顽拗植物类群的总DNA制备

从富含多糖的顽拗植物类群提取与纯化DNA是许多研究领域例如居群生物学、生物多样性、分子标记辅助育种研究普遍遇到的难题.以西南桦( Betula alnoides )为例发展了一套改进的方案,有效地从这种顽拗植物的干叶和鲜叶中制备了DNA.此方案包括3个关键步骤:首先从植物细胞匀浆中用不含CTAB的缓冲液洗去大部分多糖和其他次生物质;在提取介质中采用3% CTAB而不是通常用的2% CTAB;将常用的高盐去糖的纯化操作提前到用异丙醇沉淀DNA之前进行.从西南桦提取的DNA已成功地用于RAPD-PCR扩增和限制性酶切.这个简单、经济和可靠的改进方案也适用于许多其他的顽拗植物类群.     

几种濒危植物及其近缘类群总DNA的提取与鉴定

用低ｐＨ 介质,高盐沉淀蛋白质方法成功地从银杉（Ｃａｔｈａｙａ ａｒｇｙｒｏｐｈｙｌｌａ Ｃｈｕｎ ｅｔＫｕａｎｇ）、矮牡丹（Ｐａｅｏｎｉａ ｓｕｆｆｒｕｔｉｃｏｓａ ｖａｒ． ｓｐｏｎｔａｎｅａ）、南川升麻（Ｃｉｍ ｉｃｉｆｕｇａ ｎａｎｃｈｕａｎｅｎｓｉｓＨｓｉａｏ）、裂叶沙参（Ａｄｅｎｏｐｈｏｒａ ｌｏｂｏｐｈｙｌｌａ）的同属种泡沙参（Ａ． ｐｏｔａｎｉｎｉｉ）等植物中提取和部分纯化了细胞总ＤＮＡ,并对其产率、质量和纯度作了鉴定。此方法的关键是用了一个低ｐＨ提取介质,它能有效防止组织破碎及沉淀大量材料时的电离化作用及酚化合物的进一步氧化。所得ＤＮＡ 不需经氯化铯梯度离心或柱层析,直接可用于限制性片断长度多态性（ＲＦＬＰ）及随机扩增的ＤＮＡ多态性（ＲＡＰＤ）等分子水平的遗传标记。为检测濒危植物的遗传多样性提供了一套迅速、简便和可靠的技术方案     

顽拗植物龙眼基因组DNA提取方法的研究

为从顽拗植物龙眼(Dimocarpus longan Lour.)叶片中获得可供后续分子生物学操作的基因组DNA．针对其组织细胞内富含多酚、多糖、单宁及色素等物质的特点,采用改进的CTAB法和SDS法,即在核裂解之前先破碎细胞．将存在于细胞质中的次生物质去除后再裂解细胞桉．结合其它一些改进措施．提取到的DNA沉淀呈纯白色．极易溶解于TE中。两种改进方法的OD260和OD280比值分别达到1.82和1．73,其鲜叶基因组DNA产量分别为103ug/g和127ug／g：RAPD扩增条带清晰,丰富．完全满足后续分子生物学操作的要求,其中改良CTAB方法效果更为理想,与之埘比．传统的CTAB法和SDS法提取到的DNA沉淀呈浅黄色甚至红褐色,很难被TE溶解,其OD260和OD280比值均低于1．5,也得不到扩增产物。     

一种简便的DNA定量分子量标准的制备

目的：制备一种具有琼脂糖凝胶电泳定量功能的DNA分子量标准。方法：以pMD18-TSimple载体为基础骨架构建了长度为4.7kb的质粒,应用定点突变的方法,在载体上分别间隔100bp、200bp、400bp、800bp、1200bp处,加入了HindⅢ限制性内切酶的酶切位点,将该质粒扩增后并应用HindⅢ酶切后,1.5%琼脂糖凝胶电泳鉴定。结果：获得的分子量条带大小依次为100bp、200bp、400bp、800bp、1200bp和2000bp,每次使用4μl可获得质量范围为10ng、20ng、40ng、80ng、120ng和200ng的定量标准品。结论：应用该方法制备标准品,具有制备简单、成本低、定量快速等优点。     

叶绿体DNA的限制性内切酶谱分析在植物系统分类学中的应用

业已证明,叶绿体DNA为一共轭闭合环状分子。绝大多数植物叶绿体DNA均含有一对反向重复序列。对于所有已检测过的植物,叶绿体基因组所编码的基因数量、基因组成和基因排列是基本一致的。这表明叶绿体DNA具有进化上的保守性。由于其进化上的保守性,叶绿体DNA常为研究层次较高的分类单位间(属间、科间、目间、纲间等)进化关系和进化历史提供较准确的信息。1976年,Vedel等首先建立了叶绿体DNA的内切酶谱分析方法,并将其应用于植物系统分类学中。Vedel等用限制酶ECoRI酶切从豌豆     

蔓茎堇菜基因组DNA 3种提取方法的比较研究

以SDS作为解离剂,采用常规SDS法、改进的SDS法及SDS高盐低pH法分离提取蔓茎堇菜基因组DNA.比较3种方法的提取效果,结果表明：常规SDS法DNA得率高但完整性及纯度较差;改进的SDS法DNA质量好但得率相对较低;只有SDS高盐低pH法是最为理想的提取方法,不同组织提取的DNA相对分子质量均大于48 kb,260 nm/280 nm光密度比值在1.7～1.9之间,产率为479.0～543.9μg/g,所得DNA可直接用于限制性内切酶酶切,并适于进行RAPD分析.     

从普通野生稻硅胶干燥的小量叶片中制备DNA用于RAPD分析和总DNA库的 …

普通野生稻的基因资源对水稻的育种起着至关重要的作用。报道了从其硅胶干燥的小量叶片中制备ＤＮＡ的方法。用此方法制备的ＤＮＡ分子量大（４０－４５ｋｂ）,产率也较高（５０－２００μｇ／ｇ）,且成功地进行了ＲＡＰＤ扩增。用制备的４４个居群,１１６８个个体的总ＤＮＡ建立了中国普通生稻的总ＤＮＡ库作长期冷冻保存,可用基于ＰＣＲ的ＤＮＡ水平上的各种目的的研究。根据实验结果,从在室温下贮存１周、３个月、６个月、１     

DNA分子量标准制备技术：方法与进展

DNA分子量标准是一组分子量大小已知的DNA片段混合物,用于指示核酸电泳中未知样品的分子量大小,从而帮助实验人员判断DNA样品的性质。因而DNA分子量标准成为目前分子生物学和基因工程领域不可或缺的一种电泳耗材。综述了目前各种DNA分子量标准产品的制备方法和技术原理及近年来该领域的一些技术进展情况。     

鲤鱼肝组织线粒体DNA的限制性内切酶分析

用EcoRⅠI,HindⅢ,PstⅠ,BglⅡ,BamHⅠ,Xho Ⅰ, Xba Ⅰ, Sal Ⅰ和Kpn Ⅰ共9种限制性内切酶酶切对鲤鱼肝组织的mtDNA进行酶解,利用Gel-Pro Analyzer算出各酶切片段长度及mtDNA大小,测出其大小约为16．61kb(1kb=1×103b),另外,对电泳条件的优化进行了探讨,并将实骚结果与以前报道的有关酶切实验结果进行了比较,表明鲤鱼mtDNA的长度及限制性酶切位点均存在地域差异．     

顽拗植物澳洲坚果成熟叶片DNA提取方法比较

目的:针对澳洲坚果成熟叶片中富含多糖、多酚等杂质的特点,建立澳洲坚果成熟叶片中提取高质量 DNA 的方法.方法:采用改良CTAB法和改良SDS法提取澳洲坚果样品的总DNA,并对产物进行紫外、电泳及PCR扩增检测.结果:改良CrAB法的平均产率为13.6μg/g,略低于改良SDS法18.5μg/g,但改良CTAB法可有效去除多糖等杂质,获得的基因组DNA质量高.OD260/OD280均在1.7～1.9之间.进行ISSR扩增可获得清晰、多态性好的条带.结论:改良CrAB法较之改良SDS法更适合于从澳洲坚果成熟叶片中提取高质量DNA.     

Preparation of DNA from Silica Gel Dried Mini-amount of Leaves of Oryza rufipogon for RAPD Study and Total DNA Bank Construction

Gene resources of Oryza rufipogon Griff. play a crucial role in rice breeding, and hence to study their conservation is of utter importance. The authors describe a method for preparation of DNA from mini- amotmt of the silica-gel-dried leaves of Oryza rufipogon. The high molecular weight DNAs of 1 168 individuals representing 44 populations have been obtained with high yields, which could be used for RAPD PCR and construction of total DNA bank of this species. The template DNA from silica-gel-dried leaves stored for one year at room temperature gave the same RAPD results as that from the newly prepared silica-gel-dried leaves. The optional template DNA concentrations for amplification ranged from 3.1 ng to 50 ng. In addition, the quality and quantity of the template DNAs that affect RAPD results are also discussed.     

Plant DNA from alcohol-preserved samples

A process to isolate DNA from alcohol-preserved plant tissue is described. Key features are simple, inexpensive sample preservation, fast tissue disruption, and no organic solvents.     

Isolation and Characterization of Total DNA from Several Endangered Species and Their Allies

A low pH extraction medium with high salts, which avoids ionization and subsequent oxidation of phenolic compounds during tissue grinding and precipitation of large amounts of materials, were successfully used to obtain total DNA from Cathaya argyrophylla Chun et Kuang, Paeonia suffruticosa var. spontanea, Cimici fuga nanchuanensis Hsiao, Adenophora potaninii (Congeneric species with A. lobophylla) etc. The DNA yields, quality and purity were characterized. These isolated DNA could be used directly for RFLP and RAPD analysis which are useful as molecular genetic markers without sedimentation in cesium chloride gradient or column chromatography. A fast, inexpensive and reliable procedure has been developed for detecting the genetic diversity of endangered plants.     

植物特异性DNA探针的制备与应用研究进展

本文简述了植物特异性DNA探针的种类,介绍了特异性探针的制备方法,主要是特异性DNA序列的分离与筛选,总结了植物特异性DNA探针在种质鉴定、外源染色体识别、核型分析和基因组研究等方面的应用,提出了存在的问题与应用前景。 Abstract:In this paper,the types of specific DNA probes from plant were briefly described,and some methods of constructing specific probes were introduced,mainly were the isolation and screening of specific DNA sequences.The applications of the specific probes in the germplasm and foreign chromosome identifications,the karyotype and genome analyses were also summarized and discussed.     

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.     

野老鹳草DNA的提取方法及RAPD分析

目的：以野老鹳草（Geranium carolinianum L．）的茎、叶为材料,研究野老鹳草DNA的提取方法及RAPD的分析。方法：采用CATB法、高盐低pH法和SDS法分别提取野老鹳草的基因纽DNA,并对3种方法进行了一些改进。通过RAPD分析所提取的DNA,比较所用的提取方法。结果：比较DNA产量、质量等,确定了高盐低pH法较佳。结论：干燥的材料和新鲜的材料均可提取得到DNA,高盐低pH法提取的效果优于CTAB和SDS法。     

Use of DNA from dry leaves for PCR and RAPD analysis

Fresh or frozen tissue is usually used as a source of DNA for PCR and RAPD analysis. We have found that leaves can be allowed to dry at room temperature before extraction of DNA. Heating the leaves or microwave drying resulted in poor recovery of DNA. Storage of fresh leaves in paper envelopes in the laboratory was the most successful approach. This allowed the tissue to dry out over a period of several days and DNA could be extracted at any time, providing a convenient method for the collection and analysis of field material. DNA from leaves stored for four months at room temperature was suitable for PCR analysis.     

A simple and efficient method for DNA extraction from grapevine cultivars andVitis species

A quick, simple, and reliable method for the extraction of DNA from grapevine species, hybrids, andAmpelopsis brevipedunculata (Vitaceae) has been developed. This method, based on that of Doyle and Doyle (1990), is a CTBA-based extraction procedure modified by the use of NaCl to remove polysaccharides and PVP to eliminate polyphenols during DNA purification. The method has also been used successfully for extraction of total DNA from other fruit species such as apple (Malus domestica), apricot (Prunus armeniaca), cherry (Prunus avium), peach (Prunus persica), plum (Prunus domestica), and raspberry (Rubus idaeus). DNA yield from this procedure is high (up to 1 mg/g of leaf tissue). DNA is completely digestible with restriction endonucleases and amplifiable in the polymerase chain reaction (PCR), indicating freedom from common contaminating compounds.