Generation of linear expression constructs by one-step PCR with vaccinia DNA topoisomerase I

Linear expression constructs can facilitate gene function studies. We describe a method to generate linear expression constructs for mammalian cells by one-step polymerase chain reaction (PCR) with vaccinia DNA topoisomerase I (TOPO). Cytomegalovirus (CMV) 5′ promoter, the gene of interest, and V5 bovine growth hormone (BGH) polyA 3′ terminator elements were PCR-amplified with target-specific primers containing vaccinia DNA TOPO-specific sequence and complementary sequence to each other. We amplified specific and complementary sequences. These three elements were directionally joined with vaccinia TOPO. The joined products were then directly transfected into Chinese hamster ovary cells. Compared with the transfection of supercoiled plasmids, comparable expression signals were obtained for green fluorescent protein, chloramphenicol acetyltransferase, and β-galactosidase proteins using Western blots. This is a quick and efficient method to generate linear expression construct. Unlike Invitrogen TOPO Tools, our method avoided the secondary round of PCR and more rapidly yielded correct joining products. This method can be easily used in the function test of uncharacterized open reading frames.     

A new genotyping method for detecting low abundance single nucleotide mutations based on gap ligase chain reaction and quantitative PCR assay

We tested applicability of a new genotyping technique to detect a low abundance CD17 (A → T) mutation of β-globin gene. The technique utilized a combined gap ligase chain reaction (Gap-LCR) and quantitative PCR (qPCR) methods. One pair of Gap-LCR primers was modified by adding specific sequences to the 5′ end of the upstream and the 3′ end of the downstream primer which served as a combining sequence for qPCR. First, specific mutation is detected using Gap-LCR; then, ligation products are detected by qPCR. Our results show that the amount of LCR products is directly proportional to the amount of template DNA. We further demonstrate that this technique detects a low abundance mutant DNA with a mutant/normal allele ratio as low as 1:10000. This technique was applied to detect a paternally inherited CD17 mutation from 53 maternal plasma samples. The results were consistent with those obtained by PCR/reverse dot blot of amniotic fluid cell DNA. In conclusion, by combining Gap-LCR and qPCR technology we successfully established a highly sensitive technique to detect low abundance point mutations. This technique can be applied to detect fetal DNA point mutation in maternal plasma.     

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.     

应用亚硫酸氢盐修饰后PCR联合TA克隆测序对E-cadherin启动子区甲基化水平的检测

E-cadherin是一种细胞粘附因子,通过增强细胞之间的粘附而起到抑制肿瘤转移的作用.Ecadherin基因启动子区的高甲基化是导致其在众多肿瘤细胞中表达下调甚至缺失的主要原因之一.本实验首先抽提SGC-7901细胞(胃腺癌细胞)、A549细胞(肺腺癌细胞)、MCF-7细胞(乳腺癌细胞)等3个肿瘤细胞株的全基因组DNA,然后对抽提的DNA进行亚硫酸氢盐修饰和纯化回收,根据修饰后的DNA序列设计引物并对其进行PCR扩增.然后将PCR扩增产物与pUC-T TA载体连接并转化入感受态大肠杆菌DH5α中进行培养,对筛选出的含有阳性重组子的菌落进行测序.测序结果显示,3个肿瘤细胞株的E-cadherin基因启动子区的CpG岛都呈现了高度的甲基化,亚硫酸氢盐的修饰效率达到了99.2%.综上研究表明,亚硫酸氢盐修饰后PCR(BSP)联合TA克隆测序可以对肿瘤细胞某基因启动子区CpG岛的甲基化水平进行精确量化,研究所使用的3个肿瘤细胞株均可作为研究肿瘤细胞E-cadherin基因甲基化的细胞模型.     

Directional cloning of native PCR products with preformed sticky ends (Autosticky PCR)

A novel method for the directional cloning of native PCR products was developed. Abasic sites in DNA templates make DNA polymerases stall at the site during synthesis of the complementary strand. Since the 5′ ends of PCR product strands contain built-in amplification primers, abasic sites within the primers result in the formation of 5′ single-stranded overhangs at the ends of the PCR product, enabling its direct ligation to a suitably cleaved cloning vector without any further modification. This “autosticky PCR” (AS-PCR) overcomes the problems caused by end sensitivity of restriction enzymes, or internal restriction sites within the amplified sequences, and enables the generation of essentially any desired 5′ overhang. Received: 11 August 1998 / Accepted: 2 October 1998     

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.     

使用与Gateway技术兼容的T载体获得入门克隆

与Gateway技术兼容的农杆菌双元载体系统已开始应用于植物功能基因组的研究,但应用这些载体系统的一个瓶颈问题,是如何简单、经济和高效地将PCR产物或其他来源的目的DNA片段构建到入门载体上获得入门克隆.为此,将传统的TA克隆技术与Gateway重组克隆技术进行整合,构建了与Gateway技术兼容的两种TA克隆载体,用于在克隆PCR产物或其他来源的目的DNA片段的同时获得入门克隆.利用兼容Gateway技术的TA克隆载体有效地解决了上述瓶颈问题.     

Positive-selection and ligation-independent cloning vectors for large scale <Emphasis Type="Italic">in Planta</Emphasis> expression for plant functional genomics

Transient expression is an easy, rapid and powerful technique for producing proteins of interest in plants. Recombinational cloning is highly efficient but has disadvantages, including complicated, time consuming cloning procedures and expensive enzymes for large-scale gene cloning. To overcome these limitations, we developed new ligationindependent cloning (LIC) vectors derived from binary vectors including tobacco mosaic virus (pJL-TRBO), potato virus X (pGR106) and the pBI121 vector-based pMBP1. LIC vectors were modified to enable directional cloning of PCR products without restriction enzyme digestion or ligation reactions. In addition, the ccdB gene, which encodes a potent cell-killing protein, was introduced between the two LIC adapter sites in the pJL-LIC, pGR-LIC, and pMBP-LIC vectors for the efficient selection of recombinant clones. This new vector does not require restriction enzymes, alkaline phosphatase, or DNA ligase for cloning. To clone, the three LIC vectors are digested with SnaBI and treated with T4 DNA polymerase, which includes 3′ to 5′ exonuclease activity in the presence of only one dNTP (dGTP for the inserts and dCTP for the vector). To make recombinants, the vector plasmid and the insert PCR fragment were annealed at room temperature for 20 min prior to transformation into the host. Bacterial transformation was accomplished with 100% efficiency. To validate the new LIC vector systems, we were used to coexpressed the Phytophthora AVR and potato resistance (R) genes in N. benthamiana by infiltration of Agrobacterium. Coexpressed AVR and R genes in N. benthamiana induced the typical hypersensitive cell death resulting from in vivo interaction of the two proteins. These LIC vectors could be efficiently used for high-throughput cloning and laboratory-scale in planta expression. These vectors could provide a powerful tool for high-throughput transient expression assays for functional genomic studies in plants.     

Novel Strategies to Construct Complex Synthetic Vectors to Produce DNA Molecular Weight Standards

DNA molecular weight standards (DNA markers, nucleic acid ladders) are commonly used in molecular biology laboratories as references to estimate the size of various DNA samples in electrophoresis process. One method of DNA marker production is digestion of synthetic vectors harboring multiple DNA fragments of known sizes by restriction enzymes. In this article, we described three novel strategies—sequential DNA fragment ligation, screening of ligation products by polymerase chain reaction (PCR) with end primers, and “small fragment accumulation”—for constructing complex synthetic vectors and minimizing the mass differences between DNA fragments produced from restrictive digestion of synthetic vectors. The strategy could be applied to construct various complex synthetic vectors to produce any type of low-range DNA markers, usually available commercially. In addition, the strategy is useful for single-step ligation of multiple DNA fragments for construction of complex synthetic vectors and other applications in molecular biology field. Zhe Chen and Jianbing Wu contributed to this work equally.     

Reliable fusion PCR using Taq polymerases and pGEM-T easy vectors

We describe a reliable method for the production of fusion PCR products that can be used to transform the wild-type bacteria to replace target genes for mutagenesis studies. The relevant gene fragments and selective cassette are first amplified separately by PCR using primers that produce overlapping ends. As economic Taq DNA polymerase is disappointed in producing overlap ends due to adding an extra 3′-end ‘A’ base which potentially blocks the successful fusion of the amplified fragments, we use a new primer design strategy to overcome this disadvantage by introducing an additional ‘A’ base in the overlap primers. The amplified gene fragments were then separately cloned into a pGEM-T easy vector and re-amplified with the aid of a universal primer T7/SP6. This procedure enables performing nested PCR with the outmost primers in the fusion reaction to reliably splice the gene fragments into a single molecule with all sequences in the desired order.     

Global amplification of cDNA from limiting amounts of tissue. An improved method for gene cloning and analysis

In this study we present an improved polymerase chain reaction (PCR)-based methodology to generate large amounts of high-quality complementary DNA (cDNA) from small amounts of initial total RNA. Global amplification of cDNA makes it possible to simultaneously clone many cDNAs and to construct directional cDNA libraries from a sequence-abundance-normalized cDNA population, and also permits rapid amplification of cDNA ends (RACE), from a limited amount of starting material. The priming of cDNAs with an adapter oligo-deoxythymidine (oligo-dT) primer and the ligation of a modified oligonucleotide to the 3′ end of single-stranded cDNAs, through the use of T4 RNA ligase, generates known sequences on either end of the cDNA population. This helps in the global amplification of cDNAs and in the sequence-abundance normalization of the cDNA population through the use of PCR. Utilization of a long-range PCR enzyme mix to amplify the cDNA population helps to reduce bias toward the preferential amplification of shorter molecules. Incorporation of restriction sites in the PCR primers allows the amplified cDNAs to be directionally cloned into appropriate cloning vectors to generate cDNA libraries. RACE-PCR done with biotinylated primers and streptavidin-coated para-magnetic particles are used for the efficient isolation of either full-length coding or noncoding strands.     

Terminal restriction fragment length polymorphism monitoring of genes amplified directly from bacterial communities in soils and sediments

Terminal Restriction Fragment Length Polymorphism (T-RFLP) or Fluorescent Polymerase Chain Reaction/Restriction Fragment Length Polymorphism (FluRFLP) have made a significant impact on the way in which PCR products amplified from mixed community DNA extracts have been assessed. Technically, these approaches are essentially the same. PCR products are generated that contain at one 5′ end label, typically a fluorescent moiety, that will be detected by a DNA sequencing machine. Upon digestion using a specific restriction endonuclease, labeled and unlabeled fragments are generated. This restriction endonuclease is chosen such that following this digestion, each labeled fragment corresponds to a different sequence variant. During electrophoretic separation, the DNA sequencing machine detects only these labeled fragments and therefore detects only the sequence variants. The aim of this article is to describe the protocois and demonstrate that this profiling can be performed using different DNA sequencing machines. The analysis and applications of this approach are also discussed.     

Realizing directional cloning using sticky ends produced by 3′-5′ exonuclease of Klenow fragment

The Klenow fragment (KF) has been used to make the blunt end as a tool enzyme. Its 5′-3′ polymerase activity can extend the 5′ overhanging sticky end to the blunt end, and 3′-5′ exonuclease activity can cleave the 3′ overhanging sticky end to the blunt end. The blunt end is useful for cloning. Here, we for the first time determined that a sticky end can be made by using the 3′-5′ exonuclease activity of KF. We found that KF can cleave the blunt end into certain sticky ends under controlled conditions. We optimized enzyme cleavage conditions, and characterized the cleaved sticky ends to be mainly 2 nt 5′ overhang. By using these sticky ends, we realized ligation reaction in vitro, and accomplished cloning short oligonucleotides directionally with high cloning efficiency. In some cases, this method can provide sticky end fragments in large scale for subsequent convenient cloning at low cost.     

The development of a novel vector for construction of a full-length cDNA library

A new original vector pEM-(dT)₄₀(f+) has been prepared. It can be used for cDNA library construction from polyadenylated mRNA, isolated from various sources. The vector pGEM-(dT)₄₀f(+) is initially transformed into single stranded and then into a linear form and its (dT)₄₀ tail at the 3′-end is used as the vector-primer for synthesis of the first strand cDNA. The use of a synthetic oligonucleotide complementary to the vector and recombinant DNA results in vector circularization and synthesis of the second strand cDNA. This approach has the following advantages: (1) it significantly simplifies cDNA library construction, which includes three steps; (2) full-length cDNA library construction is achieved by adding a (dC)_n homopolymer tail to the 5′end; (3) preparation of a clone library requires a few milligrams of total RNA; (4) it is possible to obtain cDNA clones up to 10 kbp; (5) it does not require PCR reaction (which can induce artifact mutations in cDNA sequences); (6) this approach does not employ restrictase treatment and chimeric cDNA products are not formed.     

Characterization of an abundant short interspersed nuclear element (SINE) present in Canis familiaris

A short interspersed nuclear element (Can SINE) of ∼130–150 bp was cloned and characterized from Canis familiaris. We demonstrate that this element is interspersed, present approximately every 5–8.3 kbp, and many are sufficiently close to allow IRS (interspersed repetitive DNA sequences) PCR. Sequence analysis of >20 Can SINEs from the dog has identified a conserved region that was used to design oligonucleotides for IRS PCR. Since Can SINEs are not present in human or rodent genomes, IRS PCR using oligonucleotides directed to the conserved region of Can SINEs can be used to simplify analysis of canid DNA in somatic cell hybrids, as well as in large insert cloning vectors. We demonstrate that the canid IRS products are polymorphic and could be developed as genetic markers for filter-based genotyping in this organism. Received: 23 July 1997 / Accepted: 9 September 1997     

Lambda Chops: Creation of Site-Directed Mutants in Insertable Fragments Utilizing Gateway<Superscript>®</Superscript> Technology

We describe a method to produce site-directed mutations anywhere within cDNA by assembling mutagenized PCR fragments in proper orientation using lambda integration in an extension of Gateway technology to yield a full-length mutated gene. This process exploits the directionality of lambda insertion sequences ensuring integration and directionality of PCR product into a cloning vector. The process requires only two sequential integration steps to yield a mutagenized expression vector. Mutagenized vasodilator associated phosphoprotein (VASP) was produced by generating two PCR fragments representing the upstream and downstream portions of the gene, substituting alanine or glutamate residues for VASP serine239. The upstream PCR was engineered with attB1 lambda integration sequences at the 5′ region and attB2 at the 3′ region of the downstream fragment to ensure correct orientation. The desired mutation was encoded by the forward primer of fragment 2. The reverse primer of the fragment 1 was phosphorylated for subsequent ligation. Vent polymerase provided sequence accuracy and blunt-ended product. The first integration into a donor vector, catalyzed by BP Clonase II created a linear product circularized by blunt end ligation, yielding hundreds of entry vectors containing the mutagenized VASP. A second integration into destination vector yielded plasmid expressing mutant VASP upon transfection.     

Cloning, sequencing and expression of cDNA encoding growth hormone from Indian catfish (Heteropneustes fossilis)

A tissue-specific cDNA library was constructed using polyA⁺ RNA from pituitary glands of the Indian catfishHeteropneustes fossilis (Bloch) and a cDNA clone encoding growth hormone (GH) was isolated. Using polymerase chain reaction (PCR) primers representing the conserved regions of fish GH sequences the 3′ region of catfish GH cDNA (540 bp) was cloned by random amplification of cDNA ends and the clone was used as a probe to isolate recombinant phages carrying the full-length cDNA sequence. The full-length cDNA clone is 1132 bp in length, coding for an open reading frame (ORF) of 603 bp; the reading frame encodes a putative polypeptide of 200 amino acids including the signal sequence of 22 amino acids. The 5′ and 3′ untranslated regions of the cDNA are 58 bp and 456 bp long, respectively. The predicted amino acid sequence ofH. fossils GH shared 98% homology with other catfishes. Mature GH protein was efficiently expressed in bacterial and zebrafish systems using appropriate expression vectors. The successful expression of the cloned GH cDNA of catfish confirms the functional viability of the clone.     

A novel simple and rapid PCR-based site-directed mutagenesis method

Site-directed mutagenesis (SDM) is a powerful tool for exploring protein structure and function, and several procedures adjusted to specific purposes are still being developed. Herein we describe a straightforward and efficient method with versatile applications for introducing site-specific alterations in any deoxyribonucleic acid (DNA) sequence cloned in a plasmidic expression vector. In this polymerase chain reaction (PCR)-based SDM method, forward and reverse primers are used to amplify the plasmid containing the sequence of interest. The primers are designed so that the desired modifications are introduced at the 5′ end of one of the primers, whereas the other primer starts with the nucleotide at position (−1) of the one to be modified. The PCR is carried out using Pfu DNA polymerase. The blunt-ended PCR-generated DNA fragment is self-ligated and used to transform Escherichia coli. Mutant clones are screened by colony hybridization using the mutagenic primer as probe and the presence of the mutation is confirmed by direct DNA sequencing. This procedure was used efficiently to introduce substitutions, deletions, and insertions in the DNA sequences coding for a recombinant form (scFv) of antibody 107 specific of the human CR3 molecule, the rat α integrin CD11b A-domain and the human CD8β cloned in pPICZαB, pGEX-2T, and CDM8 expression vectors, respectively.     

Rapid amplification of genomic DNA ends bynla III partial digestion and polynucleotide tailing

We report a simple and efficient method, which combines restriction endonuclease digestion and deoxynucleotide tailing, for cloning unknown genomic sequences adjacent to a known sequence. Total genomic DNA is partially digested with the frequent-cutting restriction enzymeNla III. A homo-oligomeric cytosine tail is added by terminal transferase. The tailed DNA fragments are used as the template for cloning flanking regions from all sequences of interest. A first round PCR amplification is performed with a gene-specific primer and the selective (modified polyguanine) anchor primer complementary to the cytosine tail and theNla III recognition site, with a universal amplification primer sequence at its 5′ end. This is followed by another PCR amplification with a nested gene-specific primer and the universal amplification primer. Finally, the amplified products are fractionated, cloned, and sequenced. Using this method, we cloned the upstream region of a salt-induced gene based upon a partial cDNA clone (RSC5-U) obtained from sunflower (Helianthus annuus L.).