PCR产物直接测序还是克隆测序?——密叶杉属rDNA ITS序列的测定方法

通过PCR产物直接测序和克隆测序对三种密叶杉属 (Athrotaxis)植物rDNA内转录间隔区 (ITS)及5 .8SrDNA序列进行了测定与分析。实验表明A .selaginoidesrDNA重复序列间的纯合程度很高 ,对PCR产物直接测序就可以测定其ITS区序列。而A .laxifolia、A .cupressoides的ITS1重复序列间的纯合程度较低 ,各重复单位间序列存在插入 /缺失 ,只有对PCR产物进行克隆测序才能确定其序列。A .laxi folia、A .cupressoides的ITS2区尽管也存在多态性 ,但不同重复序列的浓度比较平均 ,对PCR产物直接测序就可确定重复序列间的变异情况。本实验表明尽管是同一属的三种植物 ,但其rDNA重复序列间的纯合程度不同 ,同一植物ITS的不同区域 ,其重复序列间的纯合程度也不同 ,针对不同的ITS片段可采用不同的方法以测定其序列。     

PCR产物直接测序还是克隆测序 密叶杉属rDNA ITS序列的测定方法

通过PCR产物直接测序和克隆测序对三种密叶杉属（Athrotaxis）植物rDNA内转录间隔区(ITS)及5.8 S rDNA序列进行了测定与分析。实验表明A. selaginoides rDNA重复序列间的纯合程度很高, 对PCR产物直接测序就可以测定其ITS区序列。而A. laxifolia、A. cupressoides的ITS1重复序列间的纯合程度较低,各重复单位间序列存在插入/缺失,只有对PCR产物进行克隆测序才能确定其序列。A. laxifolia、A. cupressoides的ITS2区尽管也存在 多态性,但不同重复序列的浓度比较平均,对PCR产物直接测序就可确定重复序列间的变异情况。本实验表明尽管是同一属的三种植物,但其rDNA重复序列间的纯合程度不同,同一植物ITS的不同区域,其重复序列间的纯合程度也不同,针对不同的ITS片段可采用不同的方法以测定其序列。     

A procedure for mapping Arabidopsis mutations using co-dominant ecotype-specific PCR-based markers

A set of mapping markers have been designed for Arabidopsis thaliana that correspond to DNA fragments amplifed by the polymerase chain reaction (PCR). The ecotype of origin of these amplified fragments can be determined by cleavage with a restriction endo-nuclease. Specifically, 18 sets of PCR primers were synthesized, each of which amplifies a single mapped DNA sequence from the Columbia and Landsberg erecta ecotypes. Also identifed was at least one restriction endonuclease for each of these PCR products that generates ecotype-specific digestion patterns. Using these co-dominant cleaved amplified polymorphic sequences (CAPS), an Arabidopsis gene can be unambiguously mapped to one of the 10 Arabidopsis chromosome arms in a single cross using a limited number of F₂ progeny.     

家蚕基因特异性CAPs标记获得及其分子系统学应用

选取家蚕attacin和alpha-amylase基因序列,设计特异性引物,在家蚕品系P50、C108和子一代 (F1) 中扩增。分别采用4种不同的限制性内切酶对扩增产物酶切,最后每个基因都获得了一个CAPs分子标记。依据所得的两个CAPs分子标记对12个品系的家蚕遗传多样性进行了初步研究,构建了其分子系统树。     

Targeted gene walking polymerase chain reaction.

We describe a modification of a polymerase chain reaction method called 'targeted gene walking' that can be used for the amplification of unknown DNA sequences adjacent to a short stretch of known sequence by using the combination of a single, targeted sequence specific PCR primer with a second, nonspecific 'walking' primer. This technique can replace conventional cloning and screening methods with a single step PCR protocol to greatly expedite the isolation of sequences either upstream or downstream from a known sequence. A number of potential applications are discussed, including its utility as an alternative to cloning and screening for new genes or cDNAs, as a method for searching for polymorphic sites, restriction endonuclease or regulatory regions, and its adaptation to rapidly sequence DNA of lengthy unknown regions that are contiguous to known genes.     

A multiplexing single nucleotide polymorphism typing method based on restriction-enzyme-mediated single-base extension and capillary electrophoresis

Millions of single nucleotide polymorphisms (SNPs) have been identified in recent years. This provides a great opportunity for large-scale association and population studies. However, many high-throughput SNP typing techniques require expensive and dedicated instruments, which render them out of reach for many laboratories. To meet the need of these laboratories, we here report a method that uses widely available DNA sequencer for SNP typing. This method uses a type II restriction enzyme to create extendable ends at target polymorphic sites and uses single-base extension (SBE) to discriminate alleles. In this design, a restriction site is engineered in one of the two polymerase chain reaction (PCR) primers so that the restriction endonuclease cuts immediately upstream of the targeted SNP site. The digestion of the PCR products generates a 5'-overhang structure at the targeted polymorphic site. This 5'-overhang structure then serves as a template for SBE reaction to generate allele-specific products using fluorescent dye-terminator nucleotides. Following the SBE, the allele-specific products with different sizes can be resolved by DNA sequencers. Through primer design, we can create a series of PCR products that vary in size and contain only one restriction enzyme recognition site. This allows us to load many PCR products in a single capillary/lane. This method, restriction-enzyme-mediated single-base extension, is demonstrated by typing multiple SNPs simultaneously for 44 DNA samples. By multiplexing PCR and pooling multiplexed reactions together, this method has the potential to score 50-100 SNPs/capillary/run if the sizes of PCR products are arranged at every 5-10 bases from 100 to 600 base range.     

Classification of rice germplasm. I. Analysis using ALP and PCR-based RFLP

The potential of using a PCR-based approach to detect DNA polymorphism for rice germplasm classification was compared with that of Southern-based RFLP analysis. Thirty-five Iranian rice varieties were studied along with 2 typical Indica and 3 typical Japonica varieties. Thirteen mapped RFLP markers were used as hybridization probes against Southern blots containing digests of one restriction endonuclease; 12 of the 13 probes detected polymorphism in the varieties. Fifteen sets of oligonucleotides derived from sequences near the ends of the same probes and of two other mapped probes were used as primers for PCR amplification of total genomic DNA of the varieties. Amplicon length polymorphisms (ALPs) were detected with 6 of the 15 sets of primers. To identify additional polymorphism, the PCR products were digested with nine different restriction endonucleases recognizing 4- or 5-bp DNA sequences and analyzed by gel electrophoresis in agarose and polyacrylamide. RFLPs were detected for 11 sets of primers, due to point mutations and to addition/deletion events that were too small to be detected as ALPs. Because PCR products are easily generated and may be analyzed in detail through the use of restriction endonucleases that cut rice DNA frequently, PCR-based RFLP analysis is a useful tool for the classification of rice germplasm.     

Re-usable DNA template for the polymerase chain reaction.

DNA covalently bound to an uncharged nylon membrane was used for consecutive amplifications of several different genes by PCR. Successful PCR amplifications were obtained for membrane-bound genomic and plasmid DNA. Membrane-bound genomic DNA templates were re-used at least 15 times for PCR with specific amplification of the desired gene each time. PCR amplifications of specific sequences of p53, p16, CYP1A1, CYP2D6, GSTM1 and GSTM3 were performed independently on the same strips of uncharged nylon membrane containing genomic DNA. PCR products were subjected to restriction fragment length polymorphism analysis, single-strand conformational polymorphism analysis and/or dideoxy sequencing to confirm PCR-amplified gene sequences. We found that PCR fragments obtained by amplification from bound genomic DNA as template were identical in sequence to those of PCR products obtained from free genomic DNA in solution. PCR was performed using as little as 5 ng genomic or 4 fg plasmid DNA bound to membrane. These results suggest that DNA covalently bound to membrane can be re-used for sample-specific PCR amplifications, providing a potentially unlimited source of DNA for PCR.     

Evaluation of “sequence-tagged-site” PCR products as molecular markers in wheat

The polymerase chain reaction (PCR) is an attractive technique for many genome mapping and characterization projects. One PCR approach which has been evaluated involves the use of randomly amplified polymorphic DNA (RAPD). An alternative to RAPDs is the sequence-tagged-site (STS) approach, whereby PCR primers are designed from mapped low-copy-number sequences. In this study, we sequenced and designed primers from 22 wheat RFLP clones in addition to testing 15 primer sets that had been previously used to amplify DNA sequences in the barley genome. Our results indicated that most of the primers amplified sequences that mapped to the expected chromosomes in wheat. Additionally, 9 of 16 primer sets tested revealed polymorphisms among 20 hexaploid wheat genotypes when PCR products were digested with restriction enzymes. These results suggest that the STS-based PCR analysis will be useful for generation of informative molecular markers in hexaploid wheat.Contribution no. J-2833 of the Montana Agric Exp Stn     

Highly polymorphic STR marker amplified with human DYS389 primers in Japanese macaques (Macaca fuscata)

Amplification products from male and female Japanese macaques were obtained by PCR with human Y-chromosomal DYS389 primers. These products were examined by electrophoresis and sequence analysis. The PCR products from the 12 Japanese macaques tested had different band patterns on an electrophoretogram. Sequence analysis of the products revealed that the high polymorphism originated from variable numbers of repeats of two separate CTAT sequences. The sequences of the Japanese macaque products were similar to those of the reference human DYS389 sequence. However, variable CTGT repeats and a difference in the second forward primer binding site yielded two products in human males, DYS389I and DYS389II, which do not exist in Japanese macaques. Our results suggest that the human DYS389 primers may be a potential tool not only for distinguishing between human and Japanese macaque DNA samples, but also for identifying individual macaques, because of the highly polymorphic alleles.     

Stable minihairpin structures forming at minisatellite DNA isolated from yellow fin sea bream Acanthopagrus latus

The lengths of simple repeat sequences are generally unstable or polymorphic (highly variable with respect to the numbers of tandem repeats). Previously we have isolated a family of minisatellite DNA (GenBank accession AF422186) that appears specifically and abundantly in the genome of yellow fin sea bream Acanthopagrus latus but not in closely-related red sea bream Pagrus major, and found that the numbers of tandem arrays in the homologous loci are polymorphic. This means that the minisatellite sequence has appeared and propagated in A. latus genome after speciation. In order to understand what makes the minisatellite widespread within the A. latus genome and what causes the polymorphic nature of the number of tandem repeats, the structural features of single-stranded polynucleotides were analyzed by electrophoresis, chemical modification, circular dichroism (CD), differential scanning calorimetry (DSC) and electron microscopy. The results suggest that a portion of the repeat unit forms a stable minihairpin structure, and it can cause polymerase pausing within the minisatellite DNA.     

Nucleic acid aggregation geometry and the possible evolutionary origin of ribosomes and the genetic code

We probed the structure of mammalian repetitive DNAs with a site-specific mammalian endodeoxyribonuclease, which we recently identified, and which apparently represents a common enzyme activity among the mammals (McKenna et al., 1981). With several of the DNAs (e.g. mouse satellite, guinea pig β-satellite, variable repeated spacer DNA from mouse ribosomal genes and primate alphoid sequences), the endonuclease activity gave highly specific cleavage patterns when the digestion products were analyzed by gel electrophoresis. These patterns were not always identical to those produced by microbial restriction enzymes. However, in other cases (e.g. bovid and caprid satellites and guinea pig α-satellite) the repetitive DNAs appeared to be degraded randomly. Thus, the mammalian enzyme reveals structural features of the repetitive sequences that are not rendered immediately obvious by microbial restriction enzyme analysis. Evidence from mapping data presented here suggests that the mammalian site-specific endonucleases are not sequence specific but have special affinity for imperfect or hyphenated palindromic sequences in repetitive DNAs and in other eukaryotic DNA sequences.     

Fluorescent multiplex linkage analysis and carrier detection for Duchenne/Becker muscular dystrophy.

We have developed a fast and accurate PCR-based linkage and carrier detection protocol for families of Duchenne muscular dystrophy (DMD)/Becker muscular dystrophy (BMD) patients with or without detectable deletions of the dystrophin gene, using fluorescent PCR products analyzed on an automated sequencer. When a deletion is found in the affected male DMD/BMD patient by standard multiplex PCR, fluorescently labeled primers specific for the deleted and nondeleted exon(s) are used to amplify the DNA of at-risk female relatives by using multiplex PCR at low cycle number (20 cycles). The products are then quantitatively analyzed on an automatic sequencer to determine whether they are heterozygous for the deletion and thus are carriers. As a confirmation of the deletion data, and in cases in which a deletion is not found in the proband, fluorescent multiplex PCR linkage is done by using four previously described polymorphic dinucleotide sequences. The four (CA)n repeats are located throughout the dystrophin gene, making the analysis highly informative and accurate. We present the successful application of this protocol in families who proved refractory to more traditional analyses.     

End structure and mechanism of packaging of bacteriophage T4 DNA.

We analyzed by restriction enzyme digestion the end structure of T4 phage DNA by comparing mature, concatemeric, first-packaged, and incompletely packaged DNAs. The structure of mature DNA was also studied using 3' end labeling with terminal transferase. Our data support the hypothesis that T4 DNA packaging is not initiated at specific packaging initiation sequences on the concatemeric precursor (cos or pac site mechanisms) but by a different packaging mechanism.     

Evaluation and comparison of random amplification of polymorphic DNA, pulsed-field gel electrophoresis and ADSRRS-fingerprinting for typing Serratia marcescens outbreaks

Amplification of DNA fragments surrounding rare restriction sites (ADSRRS-fingerprinting) is a novel assay based on suppression of polymerase chain reaction (PCR). This phenomenon allows the amplification of only a limited subset of DNA fragments, since only those with two different oligonucleotides ligated at the ends of complementary DNA strands are amplified in the PCR. The DNA fragments can be easily analyzed on polyacrylamide gels, stained with ethidium bromide. We have implemented this method using a set of clinical Serratia marcescens isolates from three outbreaks ongoing in the Public Hospital in Gdańsk (Poland). Clustering of ADSRRS-fingerprinting data matched epidemiological, microbiological, random amplification of polymorphic DNA (RAPD) and pulsed-field gel electrophoresis (PFGE) data. Based on this study, we found that there is at least a similar power of discrimination between the present 'gold-standard' PFGE and the novel method, ADSRRS-fingerprinting. Although the ADSRRS-fingerprinting method may appear to be more complex than the RAPD technique, we found it fast and reproducible.     

Genetic Mapping of Soybean [Glycine max (L.) Merr.] Using Random Amplified Polymorphic DNA (RAPD)

Random amplified polymorphic DNA (RAPD) is based on DNA amplification by polymerase chain reaction (PCR) of random DNA segments using single arbitrary nucleotide sequences. We have adapted the assay to soybeans by using Stoffel Fragment DNA polymerase and by optimizing the reaction conditions. To increase the percentage of RAPD polymorphisms, the DNA template was digested with restriction enzymes before amplification. The combination of twenty-four primers and five DNA template treatments (Undigested, DraI, EcoRI, HindIII, and TaqI digested) revealed 94 polymorphic DNA fragments differing between soybean lines PI437654 and BSR101. Many polymorphic DNA bands were found unreliable or non-scoreable after re-screening of primers and verification of marker-allele segregation with 20 recombinant inbred lines (RILs). However, 28 RAPD markers were consistently polymorphic between the parental lines and followed Mendelian expectations. The use of DNA templates digested with DraI, EcoRI, HindIII or TaqI increased three times the number of RAPD markers compared to undigested DNA template alone. The 28 RAPD markers obtained were further screened with 72 RILs and placed on an existing RFLP map.     

An efficient method for generation and subcloning of tandemly repeated DNA sequences with defined length, orientation and spacing.

Tandemly repeated DNA sequences generated from single synthetic oligonucleotide monomers are useful for many purposes. With conventional ligation procedures low yields and random orientation of oligomers makes cloning of defined repeated sequences difficult. We solved these problems using 2 bp overhangs to direct orientation and random incorporation of linkers containing restriction sites during ligation. Ligation products are amplified by PCR using the linker oligonucleotides as primers. Restriction digestion of the PCR products generate multimer distributions whose length is controlled by the monomer/linker ratio. The concatenated DNA fragments of defined length, orientation and spacing can be directly used for subcloning or other applications without further treatment.     

Different reactions obtained using the same DNA detection reagents for Thai and Korean hepatopancreatic parvovirus of penaeid shrimp.

Hepatopancreatic parvovirus (HPV) can cause stunted growth and death in penaeid shrimp including Penaeus monodon. We used PCR primers and a commercial DNA probe designed from HPV of Penaeus chinensis (HPVchin) to examine HPV-infected Thai P. monodon (HPVmon). We found that the PCR primers produced a 732 bp DNA amplicon rather than the 350 bp amplicon obtained with HPVchin template and that the DNA probe gave weak to variable in situ DNA hybridization results. In addition, hybridization to PCR products from HPVmon was weak compared with hybridization with PCR products from HPVchin. By contrast, the 732 bp amplicon hybridized strongly with HPVmon-infected cells by in situ hybridization but not with uninfected shrimp tissue or other shrimp viruses, thus confirming its origin from HPVmon. Cloning, sequencing and analysis of the 732 bp amplicon showed that 696 bp (excluding the primer sequences) contained 47% GC content and had only 78% homology to 701 aligned bases from a 3350 bp DNA fragment of HPVchin from GenBank. These results explain why the reagents based on HPVchin gave a different PCR product and weak hybridization results with HPVmon, and they show that multiple primers or degenerate primers may be necessary for general detection of HPV varieties. Together with previously published information on the estimated total genome sizes for HPVchin (approximately 4 kb) and HPVmon (approximately 6 kb), these data support the contention that HPVchin and HPVmon are different varieties or species, in spite of their similar histopathology.