Use of arbitrarily primed polymerase chain reaction to differentiate Trichophyton dermatophytes

Abstract Dermatophytes such as Trichophyton species are common human pathogens, the infection of which results in dermatophytosis (also known as ringworm). Several laboratory tests are used routinely for the diagnosis of dermatophytosis, but they are either slow or lacking specificity. Through examination of genomic DNA from Trichophyton dermatophytes and other fungi in arbitrarily primed PCR, it was shown that a random primer 5'-ACCCGACCTG-3' produced bands of 4.3 kb, 1.9 kb, 1.7 kb and 0.7 kb in T. rubrum DNA, bands of 2.5 kb, 1.9 kb and 0.8 kb in T. mentagrophytes var. interdigitale and T. mentagrophytes var. mentagrophytes DNA, and bands of 2.5 kb, 1.9 kb, 1.5 kb and 0.9 kb in T. tonsurans DNA. This primer amplified bands of different sizes in other fungal DNA. Therefore, based on the distinct band patterns observed in arbitrarily primed PCR using this primer, T. rubrum , T. mentagrophytes and T. tonsurans dermatophytes could be rapidly differentiated.     

Ligation-independent cloning of PCR products (LIC-PCR).

A new procedure has been developed for the efficient cloning of complex PCR mixtures, resulting in libraries exclusively consisting of recombinant clones. Recombinants are generated between PCR products and a PCR-amplified plasmid vector. The procedure does not require the use of restriction enzymes, T4 DNA ligase or alkaline phosphatase. The 5'-ends of the primers used to generate the cloneable PCR fragments contain an additional 12 nucleotide (nt) sequence lacking dCMP. As a result, the amplification products include 12-nt sequences lacking dGMP at their 3'-ends. The 3'-terminal sequence can be removed by the action of the (3'----5') exonuclease activity of T4 DNA polymerase in the presence of dGTP, leading to fragments with 5'-extending single-stranded (ss) tails of a defined sequence and length. Similarly, the entire plasmid vector is amplified with primers homologous to sequences in the multiple cloning site. The vector oligos have additional 12-nt tails complementary to the tails used for fragment amplification, permitting the creation of ss-ends with T4 DNA polymerase in the presence of dCTP. Circularization can occur between vector molecules and PCR fragments as mediated by the 12-nt cohesive ends, but not in mixtures lacking insert fragments. The resulting circular recombinant molecules do not require in vitro ligation for efficient bacterial transformation. We have applied the procedure for the cloning of inter-ALU fragments from hybrid cell-lines and human cosmid clones.     

Rapid amplification of 5' complementary DNA ends (5' RACE)

This method is used to extend partial cDNA clones by amplifying the 5' sequences of the corresponding mRNAs 1-3. The technique requires knowledge of only a small region of sequence within the partial cDNA clone. During PCR, the thermostable DNA polymerase is directed to the appropriate target RNA by a single primer derived from the region of known sequence; the second primer required for PCR is complementary to a general feature of the target-in the case of 5' RACE, to a homopolymeric tail added (via terminal transferase) to the 3' termini of cDNAs transcribed from a preparation of mRNA. This synthetic tail provides a primer-binding site upstream of the unknown 5' sequence of the target mRNA. The products of the amplification reaction are cloned into a plasmid vector for sequencing and subsequent manipulation.     

Random priming PCR strategy to amplify and clone trace amounts of DNA

Here we report a new methodology to study trace amounts of DNA of unknown sequence using a two-step PCR strategy to amplify and clone target DNA. The first PCR is carried out with a partial random primer comprised of a specific 21-nucleotide 5' sequence, a random heptamer, and a 3' TGGC clamp. The second PCR is carried out with a single 19-nucleotide primer that matches the specific 5' sequence of the partial random primer. Using human and Mycoplasma genitalium DNA as examples, we demonstrated the efficiency of this approach by effectively cloning target DNA fragments from 1 pg DNA sample. The cloning sensitivity could reach 100 fg target DNA templates. Compared to the strategy of first adding adapter sequences to facilitate the PCR amplification of unknown sequences, this approach has the advantage of allowing for the amplification of DNA samples in both natural and denatured forms, which provides greater flexibility in sample preparation. This is an efficient strategy to retrieve sequences from trace DNA samples from various sources.     

Direct and crossover PCR amplification to facilitate Tn5supF-based sequencing of lambda phage clones.

The 264 bp mini-transposon Tn5supF was constructed to sequence DNAs cloned in phage lambda without extensive shotgun subcloning or primer walking. Unique sequences near each transposon end serve as primer binding sites, and a supF gene is used to select transposition to lambda. We describe here PCR methods that facilitate Tn5supF-based sequencing. In a first pass, insertions are mapped relative to the ends of the cloned fragment using pairs of primers specific for vector DNA next to the cloning site and for a Tn5supF end. Most insertions not mapped in this step are near the center of the cloned fragment or in the vector arms, and are then mapped relative to the two innermost insertions by 'crossover' PCR. This involves amplification from primers on different DNA molecules, and generates hybrid DNA products whose lengths correspond to the distances between the two insertions. We routinely amplified more than 6 kb in direct PCR and 3 kb in crossover PCR; at the limit we amplified up to approximately 10 kb in direct PCR and approximately 6 kb in crossover PCR, but not reproducibly. Crossover PCR products were also obtained with insertions separated by only 200 bp, indicating that no rare sites are needed to switch templates. PCR products were purified by adsorption and then elution from glass slurry, and sequenced directly. Ladders of more than 400 bp were obtained from primer sites on each DNA strand; 2 kb was read from crossover PCR products, and showed that they were amplified with fidelity. In conclusion, direct and crossover PCR methods expedite transposon insertion mapping, and yield templates for accurate sequencing of both DNA strands.     

Construction of tandem repeats of DNA fragments by a polymerase chain reaction-based method

We describe a new application of megaprimer polymerase chain reaction (PCR) for constructing a tandemly repeated DNA sequence using the drought responsive element (DRE) from Arabidopsis thaliana as an example. The key feature in the procedure was PCR primers with partial complementarity but differing melting temperatures (T(m)). The reverse primer had a higher T(m), a 3' end complementary to the DRE sequence and a 5' region complementary to the forward primer. The initial cycles of the PCR were conducted at a lower primer annealing temperature to generate products that served as megaprimers in the later cycles conducted at a higher temperature to prevent annealing of the forward primer. The region of overlap between the megaprimers was extended for generating products with a variable copy number (one to four copies) of tandem DRE sequence repeats (71?bp). The PCR product with four tandem repeats (4× DRE) was used as a template to generate tandem repeats with higher copies (copy number large than four) or demonstrated to bind DRE-binding protein in an yeast one-hybrid assay using promotorless reporter genes (HIS and lacZ). This PCR protocol has numerous applications for generating DNA fragments of repeated sequences.     

A modified cDNA subtraction to identify differentially expressed genes from plants with universal application to other eukaryotes

We have designed a simple and efficient polymerase chain reaction (PCR)-based cDNA subtraction protocol for high-throughput cloning of differentially expressed genes from plants that can be applied to any experimental system and as an alternative to DNA chip technology. Sequence-independent PCR-amplifiable first-strand cDNA population was synthesized by priming oligo-dT primer with a defined 5' heel sequence and ligating another specified single-stranded oligonucleotide primer on the 3' ends of first-strand cDNAs by T4 RNA ligase. A biotin label was introduced into the sense strands of cDNA that must be subtracted by using 5' biotinylated forward primer during PCR amplification to immobilize the sense strand onto the streptavidin-linked paramagnetic beads. The unamplified first strand (antisense) of the interrogating cDNA population was hybridized with a large excess of amplified sense strands of control cDNA. We used magnetic bead technology for the efficient removal of common cDNA population after hybridization to reduce the complexity of the cDNA prior to PCR amplification for the enrichment and sequence abundance normalization of differentially expressed genes. Construction of a subtracted and normalized cDNA library efficiently eliminates common abundant cDNA messages and also increases the probability of identifying clones differentially expressed in low-abundance cDNA messages. We used this method to successfully isolate differentially expressed genes from Pennisetum seedlings in response to salinity stress. Sequence analysis of the selected clones showed homologies to genes that were reported previously and shown to be involved in plant stress adaptation.     

Sequence specific generation of a DNA panhandle permits PCR amplification of unknown flanking DNA.

We present a novel method for the PCR amplification of unknown DNA that flanks a known segment directly from human genomic DNA. PCR requires that primer annealing sites be present on each end of the DNA segment that is to be amplified. In this method, known DNA is placed on the uncharacterized side of the sequence of interest via DNA polymerase mediated generation of a PCR template that is shaped like a pan with a handle. Generation of this template permits specific amplification of the unknown sequence. Taq (DNA) polymerase was used to form the original template and to generate the PCR product. 2.2 kb of the beta-globin gene, and 657 bp of the 5' flanking region of the cystic fibrosis transmembrane conductance regulator gene, were amplified directly from human genomic DNA using primers that initially flank only one side of the region amplified. This method will provide a powerful tool for acquiring DNA sequence information.     

Complete exon-intron organization of the human leukocyte common antigen (CD45) gene

Ten genomic DNA clones encoding the human leukocyte common Ag (LCA, CD45) gene were isolated by screening human genomic DNA libraries with LCA cDNA probes. One genomic DNA clone contains the promoter region and the first two exons, as determined by primer extension analyses and S1 nuclease protection studies as well as nucleotide sequence determination. The first exon does not encode a peptide, while the second exon contains the initiation ATG codon and encodes the signal peptide. The other nine genomic DNA clones, which are separated from the first genomic clone by an unknown distance, are connected and span a total of 73 kb. The nine connected genomic clones encode a total of 31 exons. The 33 exons encoded by these 10 genomic clones account for the entire cDNA sequences including the 5' and 3' untranslated sequences. Exon 3 and exons 7 through 15 encode the extracellular domain sequences that are common to all LCA isoforms. Differential usage of exons 4, 5, and 6, generates at least five distinct LCA isoforms. Exon 16 encodes the transmembrane peptide. The cytoplasmic region of the leukocyte common antigens is composed of two homologous domains. Exons 17 through 24 encode the first domain, and exons 25 through 32 encode the second domain. The comparison of these exons indicated that the homologous domains were generated by duplication of several exons. The most 3' exon (exon 33) encodes the carboxy terminus of the LCA molecules and includes the entire 3' untranslated sequence.     

应用RD-PCR技术制备HIV基因芯片探针

利用限制性显示 (RD PCR)技术快速分离HIV 1基因片段制备DNA芯片探针 .以Sau3AⅠ酶切HIV基因 ,得到许多大小适合芯片的限制性酶切片段 .然后在片段两端接上接头 ,根据酶切位点、接头的序列设计通用引物 .在该通用引物的 3′端分别延伸一个碱基后 ,通过引物间的两两组合 ,将PCR反应分成 10个亚组 .纯化各组PCR产物 ,克隆到T载体上 .阳性克隆经鉴定、扩大培养后提取质粒 .以质粒为模板扩增靶片段并进行序列分析 .每个亚型得到了十几个 10 0～ 10 0 0bp的HIV基因片段 .研究表明 ,RD PCR技术是一种有效的快速制备基因芯片探针的方法     

A method for the rapid sequence-independent amplification of microdissected chromosomal material

We have developed a simple, efficient method by which microdissected material can be amplified directly in the collection container in a few hours. The procedure involves two initial rounds of DNA synthesis with T7 DNA polymerase, using a primer that contains a random pentanucleotide sequence at its 3' end and a defined sequence at its 5' end, followed by PCR amplification with the defined sequence as the primer. The resulting products can be biotinylated and used for fluorescence in situ hybridization (FISH) to confirm their chromosomal location. As few as 17 dissected chromosomal regions provide sufficient material for a specific FISH signal on the appropriate band of metaphase chromosomes. We have obtained a chromosome 6q25-qter-specific painting probe in this way.     

Cloning and stable maintenance of DNA fragments over 300 kb in Escherichia coli with conventional plasmid-based vectors.

Bacterial artificial chromosome (BAC) and P1-derived artificial chromosome (PAC) systems were previously developed for cloning of very large eukaryotic DNA fragments in bacteria. We report the feasibility of cloning very large fragments of eukaryotic DNA in bacteria using conventional plasmid-based vectors. One conventional plasmid vector (pGEM11), one conventional binary plasmid vector (pSLJ1711) and one conventional binary cosmid vector (pCLD04541) were investigated using the widely used BAC (pBeloBAC11 and pECBAC1) and BIBAC (BIBAC2) vectors as controls. The plasmid vector pGEM11 yielded clones ranging in insert sizes from 40 to 100 kb, whereas the two binary vectors pCLD04541 and pSLJ1711 yielded clones ranging in insert sizes from 40 to 310 kb. Analysis of the pCLD04541 and pSLJ1711 clones indicated that they had insert sizes and stabilities similar to the BACs and BIBACs. Our findings indicate that conventional plasmid-based vectors are capable of cloning and stably maintaining DNA fragments as large as BACs and PACs in bacteria. These results suggest that many existing plasmid-based vectors, including plant and animal transformation and expression binary vectors, could be directly used for cloning of very large eukaryotic DNA fragments. The pCLD04541 and pSLJ1711 clones were shown to be present at at least 4-5 copies/cell. The high stability of these clones indicates that stability of clones does not seem contingent on single-copy status. The insert sizes and the copy numbers of the pCLD04541 and pSLJ1711 clones indicate that Escherichia coli can stably maintain at least 1200 kb of foreign DNA per cell. These results provide a new conceptual and theoretical basis for development of improved and new vectors for large DNA fragment cloning and transformation. According to this discovery, we have established a system for large DNA fragment cloning in bacteria using the two binary vectors, with which several very large-insert DNA libraries have been developed.     

Uracil DNA glycosylase-mediated cloning of polymerase chain reaction-amplified DNA: application to genomic and cDNA cloning.

A simple and rapid method for cloning of amplification products directly from the polymerase chain reaction (PCR) has been developed. The method is based on the addition of a 12-base dUMP-containing sequence (CUACUACUACUA) to the 5' end of PCR primers. Incorporation of these primers during PCR results in the selective placement of dUMP residues into the 5' end of amplification products. Selective degradation of the dUMP residues in the PCR products with uracil DNA glycosylase (UDG) disrupts base pairing at the termini and generates 3' overhangs. Annealing of 3' protruding termini to vector DNA containing complementary 3' ends results in chimeric molecules which can be transformed, with high efficiency, without in vitro ligation. Directional cloning of PCR products has also been accomplished by incorporating different dU-containing sequences at the end of each PCR primer. Substitution of all dT residues in PCR primers with dU eliminates cloning of aberrant "primer dimer" products and enriches cloning of genuine PCR products. The method has been applied to cloning of inter-Alu DNA sequences from human placental DNA. Using a single primer, DNA sequences between appropriately oriented Alu sequences were amplified and cloned. Cloning of cDNA for the glyceraldehyde-3'-phosphate dehydrogenase gene from rat brain RNA was also demonstrated. The 3' end region of this gene was amplified by the 3' RACE method and the amplified DNA was cloned after UDG digestion. Characterization of cloned DNAs by sequence analysis showed accurate repair of the cloning junctions. The ligase-free cloning method with UDG should prove to be a widely applicable procedure for rapid cloning of PCR-amplified DNA.     

Construction of yeast artificial chromosome (YAC) clone banks covering three genome equivalents and isolation of YACs containing the human gene encoding tumor necrosis factor receptor β

Yeast artificial chromosome (YAC) banks covering in total about three haploid genome equivalents were constructed using a human Epstein-Barr-virus-transformed B lymphocytic cell line. Two clone banks were made: 20 000 clones with average inserts of 350 kb in the pYAC4 vector and 9850 clones with average inserts of 180 kb using vectors pJS89 and pJS91. Direct comparison of pYAC4 with pJS89 and pJS91 showed pYAC4 to be the most suitable cloning vector. Two partial banks with average insert sizes of 220 kb for human endothelial cell DNA and epithelial HEp2 cell DNA were also constructed, each covering 10% of the haploid genome. A rapid, three-step PCR screening procedure for isolation of individual YAC clones was developed and used to identify two clones encoding TNF-Rβ. These clones cover about 200 kb and have 170 kb in common. TNF-Rβ is 9.3 kb long and contains two introns within the protein-coding sequence.     

A genomic library-based amplification approach (GL-PCR) for the mapping of multiple IS6110 insertion sites and strain differentiation of Mycobacterium tuberculosis

Evidence suggests that insertion of the IS6110 element is not without consequence to the biology of Mycobacterium tuberculosis complex strains. Thus, mapping of multiple IS6110 insertion sites in the genome of biomedically relevant clinical isolates would result in a better understanding of the role of this mobile element, particularly with regard to transmission, adaptability and virulence. In the present paper, we describe a versatile strategy, referred to as GL-PCR, that amplifies IS6110-flanking sequences based on the construction of a genomic library. M. tuberculosis chromosomal DNA is fully digested with HincII and then ligated into a plasmid vector between T7 and T3 promoter sequences. The ligation reaction product is transformed into Escherichia coli and selective PCR amplification targeting both 5' and 3' IS6110-flanking sequences are performed on the plasmid library DNA. For this purpose, four separate PCR reactions are performed, each combining an outward primer specific for one IS6110 end with either T7 or T3 primer. Determination of the nucleotide sequence of the PCR products generated from a single ligation reaction allowed mapping of 21 out of the 24 IS6110 copies of two 12 banded M. tuberculosis strains, yielding an overall sensitivity of 87,5%. Furthermore, by simply comparing the migration pattern of GL-PCR-generated products, the strategy proved to be as valuable as IS6110 RFLP for molecular typing of M. tuberculosis complex strains. Importantly, GL-PCR was able to discriminate between strains differing by a single IS6110 band.     

油菜单显性核雄性不育基因的分子标记

以陕西省杂交油菜研究中心选育的单显性核不育油菜分离群体为材料,利用集群分离法（BSA）对该油菜单显性核不育基因进行了RAPD分析。在随机选取的300个10碱基随机引物中,引物S243（5′CTATGCCGAC3′）在可育集团与不育集团间扩增出特异而可重复的1．5kb的多态性片段OPU-031500,而在细胞质雄性不育和其它核不育类型油菜中均未扩增出上述特异性片段,从而确证此RAPD标记OPU-031500。片段是与甘蓝型油菜单显性核不育基因连锁的。将该多态性片段克隆并测序,发现其序列与拟南芥的一段DNA序列高度同源。根据同源序列及测序结果设计两对特异引物（P1／P2和P3／P4）,引物P3／P4在可育系中可扩增到约1．5kb的单一特异片断,而在不育系中无带,从而将RAPD标记转化为稳定可靠的SCAR标记。