L．）Merr．）、玉米（ZeamaysL．）等多种植物材料中成功地制备了大分子量核DNA。该方法制备的核DNA适用于植物的脉冲交变电泳基因组分析和构建人工细菌染色体文库和人工酵母染色体文库。     

Isolation of megabase-size DNA from sorghum and applications for physical mapping and bacterial and yeast artificial chromosome library construction

A method was developed for the isolation of megabase-size DNA fromSorghum bicolor. Sorghum protoplasts were isolated from young leaf tissue, embedded in an agarose matrix as microbeads or plugs, followed by cell lysis and protein degradation. The DNA prepared by this method was larger than 1 Mb in size and readily digestible with restriction enzymes. The DNA was shown to be suitable for physical mapping, and was successfully used for the construction of BAC and YAC libraries.     

Asymmetric field inversion gel electrophoresis: a new method for detecting DNA double-strand breaks in mammalian cells

A new method is described for detecting DNA double-strand breaks (DSBs) that utilizes asymmetric field inversion gel electrophoresis (AFIGE). DNA purified from cells in agarose plugs is subjected to AFIGE and DNA breakage quantitated by the fraction of DNA released from the plug. To test the specificity of the method for DNA DSBs, purified DNA in agarose plugs was treated for increasing times with restriction endonuclease, XhoI. After an initial time period, the fraction of DNA released increased in direct proportion to time. This correlates with the expected response for a randomly broken DNA molecule. In contrast, treatment with the single-strand breaking agent, hydrogen peroxide, over a 1000-fold range produced no release of DNA from the plug. Thus the assay appears to be specific for DNA DSBs and was used to measure DNA breaks induced by gamma radiation. Purified DNA, irradiated in agarose plugs, exhibited a log-linear dose response up to doses that release greater than 90% DNA from the plug. When live cells were irradiated in agarose, a similar linear dose response was observed up to 40 Gy and a significant signal as low as 2.5 Gy. Also in live cells, a threefold lower percentage of DNA was released from the plug over the same dose range. However, less DNA per gray is released at doses above 40 Gy and may reflect a crosslinking effect produced by the irradiation of DNA in live cells. DNA which was "pulse-labeled" was used to test the effect of DNA replication on the ability of AFIGE to detect DNA DSBs. Replicating DNA irradiated in the cell or after purification exhibited a reduced rate of release from the plug per dose of irradiation. Overall, the above results indicate that AFIGE is a sensitive method for detecting DSBs in DNA.     

Preparation of HMW DNA from Plant Nuclei and Chromosomes Isolated from Root Tips

Simple, fast and cost-effective method for preparation of DNA with high molecular weight (HMW DNA) from plant nuclei and mitotic chromosomes has been developed. The technique involves mechanical homogenization of formaldehyde-fixed root tips, purification of nuclei and/or chromosomes on sucrose gradient, embedding in low-melting-point agarose, and DNA isolation in agarose plugs. Alternatively, nuclei and chromosomes may be purified using flow cytometry. Majority of DNA obtained is megabase-sized and well digestible by restriction endonucleases. The method is highly efficient as microgram amounts of DNA can be obtained from only several milligrams of plant tissue. Handling negligible amounts of plant material reduces the consumption of chemicals. Furthermore, the use of root tips makes it possible to obtain high-quality DNA even from plant species with leaves that are rigid or rich in secondary metabolites such as polyphenols. It is expected that preparation of HMW DNA from root tip nuclei will facilitate long-range mapping and construction of large-insert DNA libraries also in these species. Successful isolation of HMW DNA from flow-sorted chromosomes opens a way for construction of chromosome-specific large-insert libraries in plants. This revised version was published online in July 2006 with corrections to the Cover Date.     

Miniprep DNA isolation from unicellular and filamentous cyanobacteria

A rapid miniprep method for isolation of DNA from 12 strains of cyanobacteria belonging to groups I, III, IV and V is described. The protocol is a modification of the methods of Boyle and Lew [Boyle, J.S., Lew, A.M., 1995. An inexpensive alternative to glassmilk for DNA purification. Trends Genet. 11, 8] and the cetyltrimethyl ammonium bromide (CTAB) extraction method of Sahgai-Maroof et al. [Sahgai-Maroof, M.A., Soliman, K.M., Jorgensen, R.A., Allard, R.W., 1984. Ribosomal DNA spacer-length polymorphisms in barley: Mendelian inheritance, chromosomal location and population dynamics. Proc. Natl. Acad. Sci. USA 81, 8014-80181. The new method is especially useful for obtaining cyanobacterial DNA from unicellular, filamentous and filamentous branched species. The method does not require phenol extraction and the product can be used directly for PCR amplification and restriction digestion.     

Rapid purification of covalently closed circular DNAs of bacterial plasmids and animal tumor viruses

A rapid and simple purification of covalently closed circular (supercoiled) DNA from both bacterial clones (plasmids) and African green monkey cells (SV40) is presented. The method involves immediate treatment of lysed cells with sodium hydroxide, followed by neutralization and phenol extraction in high salt. After the extraction mixture is centrifuged, supercoiled DNA is found in the aqueous phase, the noncovalently closed DNA molecules form a white precipitate at the interphase, and proteins pellet. Contaminating RNA is eliminated from the aqueous phase by RNAse treatment and precipitation of the supercoiled DNA with polyethylene glycol. Residual polyethylene glycol is removed from the resuspended DNA by chloroform extraction. The purified supercoiled DNA is compatible with restriction enzymes, and is efficient at transforming both _χ1776 and HB101 bacterial hosts. Centrifugation in ethidium bromide-cesium chloride or sucrose gradients is not necessary. The method is virtually independent of the molecular size and gives good yields of supercoiled DNA. The technique is applicable to large-scale preparations and as a rapid “screening” procedure in which 20 to 30 samples can be easily purified within 5 to 6 h.     

Extraction of nucleic acids from agarose gels

A rapid, simple and versatile method is described for the extraction from agarose gels of small plasmid molecules and DNA fragments generated by restriction endonucleases. The method may be used also for the extraction of RNA from agarose-urea gels. It is based on the partitioning of nucleic acid molecules into 1-butanol as their quaternary ammonium salts, leaving the neutral agarose in the aqueous phase. The nucleic acid is then recovered as the sodium salt by partition back into an aqueous phase. Nucleic acid samples were found to be unaffected by the treatment, as judged by their ability to be ligated, transformed, nick-translated, and used in an in vitro protein-synthesizing system.     

Molecular diagnosis of Eimeria species affecting naturally infected Gallus gallus

We used PCR to test various protocols and define a technique for DNA extraction directly from chicken-shed stool samples for the identification of Eimeria species that parasitize birds. It was possible to extract and amplify DNA of seven Eimeria species from field stool samples, using both protocols tested; extractions made with phenol/chloroform protocols gave the best results. The primers were specific and sensitive, allowing amplification of samples containing as few as 20 oocysts, both in individual and in a multiplex PCR. Individualized PCR with the phenol/chloroform DNA extraction protocol detected a larger number of Eimeria species. Molecular diagnosis was found to be practical and precise, and can be used for monitoring and epidemiological studies of Eimeria.     

Rapid re-amplification of PCR products purified in low melting point agarose gels

A rapid, simple method is described for performing sequential amplifications of purified products produced by the PCR. After the initial amplification, an aliquot of the reaction is run on a low melting point agarose gel. A Pasteur pipet is used to punch out a gel plug from the amplified band. The DNA in this plug is then used directly as the template for a second round of amplification. Relatively large amounts of agarose can be tolerated without noticeable effects on amplification. Use of a composite gel made from agarose and linear polyacrylamide increases the ease and utility of this technique. These gels are simple to cast, easier to handle and permit several replicate plugs to be obtained from a single band. This method is well suited to experiments which use "nested" primers to increase the sensitivity and specificity of amplification or any method in which PCR amplification follows DNA purification by electrophoresis in LMP agarose gels.     

Construction and screening of BAC libraries made from Brachypodium genomic DNA

Bacterial artificial chromosome (BAC) libraries are the large DNA insert libraries of choice and valuable tools for the map-based cloning of target quantitative trait loci, physical mapping, molecular cytogenetics and comparative genomics. The protocol reported here is a simplified method used to produce and screen BAC libraries from Brachypodium species and other related grasses. Intact nuclei, containing high molecular weight (HMW) DNA, are isolated and embedded in agarose plugs. The HMW DNA is digested using an appropriate restriction enzyme and size-fractionated using pulsed-field gel electrophoresis. The DNA is isolated by dialysis, ligated into pre-prepared vector and electroporated into competent Escherichia coli cells. A PCR-based method for screening the library is also described. The entire protocol takes at least 6 weeks to complete.