Characterization, development and multiplexing of microsatellite markers in three commercially exploited reef fish and their application for stock identification (original) (raw)
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Conservation Genetics Resources, 2017
novel microsatellite markers, we attempted to simplify the process of constructing a microsatellite-enriched library for multiplexed parallel sequencing. To capture microsatellite-containing sequences, we applied an easy-to-use commercially available kit for the hybridization and wash steps. After preparing shotgun libraries of 30 fish species for NGS, we captured microsatellite-containing DNA fragments directly from the shotgun libraries by using the commercially available kit. Next, three runs of multiplexed parallel sequencing were conducted on the 454 GS Junior platform. The resulting sequences for each species included high proportions of microsatellite-containing sequences (from 46 to 79%). Thus, sufficient numbers of primer sets, ranging from 1029 to 6606, were effectively designed for each species. Microsatellite capture and sequencing were completed in about a week, so the time required was substantially reduced. To validate the effectiveness of our strategy, we screened 44 potential primer sets designed for ayu (Plecoglossus altivelis). The results of polymorphisms revealed that allelic variability at 23 markers will be useful for studying population structure. These results prove the effectiveness of our improved approach for microsatellite marker development.
Conservation Genetics Resources, 2013
The clingfish, Lepadogaster lepadogaster is a reef fish species, abundant in temperate nearshore rocky reefs of the Eastern Atlantic and central and Eastern Mediterranean. To study genetic variability and population connectivity of this species, we developed fifteen polymorphic microsatellite markers. These were tested in one population and all but one, showed no departure from Hardy-Weinberg equilibrium. Average overall observed heterozygosity was 0.66 and allelic richness was 8.9. Two primer pairs revealed possible linkage disequilibrium. These markers open perspectives for population genetic studies of this species to unravel connectivity and population biology, vital information for future conservation studies.
Eight polymorphic markers were developed from South African isolates of Ophiostoma quercus. The genome was screened for repeat regions using the fast isolation by amplified fragment length polymorphism of sequences containing repeats protocol and 20 de novo primer pairs flanking putative microsatellite regions were designed. Eight loci were optimized and their polymorphisms evaluated by sequencing. The repeat and flanking regions were highly polymorphic containing both indels and base-pair substitutions revealing a total of 46 alleles in 14 isolates and an average heterozygosity of 0.68. Substantial sequence variability makes these markers useful for genotyping populations in order to calculate diversity and monitor global movement of O. quercus.
Molecular Biology Reports, 2019
Patagonian toohfish (Dissostichus eleginoides), is a sub Antartic notothenioid fish key in the marine ecosystem that sustains fishery of higher commercial value in the world. However, there are a scarce knowledge or information about its population genetic background, product of the almost null information of molecular markers available for this species. Here, we use high-throughput sequencing technology (Illumina platform) to develop 1071 microsatellite loci, of which 22 loci were selected to evaluation. Polymorphism and genetic diversity of each locus was assessed in two locations distant by 2370 km. Considering both locations, a mean PIC value of 0.748 was estimated. Selected microsatellite loci showed among two to seventeen alleles by locus in the first location and two to twelve in the second. The observed heterozygosity varied from 0.18 to 0.91 and from 0.12 to 0.87 for the first and second location, respectively. While, the expected heterozygosity ranged from 0.15 to 0.92 and from 0.11 to 0.90. Three loci were monomorphic in only one location. Microsatellite markers developed here will be useful in future studies on conservation, fishery and population genetics of this species.
Molecular biology reports, 2018
Rabbitfishes are reef-associated fishes that support local fisheries throughout the Indo-West Pacific region. Sound management of the resource requires the development of molecular tools for appropriate stock delimitation of the different species in the family. Microsatellite markers were developed for the cordonnier, Siganus sutor, and their potential for cross-amplification was investigated in 12 congeneric species. A library of 792 repeat-containing sequences was built. Nineteen sets of newly developed primers, and 14 universal finfish microsatellites were tested in S. sutor. Amplification success of the 19 Siganus-specific markers ranged from 32 to 79% in the 12 other Siganus species, slightly decreasing when the genetic distance of the target species to S. sutor increased. Seventeen of these markers were polymorphic in S. sutor and were further assayed in S. luridus, S. rivulatus, and S. spinus, of which respectively 9, 10 and 8 were polymorphic. Statistical power analysis and ...
High-Throughput Sequencing Strategy for Microsatellite Genotyping Using Neotropical Fish as a Model
Frontiers in genetics, 2018
Genetic diversity and population studies are essential for conservation and wildlife management programs. However, monitoring requires the analysis of multiple from many samples. These processes can be laborious and expensive. The choice of microsatellites and PCR calibration for genotyping are particularly daunting. Here we optimized a low-cost genotyping method using multiple microsatellite for simultaneous genotyping of up to 384 samples using next-generation sequencing (NGS). We designed primers with adapters to the combinatorial barcoding amplicon library and sequenced samples by MiSeq. Next, we adapted a bioinformatics pipeline for genotyping microsatellites based on read-length and sequence content. Using primer pairs for eight microsatellite from the fish , we amplified, sequenced, and analyzed the DNA of 96, 288, or 384 individuals for allele detection. The most cost-effective methodology was a pseudo-multiplex reaction using a low-throughput kit of 1 M reads (Nano) for 384...
Eleven polymorphic microsatellite loci in a coral reef fish, Pterapogon kauderni
Mol Ecol Notes, 2004
We describe the isolation and characterization of 11 polymorphic tetranucleotide microsatellite loci from a male mouthbrooding coral reef fish, the Banggai cardinalfish Pterapogon kauderni . In a sample of 37 fish from a natural population, polymorphism at these loci ranged from two to 15 alleles, with expected heterozygosities ranging from 0.107 to 0.928, enabling high-resolution genetic studies of this coral reef fish.
Ecology and Evolution, 2014
Microsatellites are often considered ideal markers to investigate ecological processes in animal populations. They are regularly used as genetic barcodes to identify species, individuals, and infer familial relationships. However, such applications are highly sensitive the number and diversity of microsatellite markers, which are also prone to error. Here, we propose a novel framework to assess the suitability of microsatellite datasets for parentage analysis and species discrimination in two closely related species of coral reef fish, Plectropomus leopardus and P. maculatus (Serranidae). Coral trout are important fisheries species throughout the Indo-Pacific region and have been shown to hybridize in parts of the Great Barrier Reef, Australia. We first describe the development of 25 microsatellite loci and their integration to three multiplex PCRs that coamplify in both species. Using simulations, we demonstrate that the complete suite of markers provides appropriate power to discriminate between species, detect hybrid individuals, and resolve parent-offspring relationships in natural populations, with over 99.6% accuracy in parent-offspring assignments. The markers were also tested on seven additional species within the Plectropomus genus with polymorphism in 28-96% of loci. The multiplex PCRs developed here provide a reliable and cost-effective strategy to investigate evolutionary and ecological dynamics and will be broadly applicable in studies of wild populations and aquaculture brood stocks for these closely related fish species.
Molecular Ecology Notes, 2006
Crimson red snapper (Lutjanus erythropterus) is an important marine foodfish species in Asia with great potentials for aquaculture. We isolated nine polymorphic microsatellites, among which eight were tetranucleotide repeats, and one was CA-microsatellite. The average allele number present in 48 individuals was 11.1/locus, ranging from three to 33. The expected heterozygosity ranged from 0.49 to 0.97 with an average of 0.74. Six of the nine markers conformed to the Hardy-Weinberg expectations. No pairwise markers showed the possibility of linkage. Protocols for two multiplex polymerase chain reactions (PCRs), each amplifying two and seven markers, respectively, were presented. The developed microsatellites and optimized multiplex PCRs will be useful for studying population structure of wild stocks and parentage assignment for cultured populations.