Abstract
BackgroundQuantitative traits, such as disease resistance, are most often controlled by a set of genes involving a complex array of regulation. The dissection of genetic basis of quantitative traits requires large numbers of genetic markers with good genome coverage. The application of next-generation sequencing technologies has allowed discovery of over eight million SNPs in catfish, but the challenge remains as to how to efficiently and economically use such SNP resources for genetic analysis.ResultsIn this work, we developed a catfish 250K SNP array using Affymetrix Axiom genotyping technology. The SNPs were obtained from multiple sources including gene-associated SNPs, anonymous genomic SNPs, and inter-specific SNPs. A set of 640K high-quality SNPs obtained following specific requirements of array design were submitted. A panel of 250,113 SNPs was finalized for inclusion on the array. The performance evaluated by genotyping individuals from wild populations and backcross families suggested the good utility of the catfish 250K SNP array.ConclusionsThis is the first high-density SNP array for catfish. The array should be a valuable resource for genome-wide association studies (GWAS), fine QTL mapping, high-density linkage map construction, haplotype analysis, and whole genome-based selection.
Highlights
IntroductionImproved brood stocks with a high level of disease resistance are desperately needed
Quantitative traits, such as disease resistance, are most often controlled by a set of genes involving a complex array of regulation
Single nucleotide polymorphisms (SNPs) are efficient for genome-wide association studies (GWAS) because linkage disequilibrium can be detected with high-density SNPs when dealing with complex traits
Summary
Improved brood stocks with a high level of disease resistance are desperately needed Quantitative traits, such as disease resistance, are most often controlled by a set of genes involving a complex array of regulation [1,2,3]. Simultaneous analysis of thousands of SNPs have enabled genome-wide association studies for performance and production traits in chicken [5,6], pig [7,8], cattle [9,10,11], horse [12] and sheep [13,14] Such studies have not been possible with most aquaculture species including catfish due to the lack of genome-wide SNP markers and high-throughput SNP genotyping platforms
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