Purification of mitochondrial and plastid DNA

The size, structure and conformation of mitochondrial and plastid genomes differ dramatically among eukaryotes. Similarly, the yield and purity of extracted organelle DNA also vary, and are crucial factors for the success of restriction mapping and sequencing experiments. We describe here procedures for the purification of organelle DNA from a broad range of eukaryotes. By emphasizing the underlying principles, these procedures will facilitate the development of new species-specific protocols. The presented purification schemes involve either isolation of organelles and subsequent extraction of DNA from this subcellular fraction, or processing of whole-cell lysates followed by CsCl gradient centrifugation to separate nuclear and organelle DNAs according to their A + T content. We have successfully used the described procedures for organelle genome sequencing from diverse eukaryotes, including non-axenic protists. Procedures can be completed in 3-5 days, typically yielding a few micrograms of DNA-ample for sequencing complete genomes.     

An efficient method for DNA extraction from cyanobacteria isolated from hypersaline and marine environments

Cyanobacteria are ancient organisms surviving on the earth due to their simple nutritional requirements and ability to produce distinct secondary metabolites that can combat detrimental environmental impacts. In order to understand these abilities of cyanobacteria at the molecular level, it is necessary to extract high‐quality genomic DNA. However, the presence of secondary metabolites and exopolysaccharides hinders the DNA extraction from these organisms, especially from hypersaline environments. Here we have developed and compared a new method with two known methods of DNA extraction from environmental isolates. The results clearly indicate that the new optimized method yielded large amount of DNA with high purity. Additionally, the extracted DNA showed reduced degradation and excellent overall quality, which can be used directly for downstream purposes such as PCR and sequencing.     

DNA extraction from bronchial aspirates for molecular cytology: which method to take?

OBJECTIVE: To date, there are only few systematic reports on the quality of DNA extracted from routine diagnostic cytologic specimens. It was the aim of the present study to evaluate the ability of 50% ethanol/2% carbowax (Saccomanno fixative) to preserve bronchial secretions with high quality genomic DNA as well as to compare different DNA extraction methods. METHODS: DNA was extracted from 45 bronchial aspirates by four different extraction protocols. Beside DNA yield, DNA quality with regard to purity, integrity, and PCR success rate were investigated. RESULTS: No fragmentation of sample DNA due to the fixative was detected. It was preserved as high molecular weight DNA. DNA yield, purity, and integrity were dependent on the DNA extraction method to some extend. Irrespective of the DNA extraction method the PCR success rate for amplification of beta-globin gene fragments (268, 536, and 989 bp) was 100%. CONCLUSION: A fixative containing 50% ethanol/2% carbowax preserves high quality DNA which is well suited for PCR-based assays regardless of the extraction protocol used. The selection of the DNA extraction protocol has to be adjusted to the circumstances of application.     

Extracting DNA from ‘jaws’: high yield and quality from archived tiger shark (Galeocerdo cuvier) skeletal material

Archived specimens are highly valuable sources of DNA for retrospective genetic/genomic analysis. However, often limited effort has been made to evaluate and optimize extraction methods, which may be crucial for downstream applications. Here, we assessed and optimized the usefulness of abundant archived skeletal material from sharks as a source of DNA for temporal genomic studies. Six different methods for DNA extraction, encompassing two different commercial kits and three different protocols, were applied to material, so‐called bio‐swarf, from contemporary and archived jaws and vertebrae of tiger sharks (Galeocerdo cuvier). Protocols were compared for DNA yield and quality using a qPCR approach. For jaw swarf, all methods provided relatively high DNA yield and quality, while large differences in yield between protocols were observed for vertebrae. Similar results were obtained from samples of white shark (Carcharodon carcharias). Application of the optimized methods to 38 museum and private angler trophy specimens dating back to 1912 yielded sufficient DNA for downstream genomic analysis for 68% of the samples. No clear relationships between age of samples, DNA quality and quantity were observed, likely reflecting different preparation and storage methods for the trophies. Trial sequencing of DNA capture genomic libraries using 20 000 baits revealed that a significant proportion of captured sequences were derived from tiger sharks. This study demonstrates that archived shark jaws and vertebrae are potential high‐yield sources of DNA for genomic‐scale analysis. It also highlights that even for similar tissue types, a careful evaluation of extraction protocols can vastly improve DNA yield.     

红豆杉属植物三种不同总DNA提取方法的分析比较

红豆杉属植物均为濒危物种,也是国家一级保护植物.以红豆杉属植物叶片为材料,利用三种不同的DNA提取方法提取总DNA,用分光光度计和琼脂糖凝胶电泳方法检测所得总DNA的得率和纯度,用PCR扩增的方法检测所得总DNA的质量,并对三种不同提取方法的结果进行了比较分析.结果表明:CTAB法提取的DNA纯度和得率均较高,可直接用...     

DNA isolation from soil samples for cloning in different hosts

Many protocols to extract DNA directly from soil samples have been developed in recent years. We employed two extraction methods which differed in the method of lysis and compared these methods with respect to yield, purity and degree of shearing. The main focus was on the specific isolation of DNA from different microorganisms, especially DNA from actinomycetes, as these cells are very difficult to lyse, in contrast to non-actinomycetes. Thus, we used both methods to isolate DNA from Pseudomonas, Arthrobacter and Rhodococcus and from soil spiked with the respective microorganisms. Both methods rendered high DNA yields with a low degree of shearing, but differed in the type of cells that were lysed. By one protocol (utilizing enzymatic lysis) only DNA from the Gram-negative Pseudomonas strain could be obtained whereas, by the other protocol (utilizing mechanical lysis), all microorganisms that were used could be lysed and DNA extracted from them. Using a combination of both protocols, DNA from those organisms could be obtained selectively. Furthermore, one of the protocols was modified, resulting in higher DNA yield and purity.     

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.     

用于微生物多样性分析的棉田土壤总DNA的提取

目的：探讨适用于微生物多样性研究的棉田土壤微生物总DNA提取方法。方法：采用4种方法提取不同连作和轮作处理的棉田土壤微生物总DNA,比较其纯度、产率、片段大小,并应用ARDRA技术验证其质量。结果：其中3种方法均可获得23kb的DNA片段,但不同方法提取的DNA的产率和纯度上有明显差异。改良CTAB-SDS法提取的DNA完整性好,得率为24.20μg.g-1干土,纯化后A260/A280和A260/A230为分别为1.80和1.70,纯化回收率可达70.1%,完全适用于后续的PCR分析。结论：采用该法提取棉田土壤总DNA简便而高效。对该法提取获得的棉田土壤微生物总DNA进行ARDRA和DGGE分析,所得图谱能较全面地反映不同处理间微生物多样性及群落结构的差别,为不同栽培体系下棉田土壤微生物的分子生态学研究提供了基础。     

Comparison of rapid DNA extraction methods applied to PCR identification of medicinal mushroom Ganoderma spp

Four different DNA extraction methods were used to extract genomic DNA of the medicinal mushroom Lingzhi from its developing stage materials, such as mycelium, dry fruiting body, or sliced and spore powder or sporoderm-broken spore powder. The DNA samples were analyzed using agarose gel electrophoresis, UV spectrophotometer, and PCR amplification. According to the average yields and purity of DNA, high salt concentrations and low pH methods were the best for DNA extraction. The mycelia and sporoderm-broken spore powder yielded higher and purer DNA. The method developed could effectively eliminate the influence of the secondary metabolites to DNA extraction. The DNA samples extracted from the developed method could be successfully used for PCR applications.     

康氏木霉基因组DNA提取方法的比较研究

采用3种常规DNA提取方法提取瑞氏木霉基因组DNA。结果表明:冷冻研磨CTAB法更适合此真菌DNA的提取,试剂盒提取的总DNA纯度和浓度也较高,但是价格昂贵,饱和酚抽提法提取的DNA浓度不高,且易有降解现象,不适合分子生物学操作的要求。     

Comparison of methods for total community DNA extraction and purification from compost

The differences on DNA yield and purity of three different DNA extraction protocols were compared with regard to the use for PCR and other molecular analyses. Total DNA was extracted from compost by the three protocols, and then was purified by spin-bind cartridges after being precipitated by PEG8000. The detection performed on a nucleic acid and protein analyzer showed that all three methods produced high DNA yields. The agarose gel electrophoresis showed that the fragments of crude and purified DNA had a length of about 23 kb. A eubacterial 16S rRNA gene-targeted primer pair was used for PCR amplification, and full length 16S rDNAs were amplified from all the purified DNA samples. After being digested by restriction endonucleases, the restriction map of amplified rDNA showed identical genetic diversity. The products of PCR using primer pair GC341F and 907R were also used for denaturing gradient gel electrophoresis analysis. The results indicated that high-quality DNA was extracted from compost by the three protocols, and each of the protocols is adapted to extract microbial genome DNA from compost expediently and cheaply.     

Characterizing restriction enzyme‐associated loci in historic ragweed (Ambrosia artemisiifolia) voucher specimens using custom‐designed RNA probes

Population genetic studies of nonmodel organisms frequently employ reduced representation library (RRL) methodologies, many of which rely on protocols in which genomic DNA is digested by one or more restriction enzymes. However, because high molecular weight DNA is recommended for these protocols, samples with degraded DNA are generally unsuitable for RRL methods. Given that ancient and historic specimens can provide key temporal perspectives to evolutionary questions, we explored how custom‐designed RNA probes could enrich for RRL loci (Restriction Enzyme‐Associated Loci baits, or REALbaits). Starting with genotyping‐by‐sequencing (GBS) data generated on modern common ragweed (Ambrosia artemisiifolia L.) specimens, we designed 20 000 RNA probes to target well‐characterized genomic loci in herbarium voucher specimens dating from 1835 to 1913. Compared to shotgun sequencing, we observed enrichment of the targeted loci at 19‐ to 151‐fold. Using our GBS capture pipeline on a data set of 38 herbarium samples, we discovered 22 813 SNPs, providing sufficient genomic resolution to distinguish geographic populations. For these samples, we found that dilution of REALbaits to 10% of their original concentration still yielded sufficient data for downstream analyses and that a sequencing depth of ~7m reads was sufficient to characterize most loci without wasting sequencing capacity. In addition, we observed that targeted loci had highly variable rates of success, which we primarily attribute to similarity between loci, a trait that ultimately interferes with unambiguous read mapping. Our findings can help researchers design capture experiments for RRL loci, thereby providing an efficient means to integrate samples with degraded DNA into existing RRL data sets.     

Trace DNA from insect skins: a comparison of five extraction protocols and direct PCR on chironomid pupal exuviae

Insect skins (exuviae) are of extracellular origin and shed during moulting. The skins do not contain cells or DNA themselves, but epithelial cells and other cell‐based structures might accidentally attach as they are shed. This source of trace DNA can be sufficient for PCR amplification and sequencing of target genes and aid in species identification through DNA barcoding or association of unknown life stages. Species identification is essential for biomonitoring programs, as species vary in sensitivities to environmental factors. However, it requires a DNA isolation protocol that optimizes the output of target DNA. Here, we compare the relative effectiveness of five different DNA extraction protocols and direct PCR in isolation of DNA from chironomid pupal exuviae. Chironomidae (Diptera) is a species‐rich group of aquatic macroinvertebrates widely distributed in freshwater environments and considered a valuable bioindicator of water quality. Genomic DNA was extracted from 61.2% of 570 sampled pupal exuviae. There were significant differences in the methods with regard to cost, handling time, DNA quantity, PCR success, sequence success and the ability to sequence target taxa. The NucleoSpin^® Tissue XS Kit, DNeasy^® Blood and Tissue kit, and QuickExtract^? DNA Extraction Solution provided the best results in isolating DNA from single pupal exuviae. Direct PCR and DTAB/CTAB methods gave poor results. While the observed differences in DNA isolation methods on trace DNA will be relevant to research that focuses on aquatic macroinvertebrate ecology, taxonomy and systematics, they should also be of interest for studies using environmental barcoding and metabarcoding of aquatic environments.     

Rapid and reliable high-throughput methods of DNA extraction for use in barcoding and molecular systematics of mushrooms

We present two methods for DNA extraction from fresh and dried mushrooms that are adaptable to high-throughput sequencing initiatives, such as DNA barcoding. Our results show that these protocols yield ∼85% sequencing success from recently collected materials. Tests with both recent (<2 year) and older (>100 years) specimens reveal that older collections have low success rates and may be an inefficient resource for populating a barcode database. However, our method of extracting DNA from herbarium samples using small amount of tissue is reliable and could be used for important historical specimens. The application of these protocols greatly reduces time, and therefore cost, of generating DNA sequences from mushrooms and other fungi vs. traditional extraction methods. The efficiency of these methods illustrates that standardization and streamlining of sample processing should be shifted from the laboratory to the field.     

海南产桶形芋螺线粒体基因组DNA提取条件的优化

提取海南产桶形芋螺线粒体基因组完整DNA (mtDNA),并对提取条件进行优化。以桶形芋螺腹足肌肉、毒腺和肝胰脏三个不同组织为材料,分别采用改进高盐沉淀法、细胞器/磁珠法和试剂盒提取三种方法,提取桶形芋螺mtDNA,并利用琼脂糖凝胶电泳和紫外分光光度计对提取mtDNA的纯度和浓度进行测定。以coxⅠ-rRNA小亚基基因和α-芋螺毒素基因设计引物,通过PCR反应来确证所提取的DNA确实是mtDNA。试剂盒法提取肝胰脏、高盐沉淀法提取肝胰脏和腹足肌肉组织这三种方法的产率很高,分别为44.4μg/mg、43.3μg/mg和32.6μg/mg。A260/280比值表明,改进高盐沉淀法提取毒腺和腹足肌肉组织,细胞器磁珠法提取腹足肌肉组织的mtDNA纯度很高。综合比较,采用改进高盐沉淀法,利用桶形芋螺腹足肌肉组织所提取的mtDNA产率高、质量好、纯度高。高质量芋螺mtDNA的获取为利用分子生物学方法对芋螺进行遗传进化分析和系统分类提供了基础。     

金藻基因组DNA的提取与PCR扩增

以金藻门群体和单细胞藻类的典型代表--球形棕囊藻和绿色巴夫藻为研究对象,对金藻基因组DNA的提取方法进行了深入研究,并以psbA基因的PCR扩增结果对4种DNA提取方法进行了检测.结果显示,PVP法和高盐法安全、快速、经济,获得的基因组DNA产量高,但DNA杂质含量也较高.CTAB法虽然也具有安全、快速等优势,但提取的DNA产量较低.玻璃粉法提取的DNA质量好,产量也较高,但操作略为烦琐,经济费用高.结论:就球形棕囊藻而言,玻璃粉法是4种方法中最好的DNA提取方法.就绿色巴夫藻而言,4种方法都行,但是从经济和方便考虑,以高盐法为最好.     

A strategy for optimizing quality and quantity of DNA extracted from soil

The efficiency of a bead beating method was studied in detail with regard to a variety of factors including beating time and speed, volume and temperature of the buffer, as well as amount and type of beads employed. The results presented here reveal that all of these parameters have a significant effect on yield and quality of DNA extracted from soils. Precise adjustment of extraction conditions allows for significantly higher yields of high quality DNA from soils than previously reported. We further evaluated the effect of the extraction conditions on the apparent soil microbial community structures, as observed by polymerase chain reaction (PCR) and RFLP. Differences in the fingerprints of DNA extracted under different conditions suggest that results could be biased when using gentle extraction procedures. Based on multiple subsequent extractions using very harsh extraction conditions, we propose a protocol for the quantification of the total DNA content in soils. Extractions from six soils of different texture and chemical characteristics with selected bead beating protocols revealed that the quality (fragment size and purity) of the extracted DNA was generally very good, but also depended on the soil characteristics. While a single, general protocol for optimal DNA recovery from all soils cannot be given, this study provides detailed guidelines on how to optimize the general method to obtain optimal DNA from individual soils.     

Comparison of Rapid DNA Extraction Methods Applied to PCR Identification of Medicinal Mushroom Ganoderma spp.

Abstract

Four different DNA extraction methods were used to extract genomic DNA of the medicinal mushroom Lingzhi from its developing stage materials, such as mycelium, dry fruiting body, or sliced and spore powder or sporoderm‐broken spore powder. The DNA samples were analyzed using agarose gel electrophoresis, UV spectrophotometer, and PCR amplification. According to the average yields and purity of DNA, high salt concentrations and low pH methods were the best for DNA extraction. The mycelia and sporoderm‐broken spore powder yielded higher and purer DNA. The method developed could effectively eliminate the influence of the secondary metabolites to DNA extraction. The DNA samples extracted from the developed method could be successfully used for PCR applications.     

A comparison of DNA extraction methods for high‐throughput DNA analyses

The inclusion of next‐generation sequencing technologies in population genetic and phylogenetic studies has elevated the need to balance time and cost of DNA extraction without compromising DNA quality. We tested eight extraction methods – ranging from low‐ to high‐throughput techniques – and eight phyla: Annelida, Arthropoda, Cnidaria, Chordata, Echinodermata, Mollusca, Ochrophyta and Porifera. We assessed DNA yield, purity, efficacy and cost of each method. Extraction efficacy was quantified using the proportion of successful polymerase chain reaction (PCR) amplification of two molecular markers for metazoans (mitochondrial COI and nuclear histone 3) and one for Ochrophyta (mitochondrial nad6) at four time points – 0.5, 1, 2 and 3 years following extraction. DNA yield and purity were quantified using NanoDrop absorbance ratios. Cost was estimated in terms of time and material expense. Results show differences in DNA yield, purity and PCR success between extraction methods and that performance also varied by taxon. The traditional time‐intensive, low‐throughput CTAB phenol–chloroform extraction performed well across taxa, but other methods also performed well and provide the opportunity to reduce time spent at the bench and increase throughput.