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Accuracy of Imputation of Microsatellite Markers from a 50K SNP Chip in Spanish Assaf Sheep.

Héctor MarinaAroa Suarez-VegaRocío PelayoBeatriz Gutiérrez-GilAntonio ReverterCristina Esteban-BlancoJuan José Arranz
Published in: Animals : an open access journal from MDPI (2021)
Transitioning from traditional to new genotyping technologies requires the development of bridging methodologies to avoid extra genotyping costs. This study aims to identify the optimum number of single nucleotide polymorphisms (SNPs) necessary to accurately impute microsatellite markers to develop a low-density SNP chip for parentage verification in the Assaf sheep breed. The accuracy of microsatellite marker imputation was assessed with three metrics: genotype concordance (C), genotype dosage (length r2), and allelic dosage (allelic r2), for all imputation scenarios tested (0.5-10 Mb microsatellite flanking SNP windows). The imputation accuracy for the three metrics analyzed for all haplotype lengths tested was higher than 0.90 (C), 0.80 (length r2), and 0.75 (allelic r2), indicating strong genotype concordance. The window with 2 Mb length provides the best accuracy for the imputation procedure and the design of an affordable low-density SNP chip for parentage testing. We additionally evaluated imputation performance under two null models, naive (imputing the most common allele) and random (imputing by randomly selecting the allele), which in comparison showed weak genotype concordances (0.41 and 0.15, respectively). Therefore, we describe a precise methodology in the present article to impute multiallelic microsatellite genotypes from a low-density SNP chip in sheep and solve the problem of parentage verification when different genotyping platforms have been used across generations.
Keyphrases
  • genome wide
  • genetic diversity
  • high throughput
  • dna methylation
  • circulating tumor cells
  • high density
  • gene expression
  • climate change
  • antiretroviral therapy