一种快速微量提取植物叶片DNA的方法

介绍了一种快速提取微量DNA的方法。该方法简单易行,无需任何特殊设备,所需样品量少。提取的DNA纯度高,D260nm/D280nm在1．9-2．1之间,可满足RAPD、SSR、转基因植株的PCR检测等以PCR扩增为基础的实验需要。     

A rapid inexpensive method for the isolation of restrictable mitochondrial DNA from various plant sources

A simplified method for the isolation of mitochondrial DNA (mtDNA) of several plant species from either coleoptile or tissue cultured cells is described. The procedure does not require gradient ultracentrifugation or organic solvent extractions (such as phenol, chloroform, ether, etc.). Protoplast isolation is not required for the release of organelles from cell suspension cultured cells. The entire procedure can be performed in a single day and employs differential low speed centrifugations for isolation of mitochondria and differential precipitations for the recovery of restrictable DNA.     

A rapid and inexpensive method for isolation of total DNA from Trichoderma spp (Hypocreaceae)

Extraction of high-quality genomic DNA for PCR amplification from filamentous fungi is difficult because of the complex cell wall and the high concentrations of polysaccharides and other secondary metabolites that bind to or co-precipitate with nucleic acids. We developed a modified sodium dodecyl sulfate/phenol protocol, without maceration in liquid nitrogen and without a final ethanol precipitation step. The A(260/280) absorbance ratios of isolated DNA were approximately 1.7-1.9, demonstrating that the DNA fraction is pure and can be used for analysis. Additionally, the A(260/230) values were higher than 1.6, demonstrating negligible contamination by polysaccharides. The DNA isolated by this protocol is of sufficient quality for molecular applications; this technique could be applied to other organisms that have similar substances that hinder DNA extraction. The main advantages of the method are that the mycelium is directly recovered from culture medium and it does not require the use of expensive and specialized equipment.     

Isolation of plant DNA: A fast,inexpensive, and reliable method

We describe here a simple method to isolate DNA of high molecular weight from a wide variety of plant materials, such as trees, herbaceous plants, cell suspension cultures, calli, seeds, dried embryos, ferns and lichens. The crucial step of the extraction is the use of an acidic extraction medium. When necessary, the sample was separated on a fast RPC-5 column providing us with highly purified DNA suitable not only for restriction endonuclease analyses but also for PCR experiments, RLFP analyses, or detection of adducts.     

A rapid method for tissue collection and high-throughput isolation of genomic DNA from mature trees

Collection of tissue and subsequent isolation of genomic DNA from mature tree species often proves difficult. DNA extraction from needles, leaves, or buds is recommended in many protocols. Collecting these tissues from mature trees generally requires the use of firearms or climbing if sampling is to be nondestructive. As a result, sample collection is a major expense of many tree-based projects. Tree (and plant) tissues generally contain large amounts of polysaccharides and phenolic compounds that are difficult to separate from DNA. Many methods aim to overcom these problems, with most involving extraction in buffers containing the nonionic detergent cetyltrimethyl-ammonium bromide (CTAB), followed by numerous steps to clean contaminants from the DNA, using organic solvents and differential salt precipitation. These steps are time-consuming, such that isolation of DNA becomes the bottleneck in many molecular studies. This paper presents a new, efficient, cambium collection method for tree species and a DNA extraction protocol based on that of Doyle and Doyle (1987), with follow-up purification using the Wizard nuclei lysis and protein precipitation solutions (Promega). Results show a significant improvement in yield and DNA purity compared with other published methods, with consistently high yields of pure genomic DNA and high sample throughput. The relatively low cost per extraction, no requirement for use of liquid nitrogen, no requirement for freezer storage, and long-term sample stability after collection are important additional benefits.     

Purification of total cellular DNA from a single plant

A procedure is outlined for purifying DNA from a single plant. A crude organelle pellet consisting of nuclei, chromatin, chloroplasts, and mitochondria is prepared, suspended, and immediately lysed with detergents. The DNA is separated from RNA, protein, and polysaccharides by banding it in CsCl density equilibrium gradients. Ethidium bromide is included in all buffers to act as an inhibitor of DNAase activity. The DNA prepared in this manner can be digested with restriction endonucleases, separated by gel electrophoresis, and used to identify specific genes by hybridization of cloned DNA sequences.These experiments were supported by Grant DEB79-2298 from the National Science Foundation and Grant 59-2133-0-1-489-0 from the USDA Competitive Research Grants Program.     

A rapid and efficient method for the isolation of restrictable total DNA from plants of the genusAbelmoschus

A rapid, simple and efficient protocol is given for the extraction of restrictable total DNA from plants of the genusAbelmoschus, for which the main obstacle is the stickiness of the solution, after grinding of green leaves. This problem is resolved using cotyledons of dark-grown seedlings.     

磁珠法快速提取鉴定DNA的实验研究

探索用磁珠法进行动植物DNA的快速提取与电泳鉴定实验。操作简捷直观、降低了实验成本,提升了实验水平,使得高纯度DNA的提取实验今后可以在大学生、中学生的生物学、遗传学实验室进行,给更多的学生和教师、科研人员参与生命科学的研究提供了机会。     

A rapid mini-prep method for isolation of ectomycorrhizal DNA from Tuber species

A rapid procedure has been developed to isolate DNA from the ectomycorrhizae of Tuber spp. for use in PCR experiments. The method described is fast and sensitive and can overcome the amplification problems that can arise in the presence of inhibitors. For this reason it can be used to type ectomycorrhizae even starting from a single root tip and make mycorrhizae identification much more rapid.     

一种快速提取肠道微生物总DNA的方法

采集的兔肠道内容物及其粪便样品,通过分散浸泡、震荡洗涤、分级离心、滤器过滤、DNA提取试剂盒提取纯化,可以获得纯度很高的DNA样品。经0.8%琼脂糖凝胶电泳检测和紫外分光光度计测定,样品A260/A280的比值为1.72±0.02。分别以提取的DNA样品为模板,通过设计的细菌特异引物,对其16S rDNA基因进行PCR扩增,获得了1.6 kb大小特异性很好的预期条带。这为肠道微生物群落的分子生态学研究提供了一种简便、可靠的DNA提取方法。     

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.     

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.     

Mitochondrial DNA and RNA isolation from small amounts of potato tissue

We present a fast and simple protocol for purification of mitochondrial DNA and RNA from small amounts of potato tissue including tubers, leaves, flowers, and flower buds. This method uses a high ionic strength medium to isolate mitochondria and extract mitochondrial DNA and RNA from a single preparation and is easily adaptable to other plant species. The mitochondrial DNA was not contaminated by plastid DNA, was fully restrictable and was successfully used for PCR, cloning and Southern analyses. Similarly, the isolated mitochondrial RNA was not contaminated (flower buds) or only slightly contaminated (leaves) by plastid RNA. RNA prepared according to our method was acceptable for northern and RT-PCR analyses.     

A rapid miniprep for the isolation of total DNA fromAgrobacterium tumefaciens

A procedure which avoids the use of phenol-chloroform and RNAase for the isolation of total DNA fromA. tumefaciens is described. Specific precipitation of protein by 2.5 M ammonium acetate is employed and much of the RNA is removed by an isopropanol precipition step. The procedure yields easily restrictable, good quality DNA and is probably applicable to other Gramnegative bacteria.     

Ready-to-use DNA extracted with a CTAB method adapted for herbarium specimens and mucilaginous plant tissue

This report summarizes major changes in previously published protocols for DNA extraction to improve the quality of DNA extracted from plants. Here, we highlight the critical modifications in the original protocols. The efficiency of these changes results in high-quality DNA ready to use in a variety of phytogenetically distant plant families, in particular species with mucopolysaccharides. The DNA obtained can be used without further purification in various molecular biology assays, including direct sequencing and AFLP and RAPD (random-amplified polymorphic DNA) analyses. The effectiveness of this method is proven by the amplification and sequencing of PCR products of up to 1 kb with DNA extracted from herbarium tissue ≥60 years old. This versatility is not usually found in DNA extraction protocols. In addition, this method is quick, adaptable to standard laboratories, and most important, safer and more cost-effective.     

A new protocol for isolation of mitochondrial DNA from cotton seedlings

A procedure to isolate mtDNA from cotton seedlings G. hirsutum and G. barbadense has been developed. The new protocol allows for the isolation of cotton mtDNA of high purity, yield and digestibility by restriction endonucleases. The success of the protocol is based on critical adjustments in the ionic strength of the homogenizing medium and washing buffer, the speed of grinding during homogenization, and the methods used for lysis of the mitochondria.     

A simplified protocol for routine total DNA isolation from salmonid fishes

An efficient total DNA isolation protocol, suitable for routine population genetic screening purposes is described. This phenol based extraction can utilize fresh, frozen or ethanol preserved tissues.