Development of SNP-Based Molecular Markers by Re-Sequencing Strategy in Peanut

Abstract

The objective of this study was to develop high-throughput SNP or SNP-based markers by re-sequencing of two peanut cultivars, 'K-Ol' and 'Pungan'. The whole genome re-sequencing for the two cultivars was performed to produce sequences of 35.3 × 10 9 bp with 350 × 10 6 reads and 32.0 × 10 9 bp with 318 × 10 6 reads, respectively. As compared with the peanut reference genome, the distribution of homozygous and heterozygous SNPs on each chromosome showed very similar patterns between 'K-Ol' and 'Pungan', and most of them were in intergenic-region regardless of the peanut cultivars and reference genome type. The SNPs identified between the two peanut cultivars were evenly distributed across chromosomes of peanut diploid A and B reference genomes. It indicated that these SNPs could be available to construct a genetic map using the segregating population derived from a cross between 'K-Ol' and 'Pungan'. Total 61 CAPS marker were developed and tested for their availability. Of the CAPS markers, 60 CAPS markers produced normal PCR products and 18 out of them presented polymorphism among 6 peanut varieties. Results of the present study could provide useful genetic resources to facilitate marker-assisted selection for breeding programs as well as germplasm screening for peanut.