Universal primers for fluorescent labelling of PCR fragments--an efficient and cost-effective approach to genotyping by fluorescence

Directly labelling locus‐specific primers for microsatellite analysis is expensive and a common limitation to small‐budget molecular ecology projects. More cost‐effective end‐labelling of PCR products can be achieved through a three primer PCR approach, involving a fluorescently labelled universal primer in combination with modified locus‐specific primers with 5′ universal primer sequence tails. This technique has been widely used but has been limited largely due to a lack of available universal primers suitable for co‐amplifying large numbers of size overlapping loci and without requiring locus‐specific PCR conditions to be modified. In this study, we report a suite of four high‐performance universal primers that can be employed in a three primer PCR approach for efficient and cost‐effective fluorescent end‐labelling of PCR fragments. Amplification efficiency is maximized owing to high universal primer Tm values (approximately 60+ °C) that enhance primer versatility and enable higher annealing temperatures to be employed compared with commonly used universal primers such as M13. We demonstrate that these universal primers can be combined with multiple fluorophores to co‐amplify multiple loci efficiently via multiplex PCR. This method provides a level of multiplexing and PCR efficiency similar to microsatellite fluorescent detection assays using directly labelled primers while dramatically reducing project costs. Primer performance is tested using several alternative PCR strategies that involve both single and multiple fluorophores in single and multiplex PCR across a wide range of taxa.     

<Emphasis Type="Italic">Trichophyton rubrum</Emphasis> and <Emphasis Type="Italic">Trichophyton interdigitale</Emphasis>: Genetic Diversity Among Species and Strains by Random Amplified Polymorphic DNA Method

Onychomycosis is a common condition that represents up to 50% of all nail problems and 30% of all cases of dermatophytoses. Trichophyton rubrum and Trichophyton interdigitale are the most common agents involved in this condition. In cases of recurrent post-treatment onychomycosis, strain fingerprinting could reveal whether the original isolate is responsible, a new strain has been acquired or if multiple strains are involved. The aim of this study was to evaluate the efficacy of the RAPD method for species and strain differentiation of T. rubrum and T. interdigitale obtained from patients with subungeal distal-lateral onychomycosis. A set of 86 strains of onychomycosis causative dermatophytes were submitted to species differentiation and strain typing by RAPD method with two previously described primers. Both primers proved capable of strain differentiation when tested for each species. Nineteen molecular profiles were configured for T. rubrum isolates with primers 1 and 6. For T. mentagrophytes, ten molecular profiles were configured with primer 1 and twenty-one with primer 6. We found that T. interdigitale and T. rubrum species were grouped in different clusters when both primers were analyzed together. This study shows that these primers are valuable tools for strain differentiation with T. rubrum and T. intedigitale.     

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.     

肠道中乳酸杆菌属特异性定量引物的筛选及验证

【目的】乳酸杆菌与人和动物的健康有密切关系,它的存在及含量变化可以作为评价宿主健康的指标之一。在乳酸杆菌定量研究中,特异性引物往往是定量成功的关键。然而,已有引物质量参差不齐,难以保证其特异性。本文旨在通过理论与试验的方法快速筛选出用于定量的乳酸杆菌属特异性引物,同时为今后引物筛选和设计提供理论基础。【方法】查阅文献、挑选出12对基于16S rRNA基因序列设计的乳酸杆菌属引物,通过MEGA 6.0软件确定引物相对位置,计算引物匹配率,以引物相对位置和匹配率为依据重新组合引物,获得理论特异性乳酸杆菌属引物,再通过琼脂糖凝胶电泳和QX200Droplet Digital PCR系统对新组合引物的特异性进行检验。【结果】通过理论与试验相结合的方法确定了一对特异性较好的乳酸杆菌属定量引物Lab1,它的扩增产物大小约300 bp。ddPCR系统检验结果发现其特异性和灵敏性较好,还可以有效定量粪便中的乳酸杆菌。【结论】引物设计理论结合特异性试验这种方法可以快速有效地筛选出特异性较好的引物,同时为今后引物筛选和设计提供理论基础。     

植物罹病组织中南方、爪哇、花生根结线虫的LAMP快速检测

【目的】建立一种基于环介导等温扩增(loop-mediated isothermal amplification,LAMP)技术,从植物罹病组织中直接检测3种常见的根结线虫,为根结线虫的监测和防治提供技术支持。【方法】分别采用3种根结线虫的种类特异性引物对所选择的根结线虫的DNA片段进行PCR扩增,扩增产物纯化、回收并测序。根据3种根结线虫的测序结果,针对种类特异区段,采用PrimerExplorerV4软件,分别设计3种根结线虫的LAMP引物。设计的引物组人工合成后,以提取的纯化种群线虫DNA为模板,分别进行引物组的特异性测试,筛选出分别针对3种根结线虫的最佳引物组。【结果】研究设计的3种根结线虫的LAMP特异性引物能够直接从植物根结中检测出南方、花生、爪哇3种常见根结线虫,LAMP快速检测体系为:dNTPS浓度为1 mmol·L~(-1),Mg~(2+)的浓度为5 mmol·L~(-1),不添加甜菜碱,反应时间为45 min。【结论】本实验建立的南方、花生、爪哇根结线虫LAMP快速分子检测方法,具有特异性强、灵敏度高、简单、快速、经济等特征,能够从罹病植物组织中快速准确地检测出南方、花生和爪哇根结线虫,具有极高的实践应用价值。     

PRINS as a method for rapid chromosomal labeling on human spermatozoa

Direct in situ labeling of human spermatozoa was performed using the PRINS method. This technique is based on annealing of specific oligonucleotide primers, and subsequent primer extension by a Taq DNA polymerase. The reaction was carried out on a programmable temperature cycler, and labeling was obtained in a 1-hr reaction. The method was successfully tested with specific primers for chromosomes 13, 16, and 21. This suggests that PRINS may be a fast and reliable technique for detecting aneuploidies. © 1995 Wiley-Liss Inc.     

Changes of 5＇ Terminal Nucleotides of PCR Primers Causing Variable T-A Cloning Efficiency

T-A cloning takes advantage of the unpaired adenosyl residue added to the 3＇ terminus of amplified DNAs by Taq and other thermostable DNA polymerase and uses a Ilnearlzed plasmld vector with a protruding 3＇ thymldylate residue at each of Its 3＇ termini to clone polymerase chain reaction （PCR）-derived DNA fragments. It Is a simple, reliable, and efficient Ilgatlon-dependent cloning method for PCR products, but the drawback of variable cloning efficiency occurs during application. In the present work, the relationship between variable T-A cloning efficiency and the different 5＇ end nucleotlde base of primers used In PCR amplification was studied. The results showed that different cloning efficiency was obtained with different primer pairs containing A, T, C and G at the 5＇ terminus respectively. The data shows that when the 5＇ end base of primer pair was adenosyl, more white colonies could be obtained In cloning the corresponding PCR product In comparison with other bases. And the least white colonies were formed when using the primer pair with 5＇ cytldylate end. The gluanylate end primers resulted In almost the same cloning efficiency In the white colonies amount as the thymldylate end primer did, and this efficiency was much lower than that of adenosyl end primers. This presumably is a consequence of variability In 3＇dA addition to PCR products mediated by Taq polymerase. Our results offer instructions for primer design for researchers who choose T-A cloning to clone PCR products.     

Efficient mutagenesis method for producing the templates of single nucleotide polymorphisms

DNA templates harboring specific single nucleotide polymorphism (SNP) sites are largely needed as positive controls in practical SNP analysis and in determination of the reliability of newly developed methods in high-throughput screening assays. Here we report a one-step method to produce SNP templates by amplifying a wild-type sequence with primers having single nucleotide mismatches at or near their 3′ ends. A short amplicon harboring an EcoRI site was used to evaluate the feasibility of our strategy. Perfectly matched primers and primers with a single base mismatch occurring from the first base to the sixth base of the EcoRI site were used for primer extension. By using polymerase without a proofreading function, we kept mismatched nucleotides from occurring in extended primer products, as confirmed by EcoRI digestion and sequencing analysis. The strategy of using primers with a single mismatched base and exo- polymerase was shown to be an efficient one-step method for preparing SNP templates, either for application in the development of SNP screening assays or as positive controls in practical SNP assays.     

Gene-specific universal mammalian sequence-tagged sites: Application to the canine genome

We are developing a genetic map of the dog based partly upon markers contained within known genes. In order to facilitate the development of these markers, we have used polymerase chain reaction (PCR) primers designed to conserved regions of genes that have been sequenced in at least two species. We have refined the method for designing primers to maximize the number that produce successful amplifications across as many mammalian species as possible. We report the development of primer sets for 11 loci in detail:CFTR, COL10A1, CSFIR, CYP1A1, DCN1, FES, GHR, GLB1, PKLR, PVALB, andRB1. We also report an additional 75 primer sets in the appendices. The PCR products were sequenced to show that the primers amplify the expected canine genes. These primer sets thus define a class of gene-specific sequence-tagged sites (STSs). There are a number of uses for these STSs, including the rapid development of various linkage tools and the rapid testing of genomic and cDNA libraries for the presence of their corresponding genes. Six of the eleven gene targets reported in detail have been proposed to serve as “anchored reference loci” for the development of mammalian genetic maps [O'Brien, S. J.,et al., Nat. Genet. 3:103, 1993]. The primer sets should cover a significant portion of the canine genome for the development of a linkage map. In order to determine how useful these primer sets would be for the other genome projects, we tested the 11 primer sets on the DNA from species representing five mammalian orders. Eighty-four percent of the gene-species combinations amplified successfully. We have named these primer sets “universal mammalian sequence-tagged sites” because they should be useful for many mammalian genome projects.     

A Novel and Simple PCR Walking Method for Rapid Acquisition of Long DNA Sequence Flanking a Known Site in Microbial Genome

Acquisition of flanking sequence adjacent to a known DNA site is an important task in microbial genome-related research. In this study, we developed a new method containing two rounds of PCR followed by cloning and sequencing. Firstly, specific primer (SP) is added into the reaction system for primary locus-specific linear amplification, and then a complex long primer (CLP) is added into the cooled reaction system for only one cycle. Amplification products from the first round of PCR are directly purified without electrophoresis, diluted, and used as the templates of the second PCR. Secondly, one long specific primer (LSP) and one long base-fixed primer (LFP) are adopted. The amplicons are purified for cloning and sequencing. The achievement of specific amplification for long flanking region mainly depends on ingenious and precise settings of PCR programs, structure design of CLP primer, adding of CLP primer after specific linear amplification, concentration ratio of CLP and SP primer, applying long primers, etc. Through this method, we successfully performed the long PCR walkings (>1.5 Kb) on rpoB gene of Vibrio vulnificus, transposon-like gene of V. alginolyticus, and sto gene of V. cholerae. The method provides a robust and simple strategy for rapid amplification of long unknown DNA fragments from microbes.     

Rapid identification of bacterial pathogens using a PCR- and microarray-based assay

Background  

During the course of a bacterial infection, the rapid identification of the causative agent(s) is necessary for the determination of effective treatment options. We have developed a method based on a modified broad-range PCR and an oligonucleotide microarray for the simultaneous detection and identification of 12 bacterial pathogens at the species level. The broad-range PCR primer mixture was designed using conserved regions of the bacterial topoisomerase genes gyrB and parE. The primer design allowed the use of a novel DNA amplification method, which produced labeled, single-stranded DNA suitable for microarray hybridization. The probes on the microarray were designed from the alignments of species- or genus-specific variable regions of the gyrB and parE genes flanked by the primers. We included mecA-specific primers and probes in the same assay to indicate the presence of methicillin resistance in the bacterial species. The feasibility of this assay in routine diagnostic testing was evaluated using 146 blood culture positive and 40 blood culture negative samples.     

PCR-CTPP: a rapid and reliable genotyping technique based on ZFX/ZFY alleles for sex identification of tiger (<Emphasis Type="Italic">Panthera tigris</Emphasis>) and four other endangered felids

An inexpensive, time-saving and reliable method, polymerase chain reaction with confronting two-pair primers (PCR-CTPP), was developed for sex identification in tiger (Panthera tigris) based on zinc finger alleles (ZFX/ZFY). A site of “C/G” transversion representing fixed differences that discriminated between ZFX and ZFY exons among felids was identified for primers designing. This primer set was successfully tested on samples including blood, shed hairs, dried skin, and stool which contained potential contamination caused by prey DNA. Cross species tests shown that this primer set was also useful for sex identification in four other endangered felids.     

pr2-primers: An 18S rRNA primer database for protists

Metabarcoding of microbial eukaryotes (collectively known as protists) has developed tremendously in the last decade, almost solely relying on the 18S rRNA gene. As microbial eukaryotes are extremely diverse, many primers and primer pairs have been developed. To cover a relevant and representative fraction of the protist community in a given study system, an informed primer choice is necessary, as no primer pair can target all protists equally well. As such, a smart primer choice is very difficult even for experts and there are very few online resources available to list existing primers. We built a database listing 285 primers and 83 unique primer pairs that have been used for eukaryotic 18S rRNA gene metabarcoding. In silico performance of primer pairs was tested against two sequence databases: PR² version 4.12.0 for eukaryotes and a subset of silva version 132 for bacteria and archaea. We developed an R -based web application enabling browsing of the database, visualization of the taxonomic distribution of the amplified sequences with the number of mismatches, and testing any user-defined primer or primer set ( https://app.pr2-primers.org ). Taxonomic specificity of primer pairs, amplicon size and location of mismatches can also be determined. We identified universal primer sets that matched the largest number of sequences and analysed the specificity of some primer sets designed to target certain groups. This tool enables guided primer choices that will help a wide range of researchers to include protists as part of their investigations.     

A Unique Primer with an Inosine Chain at the 5′-Terminus Improves the Reliability of SNP Analysis Using the PCR-Amplified Product Length Polymorphism Method

Polymerase chain reaction-amplified product length polymorphism (PCR-APLP) is one of the most convenient and reliable methods for single nucleotide polymorphism (SNP) analysis. This method is based on PCR, but uses allele-specific primers containing SNP sites at the 3′-terminus of each primer. To use this method at least two allele-specific primers and one “counter-primer”, which serves as a common forward or reverse primer of the allele-specific primers, are required. The allele-specific primers have SNP sites at the 3′-terminus, and another primer should have a few non-complementary flaps at the 5′-terminus to detect SNPs by determining the difference of amplicon length by PCR and subsequent electrophoresis. A major disadvantage of the addition of a non-complementary flap is the non-specific annealing of the primer with non-complementary flaps. However, a design principle for avoiding this undesired annealing has not been fully established, therefore, it is often difficult to design effective APLP primers. Here, we report allele-specific primers with an inosine chain at the 5′-terminus for PCR-APLP analysis. This unique design improves the competitiveness of allele-specific primers and the reliability of SNP analysis when using the PCR-APLP method.     

Improved group‐specific primers based on the full SILVA 16S rRNA gene reference database

Quantitative PCR (qPCR) and community fingerprinting methods, such as the Terminal Restriction Fragment Length Polymorphism (T‐RFLP) analysis, are well‐suited techniques for the examination of microbial community structures. The use of phylum‐ and class‐specific primers can provide enhanced sensitivity and phylogenetic resolution as compared with domain‐specific primers. To date, several phylum‐ and class‐specific primers targeting the 16S ribosomal RNA gene have been published. However, many of these primers exhibit low discriminatory power against non‐target bacteria in PCR. In this study, we evaluated the precision of certain published primers in silico and via specific PCR. We designed new qPCR and T‐RFLP primer pairs (for the classes Alphaproteobacteria and Betaproteobacteria, and the phyla Bacteroidetes, Firmicutes and Actinobacteria) by combining the sequence information from a public dataset (SILVA SSU Ref 102 NR) with manual primer design. We evaluated the primer pairs via PCR using isolates of the above‐mentioned groups and via screening of clone libraries from environmental soil samples and human faecal samples. As observed through theoretical and practical evaluation, the primers developed in this study showed a higher level of precision than previously published primers, thus allowing a deeper insight into microbial community dynamics.     

Characterization of a RAPD fragment unique to species with hairy fruit skin in the genus<Emphasis Type="Italic">Actinidia</Emphasis>

To develop a SCAR primer related to the hairy-fruit trait in the genusActinidia, we took a PCR-RAPD approach using arbitrary 10-mer primers. PCR with the UBC 376 primer generated specific fragments from three species with hairy fruit skin. Those fragments were then cloned to determine their nucleotide sequences. Two SCAR primers were designed from the UBC 376 primer and nucleotide sequences were obtained from the PCR fragments. A SCAR primer, OKC385, specifically amplified a 385-bp fragment from one clone ofActinidia eriantha, four ofActinidia chinensis, and four ofActinidia deliciosa. Deduced amino acid sequences of this fragment showed high sequence homology with plant cellulose synthases, which are involved in the biosynthesis of cellulose, a major cell wall component. The 385-bp fragment was specifically detected only in the seriesPerfectae C.F. Liang of sectionStellatae Li. This type has many hairs on the leaves, fruits, and stems, suggesting that the gene containing the PCR fragment is involved in hair formation in this phylogenetic group. Taken together, our results suggest that the SCAR primer, OKC385, can be used as a specific primer for early selection of the non-hair trait in breeding of the genusActinidia.     

Single nucleotide polymorphism-mismatch primer development for rapid molecular identification of selected microalgal species

Microalgae have been a great source for food, cosmetic, pharmacological, and biofuel production. The adoption of effective diagnostic assays for monitoring all stages of algal cultivation has become essential. In addition to microscopy identification, molecular assays can aid greatly in the identification and monitoring of algal species of interest. In this study the 18S ribosomal RNA (rRNA) sequences of 12 microalgal species and/or strains were used to design algal identification primers. Sequence alignment revealed five highly variable regions and multiple unique single nucleotide polymorphisms (SNPs). To design target algae specific primers, a SNP identified as unique to each microalgal species was incorporated into the 3’-terminus of forward and reverse primer pairs, respectively. To further enhance primer specificity, transverse mutation was introduced into each primer at the third base upstream of the respective SNP. The SNP-mismatch primer pairs yield size-specific amplicons, enabling the rapid molecular detection of 12 microalgae by circumventing cloning and sequencing. To verify the primer specificity, two SNP-mismatch primer pairs designed for Chlorella sorokiniana DOE1412 and wildtype species of Scenedesmus were tested in the outdoor reactor run inoculated with C. sorokiniana DOE1412. The primer pairs were able to identify C. sorokiniana DOE1412 as well as the environmental invader Scenedesmus sp. Furthermore, the “relative concentration” of two microalgae was accessed throughout the entire cultivation run. The use of SNPs primers designed in this study offers a cost-effective, easy to use alternative for routine monitoring of microalgal cultures in laboratories, in scale-ups, and in cultivation reactors, independent of the production platform.

     

Development of retrotransposon primers and their utilization for germplasm identification in Diospyros spp. (Ebenaceae)

Retrotransposons play an important role in plant genetic instability and genome evolution. Retrotransposon-based molecular markers are valuable tools to reveal the behavior of retrotransposons in their host genome. In this study, suppression polymerase chain reaction was used, for the first time, to develop retrotransposon long terminal repeat (LTR) and polypurine tract (PPT) primers in Japanese persimmon (Diospyros kaki Thunb.), which were then employed for germplasm identification by means of interretrotransposon-amplified polymorphism (IRAP), sequence-specific amplified polymorphism (SSAP) and retrotransposon-microsatellite-amplified polymorphism (REMAP) molecular markers. The results showed that 16 out of 26 primers produced expected amplifications and abundant polymorphisms by IRAP in 28 genotypes of Diospyros. Moreover, some of these primers were further successfully used in REMAP and SSAP analysis. Each type of molecular markers produced unique fingerprint in 28 genotypes analyzed. Among the primers/primer combinations, two IRAP primers and four SSAP primer combinations could discriminate all of the germplasm solely. Further comparative analysis indicated that IRAP was the most sensitive marker system for detecting variability. High level of retrotransposon insertion polymorphisms between bud sports were detected by IRAP and SSAP, and the primers/primer combinations with powerful discrimination capacity for two pairs of bud sports lines were further obtained. Additionally, possible genetic relationships between several Japanese persimmon were discussed. To our knowledge, this is the first report on the development of retrotransposon LTR and PPT primers in Diospyros, and the retrotransposon primers developed herein might open new avenue for research in the future.     

Development of a real-time PCR assay for the detection of Cladosporium fulvum in tomato leaves

Aims: The aim of this study was to develop a sensitive real-time polymerase chain reaction (PCR) assay for the rapid detection of Cladosporium fulvum in tomato leaves. Methods and Results: Three PCR primer pairs were designed based on the nucleotide sequences of: (i) the internal transcribed spacer regions of ribosomal RNA; (ii) a microsatellite region amplified by the microsatellite primer M13; and (iii) the β-tubulin gene of C. fulvum. Each primer pair amplified the expected target DNA fragment from geographically diverse isolates of C. fulvum. No PCR products were amplified with these primer pairs from DNA of other fungal species. Among the three pairs of primers, the primer pair CfF1/CfR1 developed based on the microsatellite region was the most sensitive. Using this sensitive primer pair, a real-time PCR assay was developed to detect early infection of C. fulvum in tomato leaves. Significance and Impact of the Study: DNA regions amplified by the microsatellite primer M13 have a high potential for developing highly sensitive species-specific PCR primers for the detection of phytopathogenic fungi. The real-time PCR assay developed in this study is useful in monitoring early infection of C. fulvum, and can help growers make timely decisions on fungicide application.     

菠菜性别相关的ISSR标记

菠菜为雌雄异株植物,用CTAB法提取其雌、雄株成株幼嫩叶片DNA,分别构建雌、雄株DNA池,以之为模板,用已优化的ISSR体系扩增,在74条ISSR引物中,I62扩增出一条约1 200 bp雌性连锁标记,回收纯化该特异扩增片段,将其连接于pUCm-T载体,转化进大肠杆菌JM109菌株,并检测及测序。回收克隆和测序后发现该片段全长1 176 bp,富含AT,AT占57.0%。根据测序结果设计1对25 bp的特异引物将这个雌性连锁的ISSR标记转化为稳定性和特异性更好的SCAR标记。该特异引物对随机选取的雌雄菠菜单株进行PCR扩增,在雌株中均有1 176 bp的特异条带,而雄株中均无。此特异条带的获得为菠菜性别相关基因的克隆奠定基础。