Abstract
Genetic diversity and population studies are essential for conservation and wildlife management programs. However, monitoring requires the analysis of multiple loci 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 loci 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 loci from the fish Prochilodus costatus, 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 DNA samples. We observed an average of 325 reads per individual per locus when genotyping eight loci. Assuming a minimum requirement of 10 reads per loci, two to four times more loci could be tested in each run, depending on the quality of the PCR reaction of each locus. In conclusion, we present a novel method for microsatellite genotyping using Illumina combinatorial barcoding that dispenses exhaustive PCR calibrations, since non-specific amplicons can be eliminated by bioinformatics analyses. This methodology rapidly provides genotyping data and is therefore a promising development for large-scale conservation-genetics studies.
Highlights
Innovative technological applications in the field of conservation genetics can contribute to wildlife monitoring and management programs
As no information on the variants of the microsatellite region studied here was available in public databases, we identified the possible variants at the edges of the repetition of each of the eight loci
The number of reads generated with the Nano kit allowed genotyping of all individuals
Summary
Innovative technological applications in the field of conservation genetics can contribute to wildlife monitoring and management programs. Microsatellites are DNA units composed of repeating motifs in tandem, known as simple sequence repeats (SSRs) or short tandem repeats. Due to their high degree of polymorphism, microsatellites are used as molecular markers in genetic structure, kinship identification, genetic mapping, and others population genetics studies (Buschiazzo and Gemmell, 2006; Chistiakov et al, 2006; Yazbeck and Kalapothakis, 2007; Bhargava and Fuentes, 2010). The high statistical power per locus obtained through microsatellites genotyping makes this a powerful tool in population studies (Guichoux et al, 2011; Putman and Carbone, 2014). Microsatellites are preferred in forensic and kinship analyses due to their high mutation rates and multiallelic nature (Clayton et al, 1998), and are the markers most frequently used in human paternity tests (Guichoux et al, 2011)
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