Development of a 690 K SNP array in catfish and its application for genetic mapping and validation of the reference genome sequence

Zeng, Qifan; Fu, Qiang; Li, Yun; Waldbieser, Geoff; Bosworth, Brian G.; Liu, Shikai; Yang, Yujia; Bao, Lisui; Yuan, Zihao; Li, Ning; Liu, Zhanjiang

doi:10.1038/srep40347

Cited by 51 publications

(44 citation statements)

References 85 publications

(90 reference statements)

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“…The highest levels of recombination are found in the middle of each chromosome. This pattern is exactly opposite the pattern observed in stickleback and catfish, where recombination is highest at the ends of the chromosomes [72,73].…”

Section: Patterns Of Recombination In O Niloticuscontrasting

confidence: 84%

Chromosome-scale assemblies reveal the structural evolution of African cichlid genomes

Conte

Joshi

Moore

et al. 2018

Preprint

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Section: Patterns Of Recombination In O Niloticuscontrasting

confidence: 84%

Chromosome-scale assemblies reveal the structural evolution of African cichlid genomes

Conte

Joshi

Moore

et al. 2018

Preprint

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“…Similarly, for map-based cloning, a high density of markers is needed to get as close as possible to the target candidate gene, implying the availability of an accurate dense map. Dense genetic maps were successfully used for anchoring physical contigs (Raats et al 2013) and sequence scaffolds (Mascher and Stein 2014) to LGs and controlling the quality of sequence assembly (Hedgecock et al 2015;Zeng et al 2017). High-coverage shotgun sequencing in combination with new analytical tools of sequence scaffolding, ultradense mapping, and three-dimensional chromosome-conformationcapture-sequencing data was successfully used for highquality sequencing of such a big and complex genome as wheat (https://www.wheatgenome.org/News2/RefSeq-v1.0-URGI).…”

Section: Discussionmentioning

confidence: 99%

Building Ultra-High-Density Linkage Maps Based on Efficient Filtering of Trustable Markers

et al. 2017

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The study is focused on addressing the problem of building genetic maps in the presence of ∼10-10 of markers per chromosome. We consider a spectrum of situations with intrachromosomal heterogeneity of recombination rate, different level of genotyping errors, and missing data. In the ideal scenario of the absence of errors and missing data, the majority of markers should appear as groups of cosegregating markers ("twins") representing no challenge for map construction. The central aspect of the proposed approach is to take into account the structure of the marker space, where each twin group (TG) and singleton markers are represented as points of this space. The confounding effect of genotyping errors and missing data leads to reduction of TG size, but upon a low level of these effects surviving TGs can still be used as a source of reliable skeletal markers. Increase in the level of confounding effects results in a considerable decrease in the number or even disappearance of usable TGs and, correspondingly, of skeletal markers. Here, we show that the paucity of informative markers can be compensated by detecting kernels of markers in the marker space using a clustering procedure, and demonstrate the utility of this approach for high-density genetic map construction on simulated and experimentally obtained genotyping datasets.

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“…Particularly with the SNP discovery through whole genome re-sequencing approaches, and improvement of genotyping techniques, commercially accessible assays have grown from thousands of markers, to hundreds of thousands markers for some species [e.g. salmon 130K [36], catfish 250K [37] and 690K [38], common carp 250K [39]]. While this is useful for some applications (e.g.…”

Section: Determining Snp Density Required For Grm Analysismentioning

confidence: 99%

Development and validation of a RAD-Seq target-capture based genotyping assay for routine application in advanced black tiger shrimp (Penaeus monodon) breeding programs

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Jones

Kjeldsen

et al. 2020

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Background The development of genome-wide genotyping resources has provided terrestrial livestock and crop industries with the unique ability to accurately assess genomic relationships between individuals, uncover the genetic architecture of commercial traits, as well as identify superior individuals for selection based on their specific genetic profile. Utilising recent advancements in de-novo genome-wide genotyping technologies, it is now possible to provide aquaculture industries with these same important genotyping resources, even in the absence of existing genome assemblies. Here, we present the development of a genome-wide SNP assay for the Black Tiger shrimp ( Penaeus monodon ) through utilisation of a reduced-representation whole-genome genotyping approach (DArTseq). Results Based on a single reduced-representation library, 31,262 polymorphic SNPs were identified across 660 individuals obtained from Australian wild stocks and commercial aquaculture populations. After filtering to remove SNPs with low read depth, low MAF, low call rate, deviation from HWE, and non-Mendelian inheritance, 7,542 high-quality SNPs were retained. From these, 4,236 high-quality genome-wide loci were selected for bates-probe development and 4,194 SNPs were included within a finalized target-capture genotype-by-sequence assay (DArTcap). This assay was designed for routine and cost effective commercial application in large scale breeding programs, and demonstrates higher confidence in genotype calls through increased call rate (from 80.2 ± 14.7 to 93.0% ± 3.5%), increased read depth (from 20.4 ± 15.6 to 80.0 ± 88.7), as well as a 3-fold reduction in cost over traditional genotype-by-sequencing approaches. Conclusion Importantly, this assay equips the P. monodon industry with the ability to simultaneously assign parentage of communally reared animals, undertake genomic relationship analysis, manage mate pairings between cryptic family lines, as well as undertake advance studies of genome and trait architecture. Critically this assay can be cost effectively applied as P. monodon breeding programs transition to undertake genomic selection at less than $15 AUD per sample.

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Development of a 690 K SNP array in catfish and its application for genetic mapping and validation of the reference genome sequence

Cited by 51 publications

References 85 publications

Chromosome-scale assemblies reveal the structural evolution of African cichlid genomes

Chromosome-scale assemblies reveal the structural evolution of African cichlid genomes

Building Ultra-High-Density Linkage Maps Based on Efficient Filtering of Trustable Markers

Development and validation of a RAD-Seq target-capture based genotyping assay for routine application in advanced black tiger shrimp (Penaeus monodon) breeding programs

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