Exon-primed intron-crossing (EPIC) PCR markers of Helicoverpa armigera (Lepidoptera: Noctuidae)

Applying microsatellite DNA markers in population genetic studies of the pest moth Helicoverpa armigera is subject to numerous technical problems, such as the high frequency of null alleles, occurrence of size homoplasy, presence of multiple copies of flanking sequence in the genome and the lack of PCR amplification robustness between populations. To overcome these difficulties, we developed exon-primed intron-crossing (EPIC) nuclear DNA markers for H. armigera based on ribosomal protein (Rp) and the Dopa Decarboxylase (DDC) genes and sequenced alleles showing length polymorphisms. Allele length polymorphisms were usually from random indels (insertions or deletions) within introns, although variation of short dinucleotide DNA repeat units was also detected. Mapping crosses demonstrated Mendelian inheritance patterns for these EPIC markers and the absence of both null alleles and allele 'dropouts'. Three examples of allele size homoplasies due to indels were detected in EPIC markers RpL3, RpS6 and DDC, while sequencing of multiple individuals across 11 randomly selected alleles did not detect indel size homoplasies. The robustness of the EPIC-PCR markers was demonstrated by PCR amplification in the related species, H. zea, H. assulta and H. punctigera.     

植物微卫星分子标记中无效等位基因检测方法的比较与应用

微卫星分子标记因其开发便捷、突变率高、成本较低等优势一直被广泛应用于群体遗传学、保护生物学和分子生态学研究中。近年来二代测序技术、多重PCR方法以及毛细管电泳等新技术的发展和完善,极大地提高了微卫星分子标记的开发和使用效率并降低了使用成本。但是在开展微卫星实验过程中普遍存在的无效等位基因(或称为哑等位基因,null alleles）会对研究结果造成偏差,是微卫星分子标记应用中的最大缺陷之一。然而,长期以来无效等位基因的检测问题并未受到研究者的足够重视。本文通过对国内外相关文献查阅,在对无效等位基因有一个较为深入和全面认识的基础上,对目前无效等位基因的主要检测方法进行全面的介绍和深入的比较。最后,结合研究实例总结出植物微卫星分子标记研究中无效等位基因检测的有效办法。     

Isolation and characterization of microsatellite loci in western North American Anodonta species

We have developed and characterized 13 microsatellite loci from a group of Anodonta species in western North America, and demonstrated their utility in populations representing two major clades in this genus. Allelic diversity and polymorphic information content were high for all loci, although these characteristics varied across populations. Deviations from Hardy-Weinberg genotypic ratios were not detected, although the estimated frequency of null alleles was high in one population for one locus. This is the first set of microsatellite loci to be developed for freshwater mussels in western North America, and will be useful for describing gene flow patterns among populations.     

‘True’ null allele detection in microsatellite loci: a comparison of methods,assessment of difficulties and survey of possible improvements

Null alleles are alleles that for various reasons fail to amplify in a PCR assay. The presence of null alleles in microsatellite data is known to bias the genetic parameter estimates. Thus, efficient detection of null alleles is crucial, but the methods available for indirect null allele detection return inconsistent results. Here, our aim was to compare different methods for null allele detection, to explain their respective performance and to provide improvements. We applied several approaches to identify the ‘true’ null alleles based on the predictions made by five different methods, used either individually or in combination. First, we introduced simulated ‘true’ null alleles into 240 population data sets and applied the methods to measure their success in detecting the simulated null alleles. The single best‐performing method was ML‐NullFreq_frequency. Furthermore, we applied different noise reduction approaches to improve the results. For instance, by combining the results of several methods, we obtained more reliable results than using a single one. Rule‐based classification was applied to identify population properties linked to the false discovery rate. Rules obtained from the classifier described which population genetic estimates and loci characteristics were linked to the success of each method. We have shown that by simulating ‘true’ null alleles into a population data set, we may define a null allele frequency threshold, related to a desired true or false discovery rate. Moreover, using such simulated data sets, the expected null allele homozygote frequency may be estimated independently of the equilibrium state of the population.     

CHIIMP: An automated high‐throughput microsatellite genotyping platform reveals greater allelic diversity in wild chimpanzees

Short tandem repeats (STRs), also known as microsatellites, are commonly used to noninvasively genotype wild‐living endangered species, including African apes. Until recently, capillary electrophoresis has been the method of choice to determine the length of polymorphic STR loci. However, this technique is labor intensive, difficult to compare across platforms, and notoriously imprecise. Here we developed a MiSeq‐based approach and tested its performance using previously genotyped fecal samples from long‐term studied chimpanzees in Gombe National Park, Tanzania. Using data from eight microsatellite loci as a reference, we designed a bioinformatics platform that converts raw MiSeq reads into locus‐specific files and automatically calls alleles after filtering stutter sequences and other PCR artifacts. Applying this method to the entire Gombe population, we confirmed previously reported genotypes, but also identified 31 new alleles that had been missed due to sequence differences and size homoplasy. The new genotypes, which increased the allelic diversity and heterozygosity in Gombe by 61% and 8%, respectively, were validated by replicate amplification and pedigree analyses. This demonstrated inheritance and resolved one case of an ambiguous paternity. Using both singleplex and multiplex locus amplification, we also genotyped fecal samples from chimpanzees in the Greater Mahale Ecosystem in Tanzania, demonstrating the utility of the MiSeq‐based approach for genotyping nonhabituated populations and performing comparative analyses across field sites. The new automated high‐throughput analysis platform (available at https://github.com/ShawHahnLab/chiimp ) will allow biologists to more accurately and effectively determine wildlife population size and structure, and thus obtain information critical for conservation efforts.     

Fragment size difference between multiplex and singleplex PCR products and their practical implications

By simultaneously amplifying several loci in the same reaction, multiplex PCR has been used in gene mapping and DNA typing with polymorphic short tandem repeat loci. Previous studies have discussed in detail the various parameters and conditions that influence the quantity of individual products generated by multiplex PCR. In practice, when a primer pair fails to amplify in a multiplex PCR for some individuals, singleplex PCR is often employed as a supplement to amplify the primer pair. However, the reliability of this procedure is unknown. In this study, we used six primer pairs from ABI PRISM Linkage Mapping Set version 2 to perform multiplex and singleplex reactions. The fluorescence-labeled amplification products were separated and detected on ABI PRISM 310 Genetic Analyzer. We found that for the marker D1S468, multiplex and singleplex reactions for the majority of individuals yielded reactions of different sizes. Therefore, the potential size difference between multiplex and singleplex reactions needs to be investigated. This investigation is essential to employ multiplex PCR supplemented with singleplex PCR in gene mapping and DNA typing.     

A refined panel of 42 microsatellite loci to universally genotype catarrhine primates

1. Microsatellite genotyping is an important genetic method for a number of research questions in biology. Given that the traditional fragment length analysis using polyacrylamide gel or capillary electrophoresis has several drawbacks, microsatellite genotyping‐by‐sequencing (GBS) has arisen as a promising alternative. Although GBS mitigates many of the problems of fragment length analysis, issues with allelic dropout and null alleles often remain due to mismatches in primer binding sites and unnecessarily long PCR products. This is also true for GBS in catarrhine primates where cross‐species amplification of loci (often human derived) is common.
2. We therefore redesigned primers for 45 microsatellite loci based on 17 available catarrhine reference genomes. Next, we tested them in singleplex and different multiplex settings in a panel of species representing all major lineages of Catarrhini and further validated them in wild Guinea baboons (Papio papio) using fecal samples.
3. The final panel of 42 microsatellite loci can efficiently be amplified with primers distributed into three amplification pools.
4. With our microsatellite panel, we provide a tool to universally genotype catarrhine primates via GBS from different sample sources in a cost‐ and time‐efficient way, with higher resolution, and comparability among laboratories and species.

     

Development and diversity of microsatellite markers for endangered species Clinostigma savoryanum

A set of microsatellite markers was developed for Clinostigma savoryanum, an endemic palm species distributed in the Bonin Islands. We obtained 233 sequences that were unique, containing microsatellites from an enriched library. Twelve loci were screened for their feasibility to be used as high resolution genetic markers using each 30 individuals from two insular populations, Haha-jima and Mukou-jima. They showed polymorphisms of two to eight alleles per locus and expected heterozygosities of 0.124–0.789. There is no evidence for significant scoring error due to stuttering, large allele dropout and null alleles at 95% confidence interval except for the presence of null alleles in CLS00-77 of Mukou-jima population.     

Polymorphic microsatellite loci for Japanese Spanish mackerel (Scomberomorus niphonius)

We isolated and characterized 21 polymorphic microsatellite loci in Japanese Spanish mackerel (Scomberomorus niphonius) using a (GT)(13)-enriched genomic library. Forty individuals were collected from Qingdao, China. We found 3 to 24 alleles per locus, with a mean of 8.8. The observed and expected heterozygosities ranged from 0.263 to 0.975 and from 0.385 to 0.946, with means of 0.655 and 0.685, respectively. Deviation from Hardy-Weinberg proportions was detected at three loci. Two loci showed evidence for null alleles. These microsatellite markers will be useful for population genetic analysis of Japanese Spanish mackerel.     

Development and characterization of a large set of microsatellite markers in grapevine (Vitis vinifera L.) suitable for multiplex PCR

Despite their numerous advantages, the use of microsatellites as genetic markers could be limited because of the low number of loci that can be simultaneously analysed per experiment. To increase the information per simple sequence repeat (SSR) assay in the grapevine, we developed a large set of new markers suitable for multiplexing and multi-loading. We produced microsatellite motif-enriched genomic libraries containing preferentially large size inserts which allowed us to design primers generating a wide range of allele sizes in a very standard and unique PCR condition. Three hundred and fifty clones were sequenced and 190 of them (54%) contained microsatellite motifs with suitable flanking regions for primer design. We developed 169 new SSR markers giving suitable signal with fluorescent-based DNA detection. The total number of alleles detected varied from 1 to 8 per locus with an average of 3.5 and the mean expected heterozygosity was 0.544 (range: 0 0.86). Sixty-eight loci (40%) were perfect types, 73 (43%) were imperfect and 28 (17%) were compound or imperfect-compound. The number of alleles generated by perfect and imperfect type loci was positively correlated to the length of the microsatellite motif. Forty-six multiplex sets based on 125 selected loci were developed. Considering their allele size range, up to four PCR multiplex were pooled together for multi-loading. The 169 SSR loci developed in this study represent a new and informative set of markers easy to combine for multiplexing and multi-loading according to the needs of any user and suitable for large scale genetic analyses in grapevine.     

Development of 52 new polymorphic microsatellite markers for the olive flounder, Paralichthys olivaceus

We characterized 52 new microsatellite markers isolated from (GT)(n) and (CT)(n) microsatellite-enriched genomic libraries of the olive flounder (Paralichthys olivaceus). All markers were polymorphic, with eight to 30 (mean 15.1) alleles detected in 30 individuals from a single natural population. Observed heterozygosity ranged from 0.20 to 1.0. Segregation analysis within a mapping family revealed non-amplifying null alleles at six loci. These results indicate that these new microsatellite markers will be useful for population genetic, parentage, and genome mapping studies.     

Microsatellite markers for population studies of the rice blast fungus,Magnaporthe grisea

We developed nine new microsatellite markers for rice blast (Magnaporthe grisea) population studies. These markers were used in addition to nine microsatellite markers previously developed by our group for mapping purpose. Altogether, the 18 markers were used in multiplex PCR (polymerase chain reaction) to characterize six populations from different geographical origins. The average number of alleles per locus across populations ranged from 1.2 to 7 and the total number of alleles detected from 2 to 19. Based on this large range of polymorphism, this set of markers is expected to be useful for different kind of population studies at different geographical scales.     

An induced mass spawn of the hermaphroditic lion-paw scallop, Nodipecten subnodosus: genetic assignment of maternal and paternal parentage

The Pacific lion-paw scallop is commonly propagated for aquaculture by induced mass spawns of few individuals. Parentage of a mass spawn of this species has not been evaluated nor has the maternal and paternal contribution of each of these functional hermaphrodites to the progeny. Genotypes of 6 spawners and 374 resulting progeny at 6 microsatellite loci were coupled with mitochondrial DNA sequencing to assign maternal and paternal parentage. After the identification of a high proportion of null alleles (9.7%), microsatellite data revealed that 51.7% of the progenies were full siblings, with a significant, unequal contribution of the 6 spawners to the progeny. Three progenies were the result of self-fertilization. All spawners contributed paternally (though unequally); however, 2 spawners were the maternal parents of all but 7 progenies resulting in a variance effective population size of 3.52. DNA sequencing confirmed 4 microsatellite mutations within 4476 alleles scored, all in the paternal germ line. With minor exception, the loci conformed to Mendelian rules of segregation when null alleles were accounted for, and 2 loci were found to be linked. These results lend insight to the genetic composition of induced mass spawns and provide a basis for the development of more effective spawning techniques.     

Microsatellite allele sequencing in population analyses of the South American cactophilic species Drosophila antonietae (Diptera: Drosophilidae)

Drosophila antonietae belongs to the Drosophila buzzatii cluster, a cactophilic group of species naturally endemic to South America. Morphological and genetic analyses indicate that its populations are the most homogenous in the cluster and that the diversity observed is mainly a result of variation within populations. Seven polymorphic microsatellite loci were described for this species and used in the present study to investigate the genetic diversity of natural populations of D. antonietae by both length and sequence variation. The study aimed to understand how homoplasy and null alleles affect inferences about the population history of this species and to obtain an accurate interpretation of population inferences where these loci could be applied. The results provide useful information on the interpretation of genetic data derived from the microsatellite loci described for D. antonietae and on evolutionary aspects of cactophilic Drosophila. Importantly, the results indicate that size homoplasy and null alleles do not represent significant problems for the population genetics analyses because the large amount of variability at microsatellite loci compensate the low frequency of these problems in the populations. © 2010 The Linnean Society of London, Biological Journal of the Linnean Society, 2010, 100 , 573–584.     

Rapid identification of the north-western Pacific billfish species using quantitative real-time polymerase chain reaction techniques

Billfishes are important fishery resources traded and consumed worldwide. As morphological traits are usually removed during processing, molecular methods are applied to identify billfish products. In this study, the approaches of quantitative real-time PCR were developed to identify the six billfish species (Istiompax indica, Istiophorus platypterus, Kajikia audax, Makaira nigricans, Tetrapturus angustirostris and Xiphias gladius) widely distributed in the north-western Pacific Ocean. The developed singleplex systems showed high fidelities to each of the six species via either examining the ΔCt values or melting curve patterns. For samples containing multiple species, individual species are identifiable by a quantitative real-time PCR assay that includes all the singleplex systems. A multiplex system was also developed to identify unknown samples composed of a single species. The methods developed in this study provide a fast and high-throughput manner to identify the north-western Pacific billfish species when morphological traits are unavailable, such as in processed products.     

Two highly validated SSR multiplexes (8‐plex) for Euphrates' poplar,Populus euphratica (Salicaceae)

Multiplex PCR amplification of microsatellites has significantly increased the throughput and decreased the costs of genotyping. We have developed two highly polymorphic microsatellite multiplexes for Populus euphratica, the only tree species found in desert regions of Western China and adjacent Central Asian countries. The first of these multiplex kits comprises an eight‐Plex of genomic SSRs (gSSRs) obtained from published databases. The second comprises an eight‐plex of newly designed EST‐SSRs (eSSRs) based on expressed sequence tags for P. euphratica. Both kits were tested on a sample of 170 individuals from four populations. The gSSRs exhibited slightly more polymorphism than the eSSRs. The new multiplex protocols yielded consistent results in the hands of multiple researchers, demonstrating their robustness. The 16 loci used in the kits exhibited a high transferability rate (82.0%) in eight other poplar species belonging to five different sections of the genus. Both kits should therefore be useful for further investigations of population genetics in P. euphratica and related species. Our results indicate that it is essential to follow recently established recommendations when developing microsatellite markers, including verifying the amplification efficiency, detecting null alleles and carefully measuring error rates.     

Development and characterization of the first microsatellite markers in the mangrove species Pelliciera rhizophorae Triana & Planchon

Pelliciera rhizophorae is a unique Neotropical mangrove species belonging to Pelliciera genus. We isolated eight microsatellite loci from this species. All loci were polymorphic and showed three to nine alleles per locus in Colombian Pacific and Caribbean populations. Polymorphic information content ranged from 0.46 to 0.69. Two loci (PeRh‐14 and PeRh‐19) showed null alleles on the Caribbean coast, which suggest genetic differentiation between Pacific and Caribbean populations of P. rhizophorae. Development of these microsatellite loci constitutes a new molecular tool to carry out studies in the genome of the species and to evaluate its population dynamics.     

Development and multiplex PCR amplification of new microsatellite markers for the freshwater fish,ayu (Plecoglossus altivelis)

Multiplex polymerase chain reaction (PCR) technique has recently been applied to gain many advantages in molecular genetics. The present study focused on the development of 15 new microsatellite markers with multiplex PCR systems in ayu, Plecoglossus altivelis, an important freshwater fish in Japan. All loci were followed Mendelian inheritance in 27 F1 progeny except for the one locus. The number of alleles per locus ranged from nine to 44 and the observed heterozygosities ranged from 0.680 to 0.980 in 50 unrelated individuals. The results indicate that these new microsatellite markers are useful for studies of linkage mapping and population genetics for the species.     

Isolation and evaluation of 18 microsatellite markers in Siniperca chuatsi (Basilewsky)

Eighteen novel microsatellite markers were isolated in the Chinese perch Siniperca chuatsi (Basilewsky) using the FIASCO method, from (AC/TG)(n) , (AG/TC)(n) , (AT/TA)(n) , (GATA/CTAT)(n) and (GATT/CTAA)(n) repeat genomic libraries. The number of alleles per locus ranged from two to eight in a sample of 30 individuals from a wild population. Observed heterozygosity was between 0.100 and 0.737. Seven loci showed significant deviation from Hardy-Weinberg equilibrium, null alleles were suggested at nine loci but no linkage disequilibrium between loci was detected. These loci could be useful in the population genetic study of S. chuatsi.     

Microsatellite null alleles in parentage analysis

Highly polymorphic microsatellite markers are widely employed in population genetic analyses (eg, of biological parentage and mating systems), but one potential drawback is the presence of null alleles that fail to amplify to detected levels in the PCR assays. Here we examine 233 published articles in which authors reported the suspected presence of one or more microsatellite null alleles, and we review how these purported nulls were detected and handled in the data analyses. We also employ computer simulations and analytical treatments to determine how microsatellite null alleles might impact molecular parentage analyses. The results indicate that whereas null alleles in frequencies typically reported in the literature introduce rather inconsequential biases on average exclusion probabilities, they can introduce substantial errors into empirical assessments of specific mating events by leading to high frequencies of false parentage exclusions.