biostudies-literatureUnknown9(5)Lin YPTo mine new favorable alleles for tomato breeding, we investigated the feasibility of utilizing <i>Solanum pimpinellifolium</i> as a diverse panel of genome-wide association study through the restriction site-associated DNA sequencing technique. Previous attempts to conduct genome-wide association studies using <i>S. pimpinellifolium</i> were impeded by an inability to correct for population stratification and by lack of high-density markers to address the issue of rapid linkage disequilibrium decay. In the current study, a set of 24,330 SNPs was identified using 99 <i>S. pimpinellifolium</i> accessions from the Tomato Genetic Resource Center. Approximately 84% of <i>Pst</i>I site-associated DNA sequencing regions were located in the euchromatic regions, resulting in the tagging of most SNPs on or near genes. Our genotypic data suggested that <i>S. pimpinellifolium</i> were divided into three single-ancestry subpopulations and four mixed-ancestry subpopulations. Additionally, our SNP genotypic data consistently confirmed the genetic differentiation, achieving a relatively reliable correction of population stratification. Previous studies utilized the 8K tomato SNP array, SolCAP, to investigate the genetic variation of <i>S. pimpinellifolium</i> and we performed a meta-analysis of these genotypes. The result suggested SolCAP array was less appropriate to profile the genetic differentiation of <i>S. pimpinellifolium</i> when more accessions were involved because the samples belonging to the same accession demonstrated different genome patterns. Moreover, as expected, rapid linkage disequilibrium decay was observed in <i>S. pimpinellifolium</i>, especially in euchromatic regions. Approximately two-thirds of the flanking SNP markers did not display linkage disequilibrium based on <i>r²</i> = 0.1. However, the 18-Kb linkage disequilibrium decay indeed reveals the potential of single-gene resolution in GWAS when markers are saturated.G3 (Bethesda, Md.)1497-1505https://www.ebi.ac.uk/biostudies/studies/S-EPMC6505160biostudies-literatureAssessment of Genetic Differentiation and Linkage Disequilibrium in <i>Solanum pimpinellifolium</i> Using Genome-Wide High-Density SNP Markers.PMC6505160Liu CYChen KYLin YPfalseAssessment of Genetic Differentiation and Linkage Disequilibrium in <i>Solanum pimpinellifolium</i> Using Genome-Wide High-Density SNP Markers.To mine new favorable alleles for tomato breeding, we investigated the feasibility of utilizing <i>Solanum pimpinellifolium</i> as a diverse panel of genome-wide association study through the restriction site-associated DNA sequencing technique. Previous attempts to conduct genome-wide association studies using <i>S. pimpinellifolium</i> were impeded by an inability to correct for population stratification and by lack of high-density markers to address the issue of rapid linkage disequilibrium decay. In the current study, a set of 24,330 SNPs was identified using 99 <i>S. pimpinellifolium</i> accessions from the Tomato Genetic Resource Center. Approximately 84% of <i>Pst</i>I site-associated DNA sequencing regions were located in the euchromatic regions, resulting in the tagging of most SNPs on or near genes. Our genotypic data suggested that <i>S. pimpinellifolium</i> were divided into three single-ancestry subpopulations and four mixed-ancestry subpopulations. Additionally, our SNP genotypic data consistently confirmed the genetic differentiation, achieving a relatively reliable correction of population stratification. Previous studies utilized the 8K tomato SNP array, SolCAP, to investigate the genetic variation of <i>S. pimpinellifolium</i> and we performed a meta-analysis of these genotypes. The result suggested SolCAP array was less appropriate to profile the genetic differentiation of <i>S. pimpinellifolium</i> when more accessions were involved because the samples belonging to the same accession demonstrated different genome patterns. Moreover, as expected, rapid linkage disequilibrium decay was observed in <i>S. pimpinellifolium</i>, especially in euchromatic regions. Approximately two-thirds of the flanking SNP markers did not display linkage disequilibrium based on <i>r²</i> = 0.1. However, the 18-Kb linkage disequilibrium decay indeed reveals the potential of single-gene resolution in GWAS when markers are saturated.2019-01-01T00:00:00Z2019 May2024-11-13T03:32:26.696Z2019-06-06T23:28:34ZS-EPMC65051603085823610.1534/g3.118.200862