Genotyping and haplotyping of polymorphisms directly from genomic DNA via coupled amplification and sequencing (CAS).

Coupled amplification and sequencing (CAS) allows a segment of DNA to be sequenced directly from genomic DNA. An initial PCR amplification stage selects and amplifies the target. During a subsequent stage both strands of the target segment are sequenced simultaneously and amplified further. We show that CAS can readily identify variant base pairs. Genotyping of a population for known sequence variation can be achieved simply and directly from genomic DNA of each organism by performing CAS only for the variant bases. The procedure supercedes development and optimization of alternative typing assays based on oligonucleotide hybridization or ligation. In addition, we show that competitive oligonucleotide priming with allelic primers can be readily performed in concert with the second stage of CAS. The combination of techniques allows sequencing of a single chromosome from a heterozygous genomic sample and direct haplotyping of the polymorphism at the priming site with any others encompassed within the amplified segment.     

粘虫核型多角体病毒919bp片段的PCR双链直接序列测定

本文发展了ＰＣＲ克隆和亚克隆技术制备ＤＮＡ测序模板。首先,我们用ｐＵＣ／Ｍ１３系列质粒的通用正反向引物ＰＣＲ扩增出质粒ｐＢｌｕｅｓｃｒｉｐｔＫＳＤＮＡ的多克隆位点及其侧翼序列,用ＥｃｏＲＶ和ＸｈｏＩ消化成为左右两个引物多克隆臂,与粘虫核型多角体病毒（ＬｓＮＰＶ）的ＥｃｏＲＶ和ＸｈｏＩ约４００ｂｐ和５００ｂｐ片段分别连接,经ＰＣＲ扩增,得到两端具有上述正反向引物结合位点的测序模板,用ｄｄＮＴＰ链终止法／ＰＣＲ扩增／银染色,从片段两端测定了全部９１９ｂｐ序列,这种ｄｄＮＴＰ／ＰＣＲ／银染测序法简化了操作,大大缩短了测序模板的制备时间,易于实现自动化操作。     

A QuikChange-like method to realize efficient blunt-ended DNA directional cloning and site-directed mutagenesis simultaneously

Here we present a QuikChange-like method to efficiently realize blunt-ended DNA cloning and conveniently introduce a site-directed mutation to recombinant plasmid at the same time. After blunt-ended DNA ligation and transformation, the plasmid DNA mixture is extracted from pooled transformants and directly used as template for PCR amplification with a pair of complementary mutagenic primers. With this method, sam1 gene was inserted into pUC19 vector by blunt-end ligation, and a unique restriction site Spe I was introduced to the recombinant plasmid at the same time. The randomly selected transformants were analyzed by DNA sequencing, and most of the clones were found to have correct sequences. However, no correct construct was found from randomly selected transformants after traditional blunt-ended DNA ligation and transformation.     

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.     

A method for unidirectional deletion mutagenesis with application to nucleotide sequencing and preparation of gene fusions

A method is described for the preparation of deletions that extend in one direction from a fixed point. The method is based on the ability of deoxynucleoside [1-thio]triphosphates to be incorporated into DNA by DNA polymerase I, Klenow fragment, and the fact that alpha-thiophosphate-containing phosphodiester bonds are resistant to hydrolysis by the 3'-to-5' exonucleolytic activity of phage T4 DNA polymerase. Therefore, linear duplex DNA molecules blocked at one 3'-terminus with a thiophosphate were prepared and then degraded from the other end with the exonuclease. Digestion for different lengths of time followed by treatment with nuclease S1 and ligation allowed the preparation and recovery of a nested set of deletion mutants. Importantly, it was observed that a significant fraction of deletion mutants of recombinant M13 phages carrying the target gene in the same orientation as 'lacZ alpha' yielded phage that produced lacZ alpha-complementing activity. Nucleotide (nt) sequencing showed that these phages carried in-frame fusions between the target gene and 'lacZ alpha'. The deletion mutagenesis procedure is applied to the nt sequencing of a gnd gene from a natural isolate of Escherichia coli.     

Design strategies and performance of custom DNA sequencing primers.

This study surveyed strategies of sequencing primer selection and evaluated primer performance in automated DNA sequencing. We asked participants to relate their preferred primer design strategies to identify primer characteristics that are considered most important in sequencing primer design. The participants preferred primers of 18-24 nucleotides (nt), 39%-58% G + C, a melting temperature (Tm) of 53 degrees-65 degrees C with a 1-2 nt 3' GC clamp, hairpin stems of less than 2-3 bp, homopolymeric runs of less than 4-5 nt, primer dimers of less than 3-4 bp and secondary priming sites of less than 3-4 bp. We provided a 300-bp test sequence and asked participants to submit sequences of 1-3 optimal sequencing primers. Submitted primers ranged from 17-24 nt and largely conformed to the preferred parameters. Submitted primers were distributed across the test sequence, although some sites were disfavored. Surprisingly, approximately 45% of the primers were selected "manually", more than by any software package. Each of 69 submitted and 95 control primers, distributed at 3-bp intervals across the test sequence, were synthesized, purified and tested using a Model 377 PRISM DNA Sequencer with dichlororhodamine dye terminator reagents (dRhodamine dye terminators). Approximately half of the control primers were also tested using rhodamine dye terminator reagents ("old" rhodamine dye terminators). The results indicated that primer physico-chemical characteristics thought to have a strong impact on sequencing performance had surprisingly little effect. Thus, primers with high or low percent G + C or Tm, strong secondary priming scores or long 3' homopolymeric stretches yielded excellent sequences with the dRhodamine dye terminator reagents, although these characteristics had a stronger effect when the old rhodamine reagents were used. The old rhodamine reagents gave sequences with a similar average read length, but the number of errors and ambiguities or "N's" was consistently higher. Moreover, the effects of the primer physico-chemical characteristics were also more evident with the old rhodamine dyes. We conclude that under optimal sequencing conditions with highly pure template and primer, many of the commonly applied primer design parameters are dispensable, particularly when using one of the new generation of sequencing reagents such as the dichlororhodamine dye terminators.     

DNA Sequencing Directly from a Mixture Using Terminal-Base-Selective Primers

DNA cloning is often used to select and amplify one DNA speciesfrom a mixture. However, the cloning process is complex andlabor-intensive. We have developed a new two-step method forDNA sequencing directly from a mixture. The first is the introductionof a known oligonucleotide (common part) into the terminus ofunknown DNA by ligation. The second is selective DNA sequencingusing primers with two additional nucleotides at the 3' terminusin addition to the common part (terminal-base-selective primers).The primers work only for templates on which the primers perfectlyhybridized. This method was found to be effective for the HindIIIdigestion products of phage.     

Multiplex random priming of internal restriction fragments for DNA sequencing.

An approach for DNA sequencing is described that circumvents the need for synthetic oligonucleotide primers, which seriously restrict the progress of DNA sequencing in the commonly used protocol. The method is based on the use of short restriction fragments as primers randomly distributed along single-stranded templates. Premapping of target DNA is eliminated and subcloning manipulation is minimized. This method has been used successfully for sequencing genes in the range of 2 kb, for which about 10 restriction fragment primers per kilobase were sufficient to generate a continuous overlapping sequence in alignment. The approach has also been readily applied for an automated sequencing system with the fluorescent chain-terminating dideoxynucleotides, thus implying its potential for sequencing large genomic DNAs.     

Direct Cloning and Sequencing of Bacterial Artificial Chromosome (BAC) Insert Ends Based on Double Digestion

Conventional digestion and ligation was developed into a novel and efficient approach for directly cloning and sequencing the two ends of bacterial artificial chromosome (BAC) clone inserts. Most BAC vectors have two Not I sites. This end isolation method is based on double digestion of the BAC clone DNA with Not I and any blunt-end restriction enzyme for which there is not a restriction site located within the small fragment (containing the cloning site) between the two Not I sites on the BAC vector. Digestion is followed by ligation of the double-digested mixture with a suitable plasmid vector. The pBeloBAC11 and pBlueScriptII SK vectors were used in the present study. The two ends of the BAC insert can be amplified and sequenced with three specific primers, i.e., amplification of the left end with the pBeloBAC11 LF1 and pBlueScriptII KS primers, and the right end with the pBeloBAC11 RR4 and KS primers. They may be directly recovered by transformation if the end fragments are used as probes. More significantly, this simple strategy generally can be applied to any BAC vector with any cloning site.     

A PCR-after-ligation method for cloning of multiple DNA inserts

Here we present a novel and simple PCR-after-ligation method for efficient assembly of multiple DNA inserts. After initial ligation of multiple inserts and vector, the ligation mixture is used as template for a PCR using a pair of primers flanking the cloning sites on the vector. The fragment with correct size is gel purified and inserted into the vector by conventional two-way ligation. With this method, a recombinant plasmid containing four DNA inserts was correctly constructed. As a control, all of the constructs obtained directly from DNA ligation were found to be self-ligation of the vector.     

The length of telomeric G-rich strand 3'-overhang measured by oligonucleotide ligation assay

A typical G-rich telomeric DNA strand, which runs 5'-->3' toward the chromosome ends, protrudes by several nucleotides in lower eukaryotes. In human chromosomes long G-rich 3'-overhangs have been found. Apart from the standard G-rich tail, several non-canonical terminal structures have been proposed. However, the mechanism of long-tail formation, the presence and the role of these structures in telomere maintenance or shortening are not completely understood. In a search for a simple method to accurately measure the 3'-overhang we have established a protocol based on the ligation of telomeric oligonucleotide hybridized to non-denatured DNA under stringent conditions (oligonucleotide ligation assay with telomeric repeat oligonucleotide). This method enabled us to detect a large proportion of G-rich single-stranded telomeric DNA that was as short as 24 nt. Nevertheless, we showed G-tails longer than 400 nt. In all tested cells the lengths ranging from 108 to 270 nt represented only 37% of the whole molecule population, while 56-62% were <90 nt. Our protocol provides a simple and sensitive method for measuring the length of naturally occurring unpaired repeated DNA.     

Direct sequencing of bacteriophage T4 DNA with a thermostable DNA polymerase

We present a simple and convenient protocol for the direct sequencing of bacteriophage T4 genomic DNA. The method utilizes the thermostable DNA polymerase from Thermus aquaticus (Taq) and 32P-end-labeled oligodeoxyribonucleotide primers to produce extension products that allow the analysis of at least 200 nucleotides (nt) on a single sequencing gel. Single-nt changes in the template were easily detectable following an overnight exposure of the autoradiograms. Comparison of sequences from fully modified T4 DNA containing glucosylated hydroxymethyldeoxycytosine or from templates containing cytosine showed little difference in sequence clarity. These techniques considerably simplify the molecular analysis of T-even bacteriophages and should be compatible with automated sequencing methods which employ 5'-end-labeled primers.     

Long PCR Product Sequencing (LoPPS): a shotgun-based approach to sequence long PCR products

Here we describe a practical procedure for sequencing long PCR products. The method relies on ultrasonic shearing of PCR products, resulting in fragments 700-1,000 nt long. Termini are subsequently repaired to obtain blunt ends and 3' A-overhangs are added before TA cloning. A predetermined number of clones are sequenced using an insert-independent primer to obtain an overlapping contig covering the full length of the PCR product. This method is cost effective and enables the complete sequencing of any large PCR product in a high-throughput format. Processing of amplified DNA requires 3 h handling time prior to the ligation step, and the clone library is available 2 d later. The complete sequence information is obtained approximately 5 d after the PCR step, depending on the sequencing procedure adopted.     

Sequence of 3000 nucleotides at the 5' end of Japanese encephalitis virus RNA

The 5' region of the Japanese encephalitis virus (JEV) RNA was cloned and 3000 nucleotides (nt) were determined by sequencing DNA complementary to viral RNA, and genomic RNA, using oligodeoxynucleotide primers and the dideoxy chain-termination reaction. Comparison of the nt sequence and the reduced amino-acid sequence of JEV with those of other flaviviruses showed significant homologies, which allowed locations to be assigned for three structural proteins.     

Quantitative bias in Illumina TruSeq and a novel post amplification barcoding strategy for multiplexed DNA and small RNA deep sequencing

Here we demonstrate a method for unbiased multiplexed deep sequencing of RNA and DNA libraries using a novel, efficient and adaptable barcoding strategy called Post Amplification Ligation-Mediated (PALM). PALM barcoding is performed as the very last step of library preparation, eliminating a potential barcode-induced bias and allowing the flexibility to synthesize as many barcodes as needed. We sequenced PALM barcoded micro RNA (miRNA) and DNA reference samples and evaluated the quantitative barcode-induced bias in comparison to the same reference samples prepared using the Illumina TruSeq barcoding strategy. The Illumina TruSeq small RNA strategy introduces the barcode during the PCR step using differentially barcoded primers, while the TruSeq DNA strategy introduces the barcode before the PCR step by ligation of differentially barcoded adaptors. Results show virtually no bias between the differentially barcoded miRNA and DNA samples, both for the PALM and the TruSeq sample preparation methods. We also multiplexed miRNA reference samples using a pre-PCR barcode ligation. This barcoding strategy results in significant bias.     

应用接头PCR克隆慢病毒介导的转基因小鼠整合位点旁侧序列

目的为鉴定慢病毒介导的转基因小鼠中外源基因的整合位点信息,应用接头PCR克隆整合位点旁侧序列。方法小鼠基因组总DNA酶解后与设计的接头片段连接,根据慢病毒的LTR序列设计巢式PCR引物,克隆转基因小鼠整合位点旁侧序列。结果成功克隆到转基因小鼠整合位点的旁侧序列,经过测序定位于小鼠染色体上。结论作为反向PCR的改进,本方法可用于转基因小鼠整合位点旁侧序列的克隆,为分析整合位点与外源基因表达之间的关系等提供了科学依据。     

Okazaki fragment maturation in yeast. I. Distribution of functions between FEN1 AND DNA2

In the presence of proliferating cell nuclear antigen, yeast DNA polymerase delta (Pol delta) replicated DNA at a rate of 40-60 nt/s. When downstream double-stranded DNA was encountered, Pol delta paused, but most replication complexes proceeded to carry out strand-displacement synthesis at a rate of 1.5 nt/s. In the presence of the flap endonuclease FEN1 (Rad27), the complex carried out nick translation (1.7 nt/s). The Dna2 nuclease/helicase alone did not efficiently promote nick translation, nor did it affect nick translation with FEN1. Maturation in the presence of DNA ligase was studied with various downstream primers. Downstream DNA primers, RNA primers, and small 5'-flaps were efficiently matured by Pol delta and FEN1, and Dna2 did not stimulate maturation. However, maturation of long 5'-flaps to which replication protein A can bind required both DNA2 and FEN1. The maturation kinetics were optimal with a slight molar excess over DNA of Pol delta, FEN1, and proliferating cell nuclear antigen. A large molar excess of DNA ligase substantially enhanced the rate of maturation and shortened the nick-translation patch (nucleotides excised past the RNA/DNA junction before ligation) to 4-6 nt from 8-12 nt with equimolar ligase. These results suggest that FEN1, but not DNA ligase, is a stable component of the maturation complex.     

Detection of mitochondrial DNA deletion by a modified PCR method in a 60Co radiation-exposed patient

A new PCR based method was developed to detect deleted mitochondrial DNA (mtDNA). Peripheral blood cell DNA was obtained from a victim who was accidently exposed to a 60Co radiation source in 1990. Using the DNA as template, first PCR was performed to generate multiple products including true deletions and artifacts. The full length product was recovered and used as template of secondary PCR. The suspicious deletion product of mtDNA could be confirmed only if it was yielded by first PCR. Using either original primers or their nested primers, the suspicious deletion product was amplified and authenticated as a true deletion product. The template was recovered and determined to be a deletion by sequencing directly. The results show that a new mtDNA deletion, which spans 889 bp from nt 11688 to nt 12576, was detected in the peripheral blood cells of the victim. It indicates that this new PCR-based method was more efficient at detecting small populations of mtDNA deletion than other routine methods. MtDNA deletion was found in the victim, suggesting the relationship between the deletion and phenotypes of the disease.     

一种单核苷酸多态性的单倍型分析技术

运用多步PCR和测序技术,完成基因组中相距较远的单核苷酸多态位点的单倍型构建。通过设计2条等位基因特异性引物,扩增大片段DNA(10kb左右),以此大片段DNA作为下一轮PCR反应的模板,再在该片段中设计待检测区域的PCR引物,进行第2轮PCR。对PCR产物进行测序分析,确定其多态位点处的等位基因。结合第1轮PCR中的等位基因特异性引物,即可确定该大片段DNA中不同单核苷酸多态性构成的单倍型。以脂蛋白脂酶基因为例,应用其启动子区以及第4外显子区的等位基因特异性引物扩增约16kb的DNA片段,然后检测位于该片段中第2、3外显子的多态性。在￡-尸￡-基因第2内含子中发现了 13557G→A多态性。经分析确定出-421G／ 13557G／ 15222A、-421A／ 13557G／ 15222A、-421G／ 13557G／ 15222G、-421G／ 13557A／ 15222A等4种单倍型。等位基因特异性PCR结合小片段测序是一种快捷高效的对相距较远的多个SNP进行单倍型构建的新策略。     

PCR and DNA sequencing

Specific DNA segments defined by the sequence of two oligonucleotides can be enzymatically amplified up to a millionfold using the polymerase chain reaction (PCR). One of the most significant uses of this technique is for generation of sequencing templates, either from cloned inserts or directly from genomic DNA. To avoid the problem of reassociation of the linear DNA strands in the sequencing reaction, ssDNA templates can be produced directly in the PCR or generated directly from dsDNA by enzymatic treatment, electrophoretic separation or affinity purification. By combining PCR with direct sequencing, both the amplification and the sequencing reaction can be performed in the same vial. Finally, use of fluorescently labeled terminators or sequencing primers will allow the whole procedure to be amenable to complete automation.