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SRX7226052: Genotyping-by-Sequencing of Taxidea taxus jacksoni
1 ILLUMINA (Illumina MiSeq) run: 124,120 spots, 32.2M bases, 19.8Mb downloads

Design: The major histocompatibility complex (MHC) locus DRB exon 2 (Drb3c - Rico et al. 2016), two sex-determining loci (ZFX - Aasen and Medrano 1990; SRY - Fain and LeMay 1995), and twenty-eight microsatellite regions were amplified using primers developed in American badger (Tt1, Tt2, Tt3, Tt4 - Davis and Strobeck 1998; Tt13, Tt15, Tt17, Tt20, Tt21, Tt22, Tt23, Tt24, Tt27 - Rico et al. 2014), European badger (Meles meles: Mel1, Mel14 - Domingo-Roura et al. 2003; Mel101, Mel108, Mel111, Mel112 - Carpenter et al. 2003), American marten (Martes americana: Ma1 - Davis and Strobeck 1998), wolverine (Gulo gulo: Ggu234 - Duffy et al. 1998; Gg443, Gg465 - Walker et al. 2001), mink (Mustela vison: Mvis072 - Fleming et al. 1999; Mvi87 - OConnell et al. 1996), fisher (Pekania pennanti: MP85, MP0182 - Jordan et al. 2007), and ermine (Mustela ermina: Mer082 - Fleming et al. 1999). Multiplex PCRs were indexed using the Nextera XT Index Kit v2 and the amplicon libraries were then pooled and sequenced on a Illumina MiSeq run using paired 300 bp reads and MiSeq v3 reagents.
Submitted by: Trent University
Study: Development of a genotyping-by-sequencing assay in American badger
show Abstracthide Abstract
Non-invasive DNA sampling to identify and enumerate species is critical to population monitoring and for developing effective management strategies. However, individual DNA identification is often limited by degraded and low copy number (LCN) DNA that routinely yields partial profiles prone to technical artifacts, thus limiting their utility/reliability. Massively parallel, genotyping-by-sequencing (GBS) assays present an opportunity to amplify not only a large suite of molecular markers simultaneously, providing higher resolution to identify individuals, but also higher levels of sequence redundancy to enable quality metric evaluations of profiles from LCN DNA. Taxidea taxus jacksoni is an endangered badger subspecies in Canada, with low levels of genetic diversity, complicating individual identifications from closely related DNA sequences. Challenges arise from the small number of hairs collected from snag traps set in badger burrows that rarely provide full profiles. We designed a GBS assay to obtain microsatellite profiles compatible with pre-existing databases generated with conventional capillary electrophoresis (CE) genotyping. We assessed the assay's reproducibility via a dilution series to mimic LCN DNA and tested if the assay produced similar CE-generated results. While GBS offers the potential to genotype large numbers of individuals and markers at the same time, we found low concordance between GBS- and CE-based genotypes from DNA templates < 250 pg. We recommend existing wildlife genetic databases focus on tetra-nucleotide microsatellite or SNP markers to reduce or eliminate sequencing artifacts (i.e., stutter) that present challenges for GBS genotypes from degraded and LCN DNA, and the use of sample replicates to form consensus genotypes.
Sample: Dulited DNA (250 pg) used for Multiplex PCR and amplicon library preparation
SAMN13414330 • SRS5726779 • All experiments • All runs
Library:
Name: FT88-250pg
Instrument: Illumina MiSeq
Strategy: AMPLICON
Source: GENOMIC
Selection: PCR
Layout: PAIRED
Runs: 1 run, 124,120 spots, 32.2M bases, 19.8Mb
Run# of Spots# of BasesSizePublished
SRR10542634124,12032.2M19.8Mb2020-04-01

ID:
9492122

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