Rapid isolation of high-quality total RNA from taxus and ginkgo

An easy and efficient protocol was developed for isolating good-quality total RNA from various tissues including fruits, leaves, stems, and roots of ancient gymnosperm species, taxus and ginkgo. The protocol was developed based on the CTAB method with modifications, including higher-strength CTAB to help the lysis of plant cells, more PVP, and beta-mercaptoethanol to prevent oxidation of phenolic complexes, and higher-centrifugation force to get rid of most cell debris and to ensure RNA quality. In RNA isolation, chloroform/isoamyl alcohol was used to remove proteins, genomic DNA, and secondary metabolites and lithium chloride was subsequently adopted to concentrate total RNA away from most of the cytoplasmic components. Good-quality total RNA from various tissues of native taxus and ginkgo could be easily isolated within 24 hr by this protocol which avoided the limitation of plant materials and the usage of dangerous chemicals, such as phenol, and could provide total RNA for all kinds of further molecular studies.     

DNA isolation protocol for the medicinal plant lemon balm (Melissa officinalis, Lamiaceae)

Lemon balm (Melissa officinalis) is a medicinal plant that is widely used as a sedative or calmant, spasmolytic and antibacterial agent and sleep aid. This has led to a high demand for lemon balm products, resulting in the extinction of this species in some of its natural habitats. Molecular techniques have increasingly been used in plant diversity conservation and isolation of PCR amplifiable genomic DNA is an important pre-requisite. Lemon balm contains high levels of polyphenols and polysaccharides, which pose a major challenge for the isolation of high-quality DNA. We compared different genomic DNA extraction protocols, including traditional phenol-chloroform DNA extraction protocols and two commercial kits for DNA purification for their ability to produce good-quality DNA from fresh leaves of five lemon balm genotypes. Quality and quantity of the DNA samples were determined using 0.8% agarose gel electrophoresis and a spectrophotometer. The DNA purity was further confirmed by PCR amplification using barley retrotransposon LTR base primers. The spectral quality of DNA as measured by the A(260)/A(280) ratio ranged from 1.46 to 2.37. The Fermentase genomic DNA purification kit and the CTAB extraction protocol using PVP and ammonium acetate to overcome the high levels of polyphenols and polysaccharides yielded high-quality DNA with a mean A(260)/A(280) ratio of 1.87. The quantity of DNA and its PCR purity were similar with all the protocols, but considering the time and cost required for extraction of DNA from a large number of samples, the CTAB protocol using PVP and ammonium acetate is suitable for lemon balm.     

Extraction of genomic DNA from the lipid-, polysaccharide-, and polyphenol-rich coconut (Cocos nucifera L.)

One prerequisite to reliable molecular biology work is that the genomic DNA of a sample be of good quality. Coconut is quite difficult to work on because of the high lipid and polysaccharide content of its endosperm and the high polyphenol content of its leaves. This study aimed to determine which protocol to use and which part of the coconut tree is most appropriate to extract good-quality genomic DNA. Genomic DNA from the solid endosperm was found to be of poor quality because of high levels of lipid and galactomannan contaminants. By using a modified protocol by Cheung et al. (1993) as modified by Rogers et al. (1996) and by Dellaporta et al. (1983) as modified by Datta et al. (1997), genomic DNA extracted from the young leaves of the first emergent frond provided enzyme-digestible, good-quality DNA. The modification involved the use of a higher salt concentration (2 M instead of 0.5 M) in the extraction buffer and the use of polyvinylpolypyrrolidone. Moreover, this modified protocol did not involve the use of organic solvents.     

An improved method to extract DNA from mango Mangifera indica

High quality genomic DNA is the first step in the development of DNA-based markers for fingerprinting and genetic diversity of crops, including mango (Mangifera indica L.), a woody perennial. Poor quality genomic DNA hinders the successful application of analytical DNA-based tools. Standard protocols for DNA extraction are not suitable for mango since the extracted genomic DNA often contains secondary metabolites that interfere with analytical applications. In this study, we employed an additional step to remove polysaccharides, polyphenols and secondary metabolites from genomic DNA extracted from young or mature leaf tissue; then a modified traditional cetyl trimethyl ammonium bromide (CTAB) method was applied. The use of 0.4 M glucose improved DNA quality and avoided contamination and browning by polyphenolics, relative to the traditional CTAB method. This is an easy and efficient method for genomic DNA extraction from both young and mature leaves of mango. The isolated DNA was free of polysaccharides, polyphenols, RNA and other major contaminants, as judged by its clear colour, its viscosity, A²⁶⁰/A²⁸⁰ ratio and suitability for PCR-based reactions. This modified protocol was also used to extract high quality genomic DNA from other woody perennials, including walnut, guava, lychee, pear, grape and sugarcane.     

Rapid and high quality DNA isolation from Origanum onites for RAPD and ISSR analysis

Origanum onites is an economically important medicinal plant with high essential oil content. Lack of an appropriate DNA isolation procedure is a limiting factor for any molecular study of this plant. We have used a protocol for genomic DNA isolation based on a hexadecyltrimethylammonium bromide (CTAB) method described for other plant species. The method involves mortar grinding of leaf tissue, modified CTAB extraction using high salt concentrations and polyvinyl pyrrolidone, and successive isoamyl alcohol/chloroform extractions. The yield was approx. 20 microg DNA per 200 mg of initial fresh plant material. The genomic DNA obtained by this method was suitable to be used in restriction digests, inter simple sequence repeat (ISSR) and randomly amplified polymorphic DNA (RAPD) reactions. This extraction method should facilitate the molecular analysis of Origanum chemotypes.     

DNA extraction from bristles and quills of Chaetomys subspinosus (Rodentia: Erethizontidae) using a novel protocol

DNA extraction protocols are as varied as DNA sources. When it comes to endangered species, it is especially important to pay attention to all details that ensure the completion of the study goals and effectiveness in attaining useful data for conservation. Chaetomys subspinosus (Rodentia: Erethizontidae) is a secretive arboreal porcupine endemic to certain ecosystems of the Brazilian Atlantic Forest. A multidisciplinary study (including genetic data) was performed to create a management plan for the conservation of this species. Individuals from natural populations of the states of Bahia, Espírito Santo and Sergipe were sampled. To obtain a reliable and abundant amount of starting material, non-destructive methods were tested, extracting DNA from the bristles and quills that comprise most of this animal's hide. This method has also been innovative in adapting a DNA extraction protocol traditionally used for plants. Digestion using proteinase K was followed by protein precipitation with CTAB, a chloroform-isoamyl alcohol cleaning and DNA precipitation with isopropyl alcohol. This protocol supplies good-quality DNA for genetic analysis with molecular markers based on PCR.     

A rapid and efficient method for purifying high quality total RNA from peaches (Prunus persica) for functional genomics analyses

Prunus persica has been proposed as a genomic model for deciduous trees and the Rosaceae family. Optimized protocols for RNA isolation are necessary to further advance studies in this model species such that functional genomics analyses may be performed. Here we present an optimized protocol to rapidly and efficiently purify high quality total RNA from peach fruits (Prunus persica). Isolating high-quality RNA from fruit tissue is often difficult due to large quantities of polysaccharides and polyphenolic compounds that accumulate in this tissue and co-purify with the RNA. Here we demonstrate that a modified version of the method used to isolate RNA from pine trees and the woody plant Cinnamomun tenuipilum is ideal for isolating high quality RNA from the fruits of Prunus persica. This RNA may be used for many functional genomic based experiments such as RT-PCR and the construction of large-insert cDNA libraries.     

改良CTAB法用于多年生植物组织基因组DNA的大量提取*

根据多年生植物组织富含多酚、多糖的具体特性,对现有的DNA提取方法进行了改进。通过增加提取缓冲液中b-巯基乙醇用量,简化氯仿/异戊醇抽提液步骤,改用经-20℃预冷异丙醇沉淀DNA等,对CTAB法加以改进。改进后方法具有以下优点：（1）获得的DNA质量良好,提取过程无明显的DNA降解,基本上排除了多酚物质的干扰;（2）用获得的DNA进行Southern杂交,可得到理想的杂交信号,可满足相关的分子研究要求;（3）操作简便。Abstract It is a difficult problem to isolate high quality DNA from plants containing a high contents of polyphenolics and polysaccharose, such as Actinidia plant. The protocol described in this paper is a modified CTAB (hexadecyltrimethylammonium bromide) method. High quality genomic DNA can be isolated from Actinidia plant using the improved method. The DNA is good enough for Southern blot and other uses in DNA research. The protocol is also efficient for quick and macro-DNA extraction.     

鳞翅目成虫乙醇保存标本基因组DNA的提取及在微卫星研究中的应用

高质量的基因组DNA样品是分子生态学研究的先决条件。本研究目的在于探索从东方粘虫Pseudaletia separata (Walker)成虫自然种群的乙醇保存标本中分离高质量基因组DNA的有效方案。在2 mL微型离心管中进行4种提取方案的实验比较,结果发现采用传统的苯酚抽提方法的2种方案提取腹部中段组织的基因组DNA,样品合格率只有7.69%~40%。但是,如果在苯酚抽提以前加入高浓度盐和十六烷基三甲基溴化铵（CTAB）,就会使DNA样品合格率达到68.42%~95.28%,而且DNA平均产量达到5.59~10.04 mg/g,明显高于前者的2.83~5.78 mg/g （统计检验表明,在不同种群中差异显著或不显著）。研究结果还证明腹部组织比胸部组织更适宜提取DNA。对来自一个自然种群的99头东方粘虫DNA合格样品的统计分析表明,DNA提取总量（μg）与组织样品用量（mg）之间存在弱的正相关关系,平均DNA提取量（mg/g）与组织样品用量（mg）之间存在中度负相关关系。总之,在2 mL微型离心管中,用10~20 mg腹部组织,利用CTAB+苯酚抽提方法可以获得高纯度和高含量的基因组DNA样品。用该方案提取的基因组DNA能够顺利地进行微卫星位点的分离和基因分型。     

Extraction of High Quality DNA from Seized Moroccan Cannabis Resin (Hashish)

The extraction and purification of nucleic acids is the first step in most molecular biology analysis techniques. The objective of this work is to obtain highly purified nucleic acids derived from Cannabis sativa resin seizure in order to conduct a DNA typing method for the individualization of cannabis resin samples. To obtain highly purified nucleic acids from cannabis resin (Hashish) free from contaminants that cause inhibition of PCR reaction, we have tested two protocols: the CTAB protocol of Wagner and a CTAB protocol described by Somma (2004) adapted for difficult matrix. We obtained high quality genomic DNA from 8 cannabis resin seizures using the adapted protocol. DNA extracted by the Wagner CTAB protocol failed to give polymerase chain reaction (PCR) amplification of tetrahydrocannabinolic acid (THCA) synthase coding gene. However, the extracted DNA by the second protocol permits amplification of THCA synthase coding gene using different sets of primers as assessed by PCR. We describe here for the first time the possibility of DNA extraction from (Hashish) resin derived from Cannabis sativa. This allows the use of DNA molecular tests under special forensic circumstances.     

An effective protocol to solve the problem in genomic DNA isolation of tung tree

Tung tree (Vernicia fordii) is a native and oil-producing woody plant in China. The oil is industrially important and promising biodiesel raw material. However, until recently the lack of effective protocols for the extraction of genomic DNA had made DNA-based molecular studies of tung tree difficult. Here, four conventional protocols and one novel protocol were compared for their capacity in isolating DNA from tung tree leaves of different age. Our results showed that all the four conventional protocols could isolate DNA from old leaves, two from matured leaves, but none from young leaves. However, the detectable DNA samples contained many contaminations, leading to overestimation of DNA concentration measured by ultraviolet spectrophotometer, also interfering with the downstream PCR reaction. The novel protocol could produce high-yield and good-quality DNA from tung tree leaves regardless of leaf age. Its key steps were that a single leaf tissue sample could be recycled for DNA extraction for up to four times, and correspondingly four DNA precipitations (termed as the 1st, 2nd, 3rd and 4th DNA sample, respectively) were conducted. All the four DNA samples of a single tissue were good template for PCR reaction. The novel protocol is an effective method for genomic DNA isolation of tung tree.     

A simplified protocol for preparing DNA from filamentous cyanobacteria

The preparation of good quality genomic DNA from microalgae and plants is often time-consuming because of the need to remove contaminants that may interfere with the downstream enzymatic manipulation of the DNA. Simpler protocols have been reported but these are applicable only to a few species and in many cases are not effective for removing trace contaminants. In this report, we describe a modification of existing protocols that significantly simplified the preparation of genomic DNA from cyanobacteria and plants. A key step in our protocol is the precipitation of DNA in a high concentration of salt (2–2.5 M NaCl) in the presence of isopropanol, immediately following phenol and chloroform extractions. The preparation and enzymatic digestion of the DNA can be performed in a single day. The DNA was easily digested in 2 h at normal restriction enzyme concentrations, and is highly suitable for PCR and Southern hybridization. We successfully used this simplified protocol to prepare genomic DNA from several filamentous cyanobacteria, such asAnabaena sp. PCC 7120,Anabaena siamensis, andSpirulina strains M2 and Kenya. This protocol may also be useful for preparing genomic DNA from other algae and from higher plants.     

Isolation of Pinus radiata Genomic DNA Suitable for RAPD Analysis

A protocol is presented for Pinus radiata genomic DNA isolation based on an alkyltrimethyl-ammonium bromide (CTAB) method described for other woody species. The method involves mortar grinding of tissue, a modified CTAB extraction employing high salt concentrations and polyvinyl pyrrolidone, a RNase A treatment and successive isoamyl alco- hol-chloroform extractions. The yield was approximately 15 g DNA per 100 mg of initial fresh plant material. The genomic DNA obtained by this method was suitable to be used in simple sequence repeat and random-amplified-polymorphic DNA reactions. This extraction method would allow the molecular analysis of shoots from different clones within P. radiata families.     

A simple protocol for isolating genomic DNA from chestnut rose (<Emphasis Type="Italic">Rosa roxburghii</Emphasis> tratt) for RFLP and PCR analyses

Isolation of high-quality DNA from rosaceous species is particularly difficult because of their high levels of polyphenols, polysaccharides, and other compounds. The yields and quality of genomic DNA are considerably affected when the common protocol for DNA isolation is applied to the chestnut rose (Rosa roxburghii Tratt). A simple, rapid, and efficient protocol for the extraction of DNA from the chestnut rose is described. The modified hexadecyltrimethylammonium bromide (CTAB) procedure, which uses phenol-absent extraction to enhance the yield, involves a washing step before extraction for the removal of organic molecules and excessive water; the use of high concentrations of polyvinylpyrrolidone (2% [w/v]), CTAB (3% [w/v]), and β-mercaptoethanol (3% [v/v]) in the high-salt-concentration extraction buffer to remove polyphenols and polysaccharides; and the combined use of potassium acetate and chloroform to remove proteins and polysaccharides. Finally, DNA is precipitated with an equal volume of isopropanol and 0.1 vol of sodium acetate. This protocol results in high yields of DNA. The average yield of DNA ranged from 980–1800 μg/g of fresh weight of leaves. Downstream results indicate that DNA quality is sufficient for restriction fragment length polymorphism (RFLP) and polymerase chain reaction (PCR) analyses.     

A Rapid and effective method for RNA extraction from different tissues of grapevine and other woody plants

Introduction –  RNA quality and integrity are critical for many studies in plant molecular biology. High‐quality RNA extraction from grapevine and other woody plants is problematic due to the presence of polysaccharides, polyphenolics and other compounds that bind or co‐precipitate with the RNA. Objective  – To develop an optimised cetyltrimethylammonium bromide (CTAB)‐based protocol, to reduce the time and cost of extraction without reducing quality and yield of RNA extracted from polysaccharide‐rich tissues of several plants. Methodology  – Several changes were introduced to the original CTAB protocol. All centrifugation steps were carried out at 4°C, the sample weight was decreased and the concentrations of PVP‐40 and LiCl were increased reducing incubation time prior to RNA precipitation. This rapid CTAB protocol was compared with six different RNA extraction methods from three grapevine tissues, namely, in vitro plantlets, and leaves and mature canes from actively growing field vines. Results –  The rapid CTAB method gave high‐quality RNA in only 3 h at low cost with efficiency equal to or higher than that obtained with other time‐consuming and expensive protocols. The procedure was applied to RNA extraction from other grapevine tissues and other woody species including olive, lemon, poplar, chestnut, apple, pear, peach, cherry, apricot, plum and kiwi fruit. RNA of high quality could be isolated from all tissues and from all species. Conclusion –  The study has shown that the improvement of a CTAB‐based protocol allows the rapid isolation of high‐quality RNA from grapevine and many woody species. Copyright © 2008 John Wiley & Sons, Ltd.     

Isolation of Sperm Vesicles from Adult Male Mayflies and Other Insects to Prepare High Molecular Weight Genomic DNA Samples

We describe here a simple and efficient protocol for genomic DNA isolation from adult males of insects: e.g., Ephemeroptera, Odonata, Orthoptera and Dictyoptera. To minimize contamination of external DNA source, the sperm vesicles were isolated from male individuals from which high molecular weight genomic DNA was extracted. According to this protocol, the genomic DNA samples obtained were high quality (intact), and abundant enough for genotyping analyses and molecular cloning. The protocol reported here enables us to process a huge number of individuals at a time with escaping from cross-contamination, and thus it is quite useful for conducting genetic studies at least in some species of insects. The large yield of high molecular weight DNA from single individual may be advantageous for non PCR-based experiments. As a case study of the protocol, partial coding sequences of histone H3 and EF-1α genes are determined for some insects with PCR-amplified DNA fragments.     

Modified low‐salt CTAB extraction of high‐quality DNA from contaminant‐rich tissues

The increasing use of high‐throughput sequencing platforms has made the isolation of pure, high molecular weight DNA a primary concern for studies of a diverse range of organisms. Purification of DNA remains a significant challenge in many tissue and sample types due to various organic and inorganic molecules that coprecipitate with nucleic acids. Molluscs, for example, contain high concentrations of polysaccharides which often coprecipitate with DNA and can inhibit downstream enzymatic reactions. We modified a low‐salt CTAB (MoLSC) extraction protocol to accommodate contaminant‐rich animal tissues and compared this method to a standard CTAB extraction protocol and two commercially available animal tissue DNA extraction kits using oyster adductor muscle. Comparisons of purity and molecular integrity showed that our in‐house protocol yielded genomic DNA generally free of contaminants and shearing, whereas the traditional CTAB method and some of the commercial kits yielded DNA unsuitable for some applications of massively parallel sequencing. Our open‐source MoLSC protocol provides a cost‐effective, scalable, alternative DNA extraction method that can be easily optimized and adapted for sequencing applications in other contaminant‐rich samples.     

蚧虫基因组DNA不同提取方法的比较

实验以日本龟蜡蚧CeroplastesjaponicusGreen,白蜡绵粉蚧PhenacoccusfraxinusTang ,朝鲜球蚧DidesmococcuskoreanusBorchseniush和瘤大球坚蚧EulecaniumgiganteaShinji等 4种蚧虫为材料 ,分别用十二烷基硫酸钠 (SDS)法、十六烷基三乙基溴化铵 (CTAB)法、醋酸钾 (KAc)法和氯化钠 (NaCl)法等 4种方法 ,对单只蚧虫进行基因组DNA提取 ,用 0 8%琼脂糖凝胶电泳检测所提DNA。结果表明 ,4种方法都可以提取到基因组DNA ,但是比较而言 ,CTAB法和NaCl法所提取的DNA质量明显优于SDS法和KAc法 ,并适用于PCR。因此认为 ,CTAB法和NaCl法是实验室提取单只蚧虫基因组DNA更有效而实用的方法。     

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.