Preparation of a genomic library using a TA vector

An efficient and simple method for constructing a genomic DNA library is presented using a TA cloning vector. It is based on sonication cleavage of genomic DNA, blunting of the fragment ends with mung bean nuclease, and addition of a single 3'-deoxyadenylate with Taq DNA polymerase, followed by ligation with a TA vector. This method is useful for improving the quality of genomic libraries for organisms whose genomic DNA is not well digested with restriction enzymes owing to the presence of polysaccharides and/or DNA methylation.     

革兰氏阳性细菌基因组DNA提取方法的比较及优化

【目的】基因组DNA提取效率和质量对分子生物学相关研究起着关键的作用,革兰氏阳性细菌由于细胞壁较厚、难破裂使其基因组DNA提取的难度增大,本文旨在寻找一种高效稳定的DNA提取方法。【方法】以Clostridium thermocellum和Thermoanaerobacterium thermosaccharolyticum为实验菌株,使用6种DNA提取方法对C. thermocellum基因组DNA进行提取,对比其提取效果和产率。【结果】改良的SDS-碱裂解法提取得到的DNA浓度较高(400 mg/l左右),且平行样间浓度和纯度稳定。【结论】为革兰氏阳性细菌基因组DNA提取提供参考。     

小麦条锈菌大片段基因组DNA的提取方法研究

由条锈菌Puccinia striiformis引致的小麦条锈病是小麦最重要的病害之一。由于其活体寄生的特点,对小麦条锈菌的遗传学和分子生物学研究十分有限,大片段核DNA的提取研究还未见报道。高分子量基因组DNA是开展大片段基因组文库构建、基因组分析以及基因组重建的重要基础,通过系统建立和优化小麦条锈菌大片段基因组DNA的分离方法,成功获得分子量大于1Mb高质量的病菌基因组DNA。     

A PCR-based method for isolation of genomic DNA flanking a known DNA sequence

We describe a simple PCR-based method for the isolation of genomic DNA that lies adjacent to a known DNA sequence. The method is based on the directional cloning of digested genomic DNA into the multiple cloning site of a pUC-based plasmid to generate a limited genomic library. The library is plated onto a number of selective LA plates which are incubated overnight, and recombinant plasmid DNA is then isolated from resistant colonies pooled from each plate. PCR amplification is performed on the pooled recombinant plasmid DNAs using primers specific for the pUC vector and the known genomic sequence. The combination of efficient directional cloning and bacterial transformation gives relative enrichment for the genomic sequence of interest and generates a simple DNA template, enabling easy amplification by PCR.     

改良CTAB法提取林木树种基因组DNA的研究

目的:验证改良CTAB法提取不同林木树种基因组DNA的效果,寻求一种对于不同林木树种基因组DNA提取普遍使用的方法。方法:采用改良的CTAB法提取22种木本植物基因组DNA,并对其进行定性、定量分析及酶切分析。结果:采用本法可以去除多糖和其他次生代谢物并获得高质量的DNA。结论:该方法可以作为一种适于在实验室进行的林木树种基因组DNA的提取方法。     

一种简便高效的酵母基因组提取方法

提取基因组进行检测是酵母研究过程中的必要步骤之一。以毕赤酵母菌株GS115作为研究对象,主要成分为0.2 mol/L醋酸锂和1% SDS的酵母裂解液能高效的裂解酵母细胞壁。与两种酵母基因组提取试剂盒相比,该方法从相同体积的酵母培养液中获得的基因组的量高5倍以上,并且操作简便、快速,能在2 h内完成一次提取过程,极大地缩短了时间。以GS115中的内源AOX基因为目的基因,对提取的基因组进行PCR检测和Southern杂交检测,进一步验证了基因组的质量。因此,本文建立了一种简便、快速、经济而高效的酵母基因提取方法。     

马蹄金基因组DNA的提取方法比较

对马蹄金基因组DNA的提取方法———快速提取法、小量提取法和大量提取法进行了对比分析,结果表明,利用快速提取法可在20 min内快速可靠地从马蹄金(Dichondra repensForst.)组织中提取DNA,与小量提取法和大量提取法获得的DNA用于PCR检测结果一致,可为转基因植物的快速检测提供方法。     

Direct capture and cloning of receptor kinase and peroxidase genes from genomic DNA.

A direct DNA capture and cloning procedure with magnetic bead separation was used to isolate receptor kinase like and peroxidase genes from oat (Avena sativa) and wheat (Triticum aestivum L.) genomic DNA, respectively. In this procedure, the digoxigenin-labeled probe DNA and target genomic DNA fragments were mixed, denatured, and hybridized. The double-helix complexes formed were captured with anti-digoxigenin immunoglobulin-coated magnetic beads and then cloned into either the lambdaBlueSTAR or pUC18 vector. The effectiveness of this procedure was demonstrated by using two specific DNA probes to capture receptor-like kinase genes and surrounding sequences from oat genomic DNA and a peroxidase gene from wheat genomic DNA.     

稻瘟菌突变体T-DNA插入位点的精细定位和插入模式的研究

随机挑取已构建的37个稻瘟菌T-DNA突变株,利用TAIL-PCR技术扩增出T-DNA插入位点的侧翼序列,测序并进行比对分析。结果显示:成功获得扩增产物并测序的序列共有39条,T-DNA边界序列为稻瘟菌序列的有19条,其余20条为载体主干序列。在这有效扩增为稻瘟菌序列的19条中,有10条是T-DNA右侧翼序列与稻瘟菌序列,9条为左侧翼序列加稻瘟菌序列。分析T-DNA剪切位点,10条右侧翼序列中有9条的剪切位点相同,这与农杆菌介导T-DNA转化植物一样。而左边界的剪切位点就没有这种规律性。研究也精细确定了17个不同突变株的T-DNA插入位置,为后续的基因功能研究奠定基础。     

5-溴脱氧尿嘧啶核苷标记酵母基因组DNA的方法

胸腺嘧啶类似物5-溴脱氧尿嘧啶核苷(BrdU)标记技术是一种研究DNA复制、修复等生命过程的有效手段。由于酿酒酵母(Saccharomyces cerevisiae)中缺少胸腺嘧啶核苷酸补救途径,胞外BrdU不能有效的渗入到基因组中,使该技术在酿酒酵母中的应用受到极大制约。通过在基因组中引入单纯疱疹病毒胞苷激酶(HSV-TK)和人类平衡核苷转运蛋白(hENT1)基因,工作建立了BrdU标记酵母基因组DNA的方法。在生长对数中期加入0.2mg/ml BrdU,离体检测法检测发现,标记3h的荧光信号较1h、5h时强;胞内检测法结果显示,标记3h时55.3%的基因组DNA中能够渗入BrdU。该工作为酿酒酵母DNA复制、修复等方面提供了直接有效的研究方法。     

An efficient purification and fractionation of genomic DNA from soil by modified troughing method

AIMS: The aim of this study was to utilize a modified troughing method for purification of large genomic DNA obtained from microbiota in natural environment and for fractionation of genomic DNA into many size ranges that facilitates construction of metagenomic library. METHODS AND RESULTS: Genomic DNA extracted from soil or termite gut was purified by the modified troughing method which utilized gel electrophoresis in the presence of 30% PEG8000. The method performed better than various purification kits and allowed no significant loss in the amount of DNA recovered. In addition, the efficiency of the modified troughing method for DNA size fractionation was investigated. DNA size fractionation was achieved with repetitive rounds of electrophoresis and DNA collection to obtain DNA with many size ranges. CONCLUSIONS: The modified troughing method is a simple and efficient method for purification of genomic DNA and for DNA size fractionation. SIGNIFICANCE AND IMPACT OF THE STUDY: The modified troughing method is a straightforward and inexpensive technique readily available for anyone working with environmental genomic DNA. It facilitates cloning of genomic DNA and enhances rapid discovery of useful bioactive compounds from microbial resources.     

Genomic organization and cloning of novel genes encoding toxin-like peptides of three superfamilies from the spider Orinithoctonus huwena

The bird spider Ornithoctonus huwena is one of the most venomous spiders in China. Its venom is a mixture of various compounds with diverse bioactivities. Ninety proteins and 47 peptides have been identified, and 67 cDNA sequences encoding different toxin precursors have been cloned. However, the genomic DNA of them is seldom reported. To characterize the genomic DNA structure of huwentoxins, the genomic DNA encoding toxins of three superfamilies were cloned by using sequence specific or partially degenerate primers based on their cDNA sequences. An unexpected finding was that the intron was lacking in the genomic sequences of three superfamilies. The genomic DNA information has predictive value for better understanding the relationship of spider toxin evolution. In addition, we have cloned and analyzed 19 novel genes encoding toxin-like precursors by using the genomic DNA of the spider O. huwena.     

Identification and isolation of transcribed human X chromosome DNA sequences

A human X chromosome specific phage library has been used as a source of X-specific genomic DNA clones which hybridize with cellular RNA. Random cDNA clones were mapped for X chromosome sequence localization and 8 were identified as hybridizing to X chromosome Hind III fragments. All eight also hybridized with autosomal Hind III fragments. The X chromosome genomic sequences corresponding to two of these cDNA clones were isolated from a phage library constructed with the Hind III endonuclease digest products of X enriched DNA. One genomic DNA segment, localized to the short area of the X, shared sequence homology with at least one region of the human Y chromosome. The methodology developed represents a rapid means to obtain a specific genomic DNA clone from a single chromosome when multiple different genomic loci homologous to an expressed DNA sequence exist.     

三种人全血基因组DNA提取方法的比较

目的：比较改良酚一氯仿抽提法、盐析法、试剂盒法从人全血中提取基因组DNA的效果,以期建立一种快速、经济的提取高质量基因组DNA的方法。方法：分别用上述三种方法从人全血中提取基因组DNA,通过紫外分光光度计、琼脂糖凝胶电泳、聚合酶链式反应（PCR）、限制性内切酶酶切检测提取的基因组DNA的产量、纯度和质量。结果：改良酚一氯仿抽提法与试剂盒法提取的基因组DNA相比,DNA的产量有统计学差异,DNA的纯度无统计学差异,但试剂盒法提取的基因组DNA有较明显的降解现象：盐析法与改良酚．氯仿抽提法、试剂盒法相比,基因组DNA的产量和纯度都存在统计学差异,并且基因组DNA聚合酶链式反应（PCR）扩增的稳定性也明显劣于另外两种方法;三种方法提取基因组DNA均能进行限制性内切核酸消化。结论：改良酚一氯仿抽据取法是一种经济、快速、高效、稳定提取人全血基因组DNA的方法,适用于批量临床标本处理。     

Molecular characterization of transgenic shallots (Allium cepa L.) by adaptor ligation PCR (AL-PCR) and sequencing of genomic DNA flanking T-DNA borders

Genomic DNA blot hybridization is traditionally used to demonstrate that, via genetic transformation, foreign genes are integrated into host genomes. However, in large genome species, such as Allium cepa L., the use of genomic DNA blot hybridization is pushed towards its limits, because a considerable quantity of DNA is needed to obtain enough genome copies for a clear hybridization pattern. Furthermore, genomic DNA blot hybridization is a time-consuming method. Adaptor ligation PCR (AL-PCR) of genomic DNA flanking T-DNA borders does not have these drawbacks and seems to be an adequate alternative to genomic DNA blot hybridization. Using AL-PCR we proved that T-DNA was integrated into the A. cepa genome of three transgenic lines transformed with Agrobacterium tumefaciens EHA105 (pCAMBIA 1301). The AL-PCR patterns obtained were specific and reproducible for a given transgenic line. The results showed that T-DNA integration took place and gave insight in the number of T-DNA copies present. Comparison of AL-PCR and previously obtained genomic DNA blot hybridization results pointed towards complex T-DNA integration patterns in some of the transgenic plants. After cloning and sequencing the AL-PCR products, the junctions between plant genomic DNA and the T-DNA insert could be analysed in great detail. For example it was shown that upon T-DNA integration a 66bp genomic sequence was deleted, and no filler DNA was inserted. Primers located within the left and right flanking genomic DNA in transgenic shallot plants were used to recover the target site of T-DNA integration.     

Detection of simple mutations and polymorphisms in large genomic regions

We have developed a novel technology that makes it possible to detect simple nucleotide polymorphisms directly within a sample of total genomic DNA. It allows, in a single Southern blot experiment, the determination of sequence identity of genomic regions with a combined length of hundreds of kilobases. This technology does not require PCR amplification of the target DNA regions, but exploits preparative size-fractionation of restriction-digested genomic DNA and a newly discovered property of the mismatch-specific endonuclease CEL I to cleave heteroduplex DNA with a very high specificity and sensitivity. We have used this technique to detect various simple mutations directly in the genomic DNA of isogenic pairs of recombinant Pseudomonas aeruginosa, Escherichia coli and Salmonella isolates. Also, by using a cosmid DNA library and genomic fractions as hybridization probes, we have compared total genomic DNA of two clinical P.aeruginosa clones isolated from the same patient, but exhibiting divergent phenotypes. The mutation scan correctly detected a GA insertion in the quorum-sensing regulator gene rhlR and, in addition, identified a novel intragenomic polymorphism in rrn operons, indicating very high stability of the bacterial genomes under natural non-mutator conditions.     

一种高效快速的鱼类标本基因组DNA提取方法

以95%酒精保存的黄鳝(M onopterus albus)和斑鳢(Channa maculates)标本为材料,采用先沉降DNA再去除杂质的方法从鱼类标本中提取基因组DNA。基因组DNA的琼脂糖凝胶电泳和紫外分光光度法检测以及PCR扩增结果显示,本方法提取的鱼类基因组DNA的电泳主带清晰明亮;A260/A280值在1.7830-2.0144之间;PCR扩增产物条带清晰明亮,且单一整齐没有拖带,表明本方法可从酒精保存的鱼类标本中提取比较纯净的DNA,能够满足一般分子生物学试验需要。与传统苯酚/氯仿法相比,本方法操作简单快速,避免了苯酚等物质对后续实验的影响,可作为一种常规动物组织DNA提取方法。     

适于涡虫基因组DNA快速制备的改良的CTAB法

提取得到高质量的DNA样品是进行分子生物学研究的必要前提。为了找到一种适用于提取涡虫基因组DNA的常规方法,我们以东亚三角头涡虫为材料,分别用改良的CTAB法、SDS法、SDS-蛋白酶K法对涡虫的基因组DNA进行了制备,并对3种方法制备的涡虫基因组DNA进行了检测与比较。根据比较结果,我们认为改良的CTAB法最适合于涡虫基因组DNA的快速制备,为涡虫的分子生物学研究打下了基础。     

The use of fluorescein for labeling genomic probes in the checkerboard DNA-DNA hybridization method

Molecular methods that permit the simultaneous detection and quantification of a large number of microbial species are currently employed in the evaluation of complex ecosystems. The checkerboard DNA-DNA hybridization technique enables the simultaneous identification of distinct bacterial species in a large number of dental samples. The original technique employed digoxigenin-labeled whole genomic DNA probes which were detected by chemiluminescence. In this study, we present an alternative protocol for labeling and detecting whole genomic DNA probes in the Checkerboard DNA-DNA hybridization method. Whole genomic DNA was extracted from five bacterial species and labeled with fluorescein. The fluorescein labeled whole genomic DNA probes were hybridized against whole genomic DNA or subgingival plaque samples in a checkerboard hybridization format, followed by chemiluminescent detection. Our results reveal that fluorescein is a viable and adequate alternative labeling reagent to be employed in the checkerboard DNA-DNA hybridization technique.