Development of primer sets for PCR amplification of the PgiC gene in ferns

Polymerase chain reaction (PCR)-based nuclear DNA markers were developed for fern species. We first determined the partial nucleotide sequence of cDNA of the pgiC gene encoding cytosolic phosphoglucose isomerase from Dryopteris caudipinna, and then PCR primers for exon-primed, intron-crossing (EPIC) amplifications were designed. The EPIC primers are universally applicable to the most derived indusiate fern families such as Dryopteridaceae, Thelypteridaceae, and Woodsiaceae. The PCR products of primers 14F/16R containing two introns are moderate in size (534 bp–ca.1000 bp) and are possibly of value in phylogenetic reconstruction at specific and generic levels. Codominant nuclear DNA markers applicable to the estimation of mating systems and other population genetic studies were also developed by a combination of single-strand conformation polymorphism (SSCP) and EPIC amplification using primers 14F/15R and 15F/16R. In order to provide a case study using these markers, allelic variation of PCR products using 15F/16R was examined in populations of Arachniodes standishii (Dryopteridaceae). Received: July 4, 2001 / Accepted: September 12, 2001     

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.     

Development of primer sets for PCR amplification of the PgiC gene in ferns

Polymerase chain reaction (PCR)-based nuclear DNA markers were developed for fern species. We first determined the partial nucleotide sequence of cDNA of the pgiC gene encoding cytosolic phosphoglucose isomerase from Dryopteris caudipinna, and then PCR primers for exon-primed, intron-crossing (EPIC) amplifications were designed. The EPIC primers are universally applicable to the most derived indusiate fern families such as Dryopteridaceae, Thelypteridaceae, and Woodsiaceae. The PCR products of primers 14F/16R containing two introns are moderate in size (534 bp-ca.1000 bp) and are possibly of value in phylogenetic reconstruction at specific and generic levels. Codominant nuclear DNA markers applicable to the estimation of mating systems and other population genetic studies were also developed by a combination of single-strand conformation polymorphism (SSCP) and EPIC amplification using primers 14F/15R and 15F/16R. In order to provide a case study using these markers, allelic variation of PCR products using 15F/16R was examined in populations of Arachniodes standishii (Dryopteridaceae).     

Seventeen new exon‐primed intron‐crossing polymerase chain reaction amplifiable introns in fish

We used exon‐primed, intron‐crossing polymerase chain reaction (EPIC‐PCR) amplification to assay variation in nuclear loci in some teleost fishes (Carangidae, Centropomidae, Chaetodontidae, Clupeidae, Holocentridae, Moronidae, Mullidae, Pomacentridae, Scombridae, Siganidae). We designed primers in the conserved regions flanking splice sites of consecutive exons of different genes, allowing the amplification of 17 putative introns. Among the satisfactory amplified systems, 14 showed length polymorphism with 2–14 alleles.     

Generating single-copy nuclear gene data for a recent adaptive radiation

Recent adaptive radiations provide an exceptional opportunity to understand the processes of speciation and adaptation. However, reconstructing the phylogenetic history of recent and rapidly evolving clades often requires the use of multiple, independent gene genealogies. Nuclear introns are an obvious source of the necessary data but their use is often limited because degenerate primers can amplify paralogous loci. To identify PCR primers for a large number of loci in an especially rapid adaptive radiation, that of the flowering plant genus Aquilegia (Ranunculaceae), we developed an efficient method for amplifying multiple single-copy nuclear loci by sequencing a modest number of clones from a cDNA library and designing PCR primers; with one primer anchored in the 3' untranslated region (3'-UTR) and one primer in the coding region of each gene. Variation between paralogous loci evolves more quickly in 3'-UTR regions compared to adjacent exons, and therefore we achieved high specificity for isolating orthologous loci. Furthermore, we were able to identify genes containing large introns by amplifying genes from genomic DNA and comparing the PCR product size to that predicted from their cDNA sequence. In Aquilegia eight out of eleven loci were isolated with this method and six of these loci had introns. Among four genes sequenced for samples spanning the phylogenetic breadth of the genus, we found sequence variation at levels similar to that observed in ITS, further supporting the recent and rapid radiation in Aquilegia. We assessed the orthology of amplification products by phylogenetic congruence among loci, the presence of two well established phylogenetic relationships, and similarity among loci for levels of sequence variation. Higher levels of variation among samples for one locus suggest possible paralogy. Overall, this method provides an efficient means of isolating predominantly single-copy loci from both low and high-copy gene families, providing ample nuclear variation for reconstructing species-level phylogenies in non-model taxa.     

Optimal intron analyses in the trimeresurus radiation of Asian pitvipers

Nuclear introns are commonly used as phylogenetic markers, but a number of issues related to alignment strategies, indel treatments, and the incorporation of length-variant heterozygotes (LVHs) are not routinely addressed when generating phylogenetic hypotheses. Topological congruence in relation to an extensive mitochondrial DNA multigene phylogeny (derived from 2,423 bp of 12S, 16S, ND4, and CYTB genes) of the Asian pitviper Trimeresurus radiation was used to compare combinations of "by eye" and edited and unedited ClustalX 1.8 alignments of two nuclear introns. Indels were treated as missing data, fifth character states, and assigned simple and multistate codes. Upon recovery of the optimal alignment and indel treatment strategy, a total evidence approach was used to investigate the phylogenetic utility of the indels and test new generic arrangements within Trimeresurus. Approximately one third of the intron data partitions exhibited LVHs, suggesting that they are common in introns. Furthermore, a simple concatenation approach can facilitate the incorporation of LVHs into phylogenetic analyses to make use of all available data and investigate mechanisms of molecular evolution. Analyses of ClustalX 1.8-assisted alignments were generally more congruent than the "by eye" alignment and the analysis of a simple coded, edited ClustalX 1.8 (gap opening cost 5, gap extension cost 1) alignment revealed the most congruent tree. The total evidence approach supported the new arrangements within Trimeresurus, suggesting that the phylogeny should be considered as a working benchmark in Asian pitviper systematics. Finally, a critical appraisal of the diverse array of indels (56 to 57 per intron, ranging from 1 to 151 bp in length) suggested that they are a combination of Hennigian and homoplasious events unrelated to indel size or location within the intron. [Alignment; indels; intron analysis; length-variant heterozygotes; Trimeresurus.].     

Polymorphic microsatellites developed by cross-species amplifications in common pheasant breeds

Genetic variability was analysed in two common breeds of pheasant (Phasianus colchicus L. 1758) by means of cross-species amplifications of microsatellite loci: 154 chicken, Gallus gallus and 32 turkey, Meleagris gallopavo, primers were tested for amplification of pheasant DNA. Thirty-six primers (25 specific for chicken and 11 for turkey) amplified pheasant DNA. Fifteen markers yielded specific products and were tested for polymorphism. Eight of them (55%) were polymorphic, with an average polymorphism of two alleles per locus. Specific polymerase chain reaction (PCR) products were sequenced; repeats were found in 11 of the 15 markers, although only two loci showed the same repeat and could be homologous to chicken ones.     

Exon-primed, intron-crossing (EPIC) loci for five nuclear genes in deep-sea protobranch bivalves: primer design, PCR protocols and locus utility

We describe PCR primers and amplification protocols developed to obtain introns from conserved nuclear genes in deep-sea protobranch bivalves. Because almost no sequence data for protobranchs are publically available, mollusk and other protostome sequences from GenBank were used to design degenerate primers, making these loci potentially useful in other invertebrate taxa. Amplification and sequencing success varied across the test group of 30 species, and we present five loci spanning this range of outcomes. Intron presence in the targeted regions also varied across genes and species, often within single genera; for instance, the calmodulin and β-tubulin loci contained introns with high frequency, whereas the triose phosphate isomerase locus never contained an intron. In introns for which we were able to obtain preliminary estimates of polymorphism levels in single species, polymorphism was greater than traditional mitochondrial loci. These markers will greatly increase the ability to assess population structure in the ecologically important protobranchs, and may prove useful in other taxa as well.     

Microfluidic PCR-based target enrichment: A case study in two rapid radiations of Commiphora (Burseraceae) from Madagascar

Developing effective and cost-efficient multilocus nuclear datasets for angiosperm species is a continuing challenge to the systematics community. Here we describe the development and validation of a novel set of 91 nuclear markers for PCR-based target enrichment. Using microfluidic PCR and Illumina MiSeq, we generated nuclear, subgenomic libraries for 96 species simultaneously and sequenced them for a total cost of ca. $6000 USD. Approximately half of these costs include reusable reagents (primers, barcodes, and custom sequencing primers) and taxon sampling could be increased by an order of magnitude to maximize sequencing depth efficiency. The principle benefit of microfluidic PCR over alternative target enrichment strategies is that it bypasses costly library preparation. After sequencing, we evaluated the ability of the loci to resolve species level relationships within two recently radiated lineages of endemic Madagascan Commiphora Jacq. (Burseraceae) species. Our results demonstrate that (i) effective nuclear markers can be designed for non-model angiosperm taxa from these publicly available datasets; (ii) that microfluidic PCR amplification followed by high throughput sequencing can produce highly complete taxon by locus sequence data matrices with minimal resource investment; and (iii) that these numerous nuclear phylogenomic markers can improve our understanding of phylogenetic relationships withinCommiphora. We provide a synopsis of ongoing activities to enhance this microfluidic PCR-based target enrichment strategy through broader primer assays, multiplexing, and increased efficiency of sequencing depth.     

Isolation,characterization and cross‐species amplification of microsatellite DNA loci in the tropical American yam Dioscorea trifida

We developed microsatellite markers in American yam (Dioscorea trifida). A microsatellite sequence‐enriched genomic library was screened, and after sequencing, primers were designed for 20 microsatellites. Among these, eight primer pairs yielded amplification products that were both interpretable and polymorphic in 24 yam cultivars. The number of alleles per locus ranged from two to 13 and the overall expected heterozygosity was around 0.5. Six of the eight Dioscorea trifida microsatellite loci gave amplification products in other Dioscorea species.     

Isolation and characterization of microsatellite loci from mangrove red snapper Lutjanus argentimaculatus

Lutjanus argentimaculatus, also called mangrove red snapper, is a commercially important fish in East Asia. A proper understanding of population structure is primarily linked with the management of genetic resources in exploiting marine fisheries. Herein, seven microsatellite loci, which showed high polymorphism (observed heterozygosity per locus ranging from 0.3571 to 0.7857 and expected heterozygosity per locus ranging from 0.6236 to 0.8821), were isolated and characterized from L. argentimaculatus. Cross‐species amplifications also indicate that primers designed for these loci may be useful for further studies about other closely phylogenetic species of the family Lutjanidae.     

Microsatellite markers from an expressed sequence tag library of half‐smooth tongue sole (Cynoglossus semilaevis) and their application in other related fish species

Microsatellite markers have been developed from a cDNA library of half‐smooth tongue sole, Cynoglossus semilaevis. Twenty‐five microsatellites were selected for designing microsatellite primers, of which 11 gave working primer pairs. They had between four and 12 alleles. Observed and expected heterozygosities varied from 0.60 to 0.90 and from 0.57 to 0.88, respectively. Five additional fish species assessed for cross‐species amplification revealed between one and four positive amplifications and between 0 and four polymorphic loci per species.     

Microsatellite loci for studies of population differentiation and range expansion in Solidago sempervirens L. (Asteraceae)

For studies of population differentiation and range expansion in the seaside goldenrod, Solidago sempervirens, we identified hypervariable molecular markers by screening genomic libraries enriched for microsatellite motifs. We designed primers that reliably amplified nine polymorphic loci. High polymorphism in a population from Delaware Bay, USA suggests that the loci will be useful in population studies. The success of cross‐amplifications in 11 species of Asteraceae varied among loci and did not appear to reflect phylogenetic relationships within Solidago.     

Optimization of RAPD‐PCR conditions in cattle

Abstract

Random Amplified Polymorphic DNA polymerase chain reaction (RAPD‐PCR) is a fast and easy way of identifying DNA polymorphisms generated from several regions of the genome. This could expedite the process of identifying informative polymorphic markers that may be linked to important genes controlling economic traits. In cattle, failure to obtain consistent amplification patterns in RAPD‐PCR has been a cause for concern. This has been attributed to the fact that decamer primers that are used in RAPD‐PCR reactions are likely to amplify regions of DNA where the primer‐template base pairing has some degree of mismatch and that these mismatches fail to repeat from reaction to reaction. This paper describes the use of tricine buffer along with changes in reaction components and thermal cycling conditions that has yielded consistent and reproducible RAPD‐PCR amplifications using single primers and double primer combinations on bovine DNA.     

Isolation and characterization of polymorphic microsatellite loci from an EST‐library of red sea bream (Chrysophrys major) and cross‐species amplification

Microsatellite markers have been developed from a complementary DNA (cDNA) library of red sea bream, Chrysophrys major. Twenty‐eight microsatellites were selected for designing microsatellite primers, of which 11 gave working primer pairs. Observed and expected heterozygosities varied from 0.33 to 1.00 and from 0.38 to 0.83, respectively. Five additional fish species assessed for cross‐species amplification revealed between one and six positive amplifications and between 0 and 6 polymorphic loci per species.     

A framework for developing and validating taxon‐specific primers for specimen identification from environmental DNA

Taxon‐specific DNA tests are applied to many ecological and management questions, increasingly using environmental DNA (eDNA). eDNA facilitates noninvasive ecological studies but introduces additional risks of bias and error. For effective application, PCR primers must be developed for each taxon and validated in each system. We outline a nine step framework for the development and validation of taxon‐specific primers for eDNA analysis in ecological studies, involving reference database construction, phylogenetic evaluation of the target gene, primer design, primer evaluation in silico, and laboratory evaluation of primer specificity, sensitivity and utility. Our framework makes possible a rigorous evaluation of likely sources of error. The first five steps can be conducted relatively rapidly and (where reference DNA sequences are available) require minimal laboratory resources, enabling assessment of primer suitability before investing in further work. Steps six to eight require more costly laboratory analyses but are essential to evaluate risks of false‐positive and false‐negative results, while step 9 relates to field implementation. As an example, we have developed and evaluated primers to specifically amplify part of the mitochondrial ND2 gene from Australian bandicoots. If adopted during the early stages of primer development, our framework will facilitate large‐scale implementation of well‐designed DNA tests to detect specific wildlife from eDNA samples. This will provide researchers and managers with an understanding of the strengths and limitations of their data and the conclusions that can be drawn from them.     

Isolation of dinucleotide microsatellite loci from red‐backed salamander (Plethodon cinereus)

We isolated 13 variable dinucleotide microsatellites from red‐backed salamanders (Plethodon cinereus). After generating fragments using degenerate oligonucleotide primer‐polymerase chain reaction (DOP‐PCR), AC repeats were captured using biotinylated probes and streptavidin‐coated magnetic particles. Captured fragments were cloned into plasmids, screened for microsatellites with a simple PCR reaction, and select plasmids then sequenced. PCR primers were designed and optimized for robust amplification, and nine primers have been further optimized for multiplex reactions with fluorescent primers. These nine loci are variable with an average of 6.11 alleles per locus and an average heterozygosity of 0.61.     

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.     

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.