直接从人工老化的菜心干种子中提取基因组DNA用于RAPD分析

利用 4 0℃、1 0 0 %RH对菜心种子进行人工加速老化处理获得了不同活力的种子批 ,利用平衡酚_氯仿法直接从人工老化的菜心干种子中提取基因组DNA ,并对提取的基因组DNA进行了RAPD扩增。结果表明 ,所提取的基因组DNA量多 ,而且比较整齐一致。引物S2 0 8扩增所获得的基因组DNA指纹图谱上的DNA带清晰、明亮 ,从而表明利用本方法从人工老化菜心干种子中直接提取的基因组DNA完全可以用于RAPD分析。     

直接从人工老化的菜心干种子中提取基因组DNA用于RAPD分析

利用40℃、100％朋对菜心种子进行人工加速老化处理获得了不同活力的种子批,利用平衡酚-氯仿法直接从人工老化的菜心干种子中提取基因组DNA,并对提取的基因组DNA进行了趾PD扩增。结果表明,所提取的基因组DNA量多,而且比较整齐一致。引物S208扩增所获得的基因组DNA指纹图谱上的DNA带清晰、明亮,从而表明利用本方法从人工老化菜心干种子中直接提取的基因组DNA完全可以用于RAPD分析。     

RAPD分析用白花丹参叶片DNA的提取方法

本研究采用改良CTAB法和SDS法提取新鲜白花丹参叶片的基因组DNA,初步筛选RAPD扩增引物。结果表明改良CTAB法提取的DNA较SDS法质量好,随机引物p2扩增条带相对较为清晰。再利用p2随机引物对2种方法提取的DNA进行RAPD检测比较,结果显示仅改良CTAB法能扩增出有效条带,说明改良CTAB法更适合用于白花丹参基因组DNA的RAPD检测分析。本文将为白花丹参叶片DNA的提取提供方法学参考。     

白鲢和鳙鱼的随机扩增多态DNA分析

根据鱼类外周血细胞都有核的特点,采用从冷冻和低渗双重处理分离的细胞核提取基因组DNA.以此法获得的白鲢和鳙鱼的基因组DNA为模板,和Operon公司生产的OPN和OPM两个组共40个随机引物,对这两种鱼进行了随机扩增多态DNA(RAPD)分析;确定了对这两种鱼基因组相关区域可进行随机PCR扩增的有效引物,特别是哪些可产生种群内或群体的RAPD遗传标记,即可产生个体特异性和群体特异性RAPD带谱的引物.讨论了RAPD遗传分子标记在鱼类遗传,特别是遗传多样性研究,和鱼类种质资源评估和管理中的应用前景问题.     

缢蛏基因组DNA的提取及其效果分析

应用酚/氯仿抽提法提取缢蛏基因组DNA,并以所提取的基因组DNA为材料进行酶切反应及RAPD分析。结果显示,用酚/仿提取法提取的缢蛏基因组DNA质量高、稳定性好,酶切效果明显,RAPD扩增条带清晰,能满足DNA的酶切、PCR和RAPD等分子生物学实验对于模板DNA质量高的要求。     

一种提取麦红吸浆虫基因组DNA的方法

介绍一种可从单头麦红吸浆虫Sitodiplosis mosellana(Gehin)成虫、幼虫和蛹成功地提取基因组DNA的方法。经检测提取DNA样品浓度为100～200ng/μL,纯度在1.4～1.6范围之间,以此为模板,可顺利地进行RAPD引物扩增。该提取方法简单、安全、经济,可为小型昆虫基因组DNA的提取提供参考。     

适合于胞质基因组扩增的红麻成熟叶片DNA提取改良方法

为了从成熟红麻叶片中提取高质量、高产量的基因组DNA,针对红麻成熟叶片中多糖、多酚含量较高的特性,利用改良CTAB法及改良SDS法分别提取红麻品种福红952成熟叶基因组DNA,并通过琼脂糖凝胶电泳和紫外分光光度计测定进行DNA质量检测。结果表明:改良CTAB法提取的基因组DNA电泳时点样孔干净,条带整齐无拖带,OD260/OD280为1.9左右,产率可达1.84μg/g,其质量、产量都高于改良SDS法,所提取的DNA可用于红麻RAPD分子标记、线粒体DNA、叶绿体DNA通用引物PCR扩增。改良CTAB法是提取成熟红麻叶片DNA的有效方法,并且可用于红麻分子标记及胞质基因组学研究。     

应用RAPD分子标记技术探讨3种石斛属植物的种间关系

采用RAPD分子标记技术,分析了金钗石斛、铁皮石斛和齿瓣石斛三种石斛属植物的种间关系。10个引物产生的113条DNA扩增片段中,106条（93.81%）具有多态性,利用113个RAPD标记,计算遗传距离,利用非加权组平均法建立聚类图。结果表明,RAPD标记技术较好地从分子水平揭示金钗石斛、铁皮石斛和齿瓣石斛三种石斛属植物的遗传背景、亲缘关系,并为后期在DNA水平上对药用石斛的开发利用提供资料。     

杜鹃属基因组DNA提取及RAPD的检定

以杜鹃花属常绿杜鹃亚属井冈山杜鹃树叶为材料,分别采用修改的CTAB法、碱裂解法、SDS法提取基因组DNA。实验表明,三种方法所提的DNA纯度及产率有差别,从综合结果看,以CTAB法最好,其所提到的DNA大小与λDNA（21kb）相似,经检验该法适合杜鹃花属植物总基因组DNA的提取,所得DNA不需纯化就可直接用于RAPD分析。     

适于RAPD分析的真菌DNA提取方法

报道一种高纯度、高分子量真菌基因组DNA的快速小量提取方法。该法制备的DNA降解少,分子量均在48.5kb以上;纯度高,所有样品的A260/280都在1.7-2.0之间;产率也很高,一般从500mg干菌丝可稳定获得530μg的DNA。所获得的DNA适用于RAPD分析。     

人体蠕形螨的DNA提取与随机引物PCR检测

【目的】探索人体毛囊蠕形螨和皮脂蠕形螨DNA的提取方法。【方法】采用液氮反复冻融研磨法破碎螨体细胞, 选用改良小昆虫DNA提取法、碱裂解法和试剂盒提取法, 分别提取冻存时间在5个月内和8~10个月的毛囊蠕形螨和皮脂蠕形螨基因组DNA, 并用随机引物PCR方法进行检测。【结果】蛋白核酸测定仪检测结果显示, 试剂盒法提取的DNA纯度较高、量较多, 明显优于改良小昆虫法和碱裂解法。随机引物扩增结果显示清晰的DNA指纹图谱, 两种人体蠕形螨DNA指纹具有明显差异。蠕形螨冻存时间影响DNA提取的量, 但对DNA提取的纯度和RAPD指纹图谱影响较小。不同DNA提取方法提取的同一种蠕形螨DNA指纹图谱基本相似, 试剂盒法和改良小昆虫法提取的DNA样本条带多而清晰, 碱裂解法提取的样本条带少而模糊。【结论】液氮反复冻融研磨法破碎蠕形螨细胞是有效的, 蠕形螨冻存时间不宜超过6个月, 试剂盒提取法是提取蠕形螨DNA的好方法。RAPD技术可以用于这两种人体蠕形螨DNA分子水平上的检测和分类。     

Evaluation of the RAPD profiles from different body parts of Euglossa pleosticta Dressler male bees (Hymenoptera: Apidae, Euglossina)

In the current literature, information is scarce on which part of the adult insect body is suitable for isolation of genomic DNA for genetic analysis based on DNA-markers. In this study, we evaluated RAPD profiles generated from total genomic DNA isolated from distinct body parts (head, legs, thorax + wings and abdomen) of 12 males of Euglossa pleosticta Dressler. From the total of bands analyzed, 9.0% did not show reproducibility. Percent variations of bands in each body segment were: 1.1% (head); 0.4% (legs); 0.8% (thorax/wings) and 6.7% (abdomen). The much higher variation (chi2(one sample) = 10.27; df = 1; P < 0.01) in the RAPD profiles obtained by using DNA isolated from abdomen of the euglossine males suggests that this body part of adult insects should be avoided in DNA extraction procedures. Conversely, the low variation among the RAPD profiles obtained from amplifications of genomic DNA extracted from head, legs and thorax/wings indicates that all these body parts of male bees are equally useful and secure for using in isolation and amplification procedures of total genomic DNA.     

Long-term room temperature storage of high-quality embryonic stem cell genomic DNA extracted with a simple and rapid procedure.

A very simple procedure for the isolation of high-quality, high-molecular-weight genomic DNA from embryonic stem cells is described. The DNA is very stable once dried and can be stored for long periods of time without refrigeration. Living cells are lysed in a sodium dodecyl sulfate and EDTA buffer containing proteinase K and then air-dried. Samples can be processed in bulk, and an individual can easily process thousands of samples for extraction and shipment on a daily basis using only common laboratory materials such as plastic ware and a multichannel pipetteman.     

Rapid and simple methodology for isolation of high quality genomic DNA from coniferous tissues (<Emphasis Type="Italic">Taxus baccata</Emphasis>)

Various investigations have been so far performed for extraction of genomic DNA from plant tissues, in which the extracted intact DNA can be exploited for a diverse range of biological studies. Extraction of high quality DNA from leathery plant tissues (e.g., coniferous organs) appears to be a critical stage. Moreover, for some species such as Taxus trees, bioprocess engineering and biosynthesis of secondary metabolites (e.g., paclitaxel) is a crucial step due to the restrictions associated with extinction of these species. However, extraction of intact genomic DNA from these plants still demands a rapid, easy and efficient protocol. To pursue such aim, in the current work, we report on the development of a simple and highly efficient method for the extraction of DNA from Taxus baccata. Based upon our protocol, interfering phenolic compounds were removed from extraction using polyvinylpyrrolidone and RNA contamination was resolved using LiCl. By employing this method, high quality genomic DNA was successfully extracted from leaves of T. baccata. The quality of extracted DNA was validated by various techniques such as RAPD marker, restriction digestions and pre-AFLP. Upon our findings, we propose this simple method to be considered for extraction of DNA from leathery plant tissues.     

Rapid estimation of genetic relatedness among heterogeneous populations of alfalfa by random amplification of bulked genomic DNA samples

A procedure which involves the use of RAPD markers, obtained from bulked genomic DNA samples, to estimate genetic relatedness among heterogeneous populations is demonstrated in this study. Bulked samples of genomic DNA from several alfalfa plants per population were used as templates in polymerase chain reactions with different random primers to produce RAPD patterns. The results show that the RAPD patterns can be used to determine genetic distances among heterogeneous populations and cultivars which correspond to their known relatedness. The results also indicate that, by using ten primers with bulked DNA samples from ten individuals, 18–72 populations or cultivars can be distinguished from each other on the basis of at least one unique RAPD marker. We anticipate that DNA bulking and methods for comparing RAPD patterns will be very useful for identifying cultivars, for studying phylogenetic relationships among heterogeneous populations and for selecting parents to maximize heterosis in crosses.     

Evidences showing ultraviolet-B radiation-induced damage of DNA in cyanobacteria and its detection by PCR assay

Impact of ultraviolet-B radiation in causing the damages to the DNA of the cyanobacterium, Anabaena strain BT2 has been investigated. Exposure of genomic DNA (in vitro) to UV-B radiation for 1 h did not cause any shift in the absorption peak (lambda(max)) but more than 30% increase in absorbance was noticed in comparison to untreated control DNA (no exposure to UV-B). This increase in absorbance in a way may be comparable to typical hypochromic effect but there was no decrease in absorbance following transfer of UV-B-treated DNA to fluorescent light or in the dark. That the damaging effect of UV-B radiation on native structure of DNA is indeed real was also evident from the PCR-based assay such as RAPD, rDNA amplification, and ARDRA. Template activity of UV-B-treated genomic DNA was drastically inhibited, there was no amplification in RAPD assay after prior exposure of DNA to UV-B for 60 min. Only one band of approximately 400 bp was observed even after 60 min of exposure which suggests that certain segment of DNA strand is resistant to UV-B effects. Similar to the effects on RAPD profile, amplification of rDNA was significantly inhibited following exposure of genomic DNA to UV-B. Our findings clearly demonstrate that UV-B does affect the DNA of cyanobacteria and the killings of these microbes might be due to the irreversible damages caused to DNA by this high energy radiation. It is felt that PCR assay may be conveniently used for screening the damages caused to DNA by UV-B radiation in cyanobacteria and other microorganisms.     

Stability of RAPD fingerprints in potato: Effect of source tissue and primers

Variations in random amplified polymorphic DNA (RAPD) profiles from leaf, stem, root, and tuber tissues were observed in case of two glasshouse grown potato cultivars using 40 decamer primers suggesting possible danger of cultivar misidentification. Genomic DNA extracted from the above four tissues of four in vitro grown potato cultivars, however, produced more uniform RAPD fingerprints. A significant effect of random primers on fingerprint uniformity was observed in case of both glasshouse and in vitro grown samples. A new concept of stability index for random primers based on homogeneity of RAPD profiles obtained from different tissues of a single plant have been introduced. It is concluded that RAPD analysis of genomic DNA extracted from any tissue of in vitro grown potato plants using 14 selected decamer primers could be used to develop RAPD fingerprints for identification of Indian potato cultivars.     

蚜虫基因组DNA提取方法的改进

蚜虫基因组DNA的提取是蚜虫分子生物学研究中的难点。参照动物基因组DNA的提取方法,根据蚜虫体型微小,体表有外骨骼的特点,对SDS法作了改进。改进的方法无需用组织捣碎棒破碎虫体,操作简便。与现在常用的提取方法相比,改进的SDS法能快速、有效地提取单头蚜虫的基因组DNA,适用于RAPD随机引物和测序引物的PCR扩增。     

Isolation of DNA for RAPD analysis from dry leaf material of some<Emphasis Type="Italic">Hesperis</Emphasis> L. specimens

An improved protocol for the isolation of DNA from dry material of someHesperis specimens is described. The isolated DNA is suitable for random amplification of polymorphic DNA (RAPD) analysis. Different DNA extraction protocols were examined to determine which might yield DNA from dry leaf tissue ofHesperis specimens. The methods examined include the protocols with hexadecyltrimethylammonium bromide (CTAB) described by Doyle and Doyle (1987); sodium dodecyl sulfate (SDS) by Dellaporta et al. (1983); and CTAB and SDS, the modified minipreparation, by Dellaporta et al (1983). None of these procedures yielded DNA of suitable purity for RAPD assay. We established an improved procedure involving CTAB and enzymatic digestion of proteins and RNA. The recovery of DNA with an average yield of 25 mg/g of leaf material was possible with this procedure. RAPD bands, which could be used to distinguish amongHesperis specimens, were generated.