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Genetic diversity and genomic inbreeding in Japanese Black cows in the islands of Okinawa Prefecture evaluated using single‐nucleotide polymorphism array

Ryouhei Suezawa, Hideki Nikadori, Shinji Sasaki

2021Animal Science Journal19 citationsDOI

Abstract

Abstract Maintaining genetic diversity and inbreeding control are important in Japanese Black cattle production, especially in remote areas such as the islands of Okinawa Prefecture. Using a single‐nucleotide polymorphism (SNP) array, we evaluated the genetic diversity and genomic inbreeding in Japanese Black cows from the islands of Okinawa Prefecture and compared them to those from other locations across Japan. Linkage disequilibrium decay was slower in cows in the islands of Okinawa Prefecture. The estimated effective population size declined over time in both populations. The genomic inbreeding coefficient (F ROH ) was estimated using long stretches of consecutive homozygous SNPs (runs of homozygosity; ROH). F ROH was higher in the cows on the islands of Okinawa Prefecture than on other locations. In total, 818 ROH fragments, including those containing NCAPG and PLAG1 , which are major quantitative trait loci for carcass weight in Japanese Black cattle, were present at significantly higher frequencies in cows in the islands of Okinawa Prefecture. This suggests that the ROH fragments are under strong selection and that cows in the islands of Okinawa Prefecture have low genetic diversity and high genomic inbreeding relative to those at other locations. SNP arrays are useful tools for evaluating genetic diversity and genomic inbreeding in cattle.

Topics & Concepts

InbreedingRuns of HomozygosityGenetic diversityBiologySingle-nucleotide polymorphismLinkage disequilibriumGeneticsPopulationNucleotide diversityEffective population sizeGenetic variationGenotypeGeneDemographyHaplotypeSociologyGenetic and phenotypic traits in livestockGenetic Mapping and Diversity in Plants and AnimalsLivestock Farming and Management