One-base excess adaptor ligation method for walking uncloned genomic DNA

This report describes a novel and efficient method for walking the sequence of a genomic deoxyribonucleic acid (DNA) from a known region to an unknown region based on an oligodeoxynucleotide (oligo) cassette-mediated polymerase chain reaction technique. In this method, genomic DNA is digested by a restriction enzyme that generates a sticky 5′-end, followed by ligation of a one-base excess oligo-adaptor using T4 DNA ligase. The adaptor consists of two complementary oligos that form the same sticky end as the digested genomic DNA fragments, except that the 5′-overhang base overlaps the corresponding 3′-end base of the restriction site. This overhanging terminal base prevents ligation between the adaptors, and the appropriate molar ratio of adaptor to genomic DNA enables specific amplification of the target sequence. T4 DNA ligase catalyzes both the ligation of the phosphorylated overhang base of the adaptor to genomic DNA and the excision of the corresponding 3′-terminal base of the genomic DNA. This sequence-specific exonuclease activity of T4 DNA ligase was confirmed by ligation of an alternative adaptor in which the 5′-terminal base was not consistent with the corresponding 3′-terminal base. Using this technique, the 3′- and 5′-flanking sequences of the catalase gene of the ciliate Paramecium bursaria were determined.     

A novel method to perform genomic walks using a combination of single strand DNA circularization and rolling circle amplification

Characterization of regions flanking a known sequence within a genome, known as genome walking, is a cornerstone technique in modern genetic analysis. In the present work we have developed a new PCR-dependent, directional genome walking protocol based on the unique circularization property of a novel DNA ligase, CircLigase. In the first step, PCR based primer extension is performed using a phosphorylated primer, designed to extend from the boundary of the known sequence, into the flanking region. This linear amplification results in the generation of single-stranded (ss) DNA, which is then circularized using CircLigase. Using the hyperbranching activity of Phi29 DNA polymerase, the circular ssDNA is then linearized by rolling circle amplification, resulting in copious amounts of double stranded concatameric DNA. Nested primers are used to amplify the flanking sequence using inverse PCR. The products are resolved on an agarose gel and the bands whose mobility change due to the nested location of the primer combination used are identified, extracted, and cloned into a plasmid vector for sequencing. Empirical proof for this concept was generated on two antimicrobial biosynthetic genes in Pseudomonas sp. LBUM300. Using the hcnB and phlD genes as starting points, ca 1 kb of flanking sequences were successfully isolated. The use of locus specific primers ensured both directionality and specificity of the walks, alleviating the generation of spurious amplicons, typically observed in randomly primed walking protocols. The presented genome walking protocol could be applied to any microbial genome and requires only 100-150 bp of prior sequence information. The proposed methodology does not entail laborious testing of restriction enzymes or adaptor ligation. This is the first report of a successful application of the novel ligase enzyme, CircLigase for genomic walking purposes.     

利用多模板Y形接头延伸法进行相邻序列的连续扩增

Y形接头延伸法(Y-shaped adaptor dependent extension,YADE)是一种扩增已知DNA片段相邻序列的方法,但其效率常受到已知序列周围酶切位点数目的限制。在Y形接头延伸中采用由多种酶切和连接产生的DNA作模板,大大提高了该方法扩增相邻序列的效率,实现了相邻序列的连续扩增。利用该方法通过2轮连续的扩增从7种酶切连接产物中成功地获得了1个棉花小GTP酶基因(GhRacB)的2228bp上游序列。结果表明,多模板Y形接头延伸法是一种从复杂基因组中扩增相邻序列的有用方法。     

DNA fingerprinting based on microsatellite-anchored fragment length polymorphisms,and isolation of sequence-specific PCR markers in lupin (Lupinus angustifolius L.)

We report a method of microsatellite-anchored fragment length polymorphisms for DNA fingerprinting. The method combines the concept of AFLP and the microsatellite-anchor primer technique. Genomic DNA was digested by one restriction enzyme MseI. One AFLP adaptor (MseI adaptor) was ligated onto the restriction fragments. DNA fingerprints were produced by PCR using one microsatellite-anchor primer in combination with one MseI-primer. The method allows co-amplification of over 100 DNA fragments containing microsatellite motifs per PCR. Polymorphisms detected from lupin by this method included those arising from variation in the number of microsatellite repeat units targeted by the microsatellite-anchor primers, from variation on the annealing sites for the SSR-anchor primers, from insertions/deletions outside the SSR region, and from variation in restriction sites. The first three types of polymorphisms were readily converted into sequence-specific PCR markers suitable for marker-assisted breeding.     

Chromosome micro‐dissection and region‐specific libraries from pachytene chromosomes of maize (Zea mays L.)

For the first time, pachytene chromosomes have been used for micro-dissection, amplification and cloning using the short arm of maize chromosome 6. For this purpose, methods for the preparation of unstained pachytene chromosomes were developed. In two separate experiments, 10 and 12 segments of the satellite region were isolated utilizing glass needles and DNA was amplified by linker-adaptor-PCR. After amplification, maize-specific DNA was verified by genomic Southern hybridizations. Chromosomal in situ suppression hybridization confirmed that the adaptor PCR products originated from the micro-dissected 6S region. The adaptor PCR products were cloned into a plasmid vector and the chromosome region-specific libraries were characterized.     

Cloning and expression of a novel lipase gene from Pseudomonas fluorescens B52

Here we describe an advanced polymerase chain reaction (PCR) technique, the compatible ends ligation inverse PCR (CELI-PCR) for chromosome walking. In CELI-PCR, several restriction enzymes, which produce compatible cohesive ends, were used to digest target DNA simultaneously or sequentially to produce DNA fragments of suitable size. DNA fragments were then easily circularized and PCR amplification could be carried out efficiently. The previous limitations of inverse PCR were overcome, such as unavailable restriction sites, poor template DNA circularization, and low amplification efficiency. Therefore, successive chromosome walking was performed successfully. Our work, isolating a 11,395-bp fragment from Gossypium hirsutum, was presented as an example to describe how CELI-PCR was carried out.     

A primer-based approach to genome walking

A genome walking strategy based on annealing and ligation of single-stranded DNA primers to 3′ overhangs following restriction endonuclease digestion was developed. A set of primers contains 4 nucleotides at the 3′ end that are complementary to overhangs formed by restriction endonucleasesApaI;PstI;SacI andSphI. Following ligation, 5′ end overhangs are formed on the DNA, which serves as sites for the adaptor primers and nested primers for PCR amplification in combination with the gene-specific primers. This strategy was verified by the amplification of up to 4 kb of a potato leafroll virus full-length infectious clone. The procedure could be adopted to target any upstream and downstream regions flanking known sequences within the plant genome.     

R-ISSR as a new tool for genomic fingerprinting, mapping, and gene tagging

In the present study we propose and test the concept of R-ISSR, a new tool for genomic fingerprinting, mapping, and gene tagging. The concept is based on the fact that primers for inter-simple sequence repeat (ISSR) and random-amplified polymorphic DNA (RAPD) analysis elicit different genomic information, and the combined use of these 2 kinds of primers in the same polymerase chain reaction (PCR) reactions might reveal new genomic loci that could not be detected with either technique alone. The feasibility of this tool was first electronically simulated with sequence analysis software andArabidopsis chromosome sequence. Next, different combinations of ISSR and RAPD primers were applied in real PCR reactions to detect new genomic loci in 2 maize lines (Q319 and 1145). Sequencing gels were used to separate PCR products and showed good resolving ability in comparison with agarose gels. RAPD primers could be successfully used with ISSR primers for the detection of new genomic loci and applied in a new way for genomic mapping, fingerprinting, and gene tagging.     

基因组步移法克隆小菜蛾CYP9G2基因的上游序列

利用4种产生平端切头的限制性内切酶消化小菜蛾(Plutella xylostella)的基因组DNA,然后利用DNA连接酶的催化作用,在4种不同平端切头的小菜蛾基因组DNA上连接一个氨基化的基因组步移衔接头序列,针对衔接头及已克隆的CYP9G2基因的序列,设计两对PCR上、下游引物,进行PCR扩增、T-A克隆和阳性克隆的巢式PCR验证,通过测序克隆到了小菜蛾CYP9G2基因上游未知序列约1.8 kb.通过对该基因的上游序列进行信息分析,发现1个可能的节肢动物动物转录起始子(Inr),3个CAAT样盒及1个抗氧化剂样反应因子,共5个可能的顺式调控元件.研究还表明,利用基因组步移方法可以快速地克隆已知序列的上游未知序列,实验操作经济、简便,对于已知cDNA序列或部分基因组序列的基因,其上游调控序列的克隆,基因组步移具有较高的实用价值.     

Chromosomal mapping and zygosity check of transgenes based on flanking genome sequences determined by genomic walking.

Transgenes can affect transgenic mice via transgene expression or via the so-called positional effect. DNA sequences can be localized in chromosomes using recently established mouse genomic databases. In this study, we describe a chromosomal mapping method that uses the genomic walking technique to analyze genomic sequences that flank transgenes, in combination with mouse genome database searches. Genomic DNA was collected from two transgenic mouse lines harboring pCAGGS-based transgenes, and adaptor-ligated, enzyme restricted genomic libraries for each mouse line were constructed. Flanking sequences were determined by sequencing amplicons obtained by PCR amplification of genomic libraries with transgene-specific and adaptor primers. The insertion positions of the transgenes were located by BLAST searches of the Ensembl genome database using the flanking sequences of the transgenes, and the transgenes of the two transgenic mouse lines were mapped onto chromosomes 11 and 3. In addition, flanking sequence information was used to construct flanking primers for a zygosity check. The zygosity (homozygous transgenic, hemizygous transgenic and non-transgenic) of animals could be identified by differential band formation in PCR analyses with the flanking primers. These methods should prove useful for genetic quality control of transgenic animals, even though the mode of transgene integration and the specificity of flanking sequences needs to be taken into account.     

Molecular identification of isolates of <Emphasis Type="Italic">Peronosclerospora sorghi</Emphasis> from maize using PCR-based SCAR marker

The fungus Peronosclerospora sorghi [Weston and Uppal (Shaw)] infects both sorghum and maize and incites downy mildew disease. Pathogenic and molecular variability among isolates of P. sorghi from sorghum and maize has been reported. In the present study we developed a DNA sequence characterized amplified region (SCAR) marker for identification of isolates of P. sorghi from maize by using polymerase chain reaction (PCR). The random amplified polymorphic DNA (RAPD) primer OPB15 consistently amplified a 1,000 base pairs (bp) product in PCR only from DNA of P. sorghi isolates from maize and not from isolates of sorghum. The PCR-amplified 1,000-bp product was cloned and sequenced. The sequence of the SCAR marker was used for designing specific primers for identification of maize isolates of P. sorghi. The SCAR primers amplified a 800 bp fragment only from genomic DNA of maize isolates of P. sorghi. The SCAR primers developed in this study are highly specific and reproducible, and proved to be powerful tool for identification of P. sorghi isolates from maize.     

Maize DNA enrichment by representational difference analysis in a maize chromosome addition line of oat

 The recent recovery of maize (Zea mays L.) single-chromosome addition lines of oat (Avena sativa L.) from oat x maize crosses has provided novel source materials for the potential isolation of maize chromosome-specific sequences for use in genetic mapping and gene cloning. We report here the application of a technique, known as representational difference analysis (RDA), to selectively isolate maize sequences from a maize chromosome-3 addition line of oat. DNA fragments from the addition line and from the oat parent were prepared using BamHI digestion and primer ligation followed by PCR amplification. A subtractive hybridization technique using an excess of the oat parental DNA was employed to reduce the availability for amplification of DNA fragments from the addition lines that were in common with the ones from the oat parental line. After three rounds of hybridization and amplification, the resulting DNA fragments were cloned into a plasmid vector. A DNA library containing 400 clones was constructed by this method. In a test of 18 clones selected at random from this library, four (22%) detected maize-specific repetitive DNA sequences and nine (50%) showed strong hybridization to genomic DNA of maize but weak hybridization to genomic DNA of oat. Among these latter nine clones, three detected low-copy DNA sequences and two of them detected DNA sequences specific to chromosome 3 of maize, the chromosome retained in the source maize addition line of oat. The other eight out of the 13 clones that had strong hybridization to maize DNA detected repetitive DNA sequences or high-copy number sequences present on most or all maize chromosomes. We estimate that the maize DNA sequences were enriched from about 1.8% to over 72% of the total DNA by this procedure. Most of the isolated DNA fragments detected multiple or repeated DNA sequences in maize, indicating that the major part of the maize genome consists of repetitive DNA sequences that do not cross-hybridize to oat genomic sequences. Received: 18 November 1997 / Accepted: 12 March 1998     

A strategy for single site PCR amplification of dsDNA: priming digested cloned or genomic DNA from an anchor-modified restriction site and a short internal sequence

Amplification of dsDNA by polymerase chain reaction (PCR) has been limited to those instances in which segments of known sequence flank the fragment to be amplified. A strategy for the PCR amplification of cloned or genomic dsDNA that necessitates sequence information from only a single short segment (single site PCR) has been devised. The region of known sequence may be located at any position within or adjacent to the segment to be amplified. The basic procedure for amplification consists of 1) digestion of dsDNA with one or more restriction enzymes, 2) ligation with a universal anchor adaptor and 3) PCR amplification using an anchor primer and the primer for the single site of known sequence. The anchor adaptor is designed in such a way as to facilitate the amplification of only those fragments containing the sequence of interest. We have demonstrated the utility of this technique by specifically amplifying and directly sequencing antibody variable region genes from cloned dsDNA and from genomic DNA.     

Ligation mediated fluorescent labeling of DNA sequencing primers.

Automated DNA sequencing utilizing fluorescently labeled primers is a proven methodology for generating quality sequence data. However, for directed primer walking strategies this necessitates synthesis and labeling of a unique primer for each sequencing reaction. Here, we describe a rapid ligation-based method of generating labeled sequencing primers. An unlabeled 5'-phosphorylated sequencing primer is ligated to a fluorescent oligonucleotide by use of a bridge primer which is complementary to portions of the previous two oligonucleotides, thus aligning them properly for ligation. The resulting fluorescent hybrid primer can be utilized directly in cycle sequencing reactions without any prior purification.     

Generation of co-dominant PCR-based markers by duplex analysis on high resolution gels

Rapid and efficient procedures for the detection of sequence polymorphisms are essential for chromosomal walking and mutation detection analyses. While DNA chip technology and denaturing high-performance liquid chromatography (DHPLC) are the methods of choice for large scale facilities, small laboratories are dependent on simple ready-to-use techniques. We show that heteroduplex analysis on high resolution gel matrices efficiently detects sequence polymorphism differing as little as a single base pair (e.g. single-nucleotide polymorphism, SNP) with standard laboratory equipment. Furthermore, the matrices also discerned differences between homoduplexes, a prerequisite for co-dominant markers. The markers thus generated are referred to as duplex analysis markers. We designed PCR primers for 36 Arabidopsis thaliana loci ranging in length from 230 bp to 1000 bp. Among three ecotypes, more than half ( n = 19) of the loci examined were polymorphic; five of which contained three different alleles. This simple, high resolution technique can be used to rapidly convert sequence tagged sites into co-dominant PCR-based molecular markers for fine-scale mapping studies and chromosomal walking strategies as well as for the detection of mutations in particular genes.     

香蕉果实特异性ACC合酶基因启动子区的克隆及其功能初探

根据本实验室所获得的香蕉果实特异性ACC合酶cDNA序列,以改进的接头连接PCR方法通过两次步行从香蕉基因组中分别扩增并克隆了其基因5′旁侧区近端1.2kb和远端1.6kb的片段。通过拼接,构建出含有2505bp启动子区和转录起始位点下游86bp的共2591bp的基因5′旁侧区片段;其启发性动子区中34至28为推测的TATA盒序列,158至146为推测的CCAAT盒,与其它植物基因启动子结构相类似。将2.5kb启动子片段与β-葡糖苷酸酶(GUS)基因编码序列融合,用基因枪法将构建的嵌合基因转入香蕉叶、根和果实的细胞后,只在果实细胞中观察到报告基因的瞬时表达,从功能上证明了此25kb的启动子片段具有指导报告基因在香蕉果实中特异性表达的作用。同时构建5个含不同5′端缺失启动子与GUS融合基因的表达载体。瞬时表达结果表明可能负责果实特异性表达的调控区存在于转录起始位点至-1111的启动子区中,而在-1111至-608区间可能存在一个正控制区。     

Cloning and Sequencing of the Gene Encoding 10 kD Zein of Maize

The results of cloning and sequencing of the gene encoding 10 kD zein of maize (Zea mays L. ) with polymerase chain reaction (PCR) technique are here with presented. The genomic DNA template was extracted from sterilized seedlings of maize. Primered with a pair of synthetic 5′and 3′ PCR primers, a 0.57 kb DNA fragment was obtained after 30 PCR amplification cycles. The restriction map of the DNA fragment has been determined. The result indicated that the entire coding sequence of 10 kD zein gene has been cloned. The homologies of the DNA sequence and deduced amino acid sequences between our result and those published abroad are 96% and 90% respectively. As l0 kD zein is rich in sulphur, this gene might be used to improve the quality of crops, especially, the forage legumes by genetic engineering.     

Knob heterochromatin homology in maize and its relatives

Summary We have characterised the major DNA sequence component of knob heterochromatin in maize, teosinte andTripsacum. Sequence analysis of this DNA gives strong support to the proposal that maize originated by selection of variants in teosinte. In situ hybridization has confirmed that this repeating DNA sequence, which is the major component of maize knob heterochromatin, is also the major component of knobs in teosinte,Zea diploperennis andTripsacum. In Southern blot hybridizations the repeat has a similar basic organization in all taxa;Tripsacum, however, is differentiated from maize and teosinte by a number of sequence features. Maize and teosinte knob heterochromatin are indistinguishable with regard to the distribution of mutations in the 180-bp repeat and the presence and organization of a 202-bp variant sequence. The knob DNA sequence was not detectable in three species ofCoix, an Old World genus of the Maydeae.Within the repeat unit is a 27-bp region that shows no sequence changes in maize, teosinte orTripsacum. The remainder of the repeat unit has randomly distributed nucleotide changes. The presence of the conserved sequence region suggests that knob DNA may have a functional role in the nucleus.     

莪术基原植物DNA条形码序列的筛选与鉴定

为寻找适用于中药材莪术基原植物鉴定的DNA条形码序列,探索快速高效的莪术基原植物鉴定的新方法,该文首先利用扩增成功率和测序成功率对中药材莪术三种基原植物,9个样本的7种DNA条形码序列(ITS、ITS2、matK、psbA-trnH、trnL-trnF、rpoB和atpB-rbcL)进行评估,然后利用MEGA6.0软件对获得的高质量的序列通过变异位点分析、遗传距离计算和系统树分析等进一步进行评估,最后将筛选到的DNA条形码序列对未知基原的待测样品进行基原鉴定。结果表明:(1) ITS、ITS2和matK等条形码序列在莪术基原植物中的扩增或测序成功率较低,难以应用于实际鉴定;而psbA-trnH、trnL-trnF和rpoB条形码序列变异位点信息过少,不足于区分莪术的三种不同基原植物;只有atpB-rbcL条形码序列的扩增和测序成功率较高,容易获得高质量的序列,同时序列长度(642～645 bp)理想,变异位点多(11个),可实现莪术的三种不同基原的区分鉴别。(2)待测样品经基于atpB-rbcL序列构建的系统发育树鉴别为温郁金。综上所述,叶绿体atpB-rbcL序列能够准确鉴定莪术不同基原植物,可以作为中药材莪术基原植物鉴定的条形码序列。