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Estimating autozygosity from high-throughput information: effects of SNP density and genotyping errors
by
Curik, Ino
, Ferenčaković, Maja
, Sölkner, Johann
in
Agriculture
/ Analysis
/ Animal Genetics and Genomics
/ Animal populations
/ Animals
/ Biomedical and Life Sciences
/ Biotechnology industry
/ Cattle
/ Cattle - genetics
/ Chromosomes
/ Computer programs
/ Density
/ Education
/ Empirical analysis
/ Evolutionary Biology
/ Gene polymorphism
/ Genetic aspects
/ Genetic diversity
/ Genetic testing
/ Genetic Variation
/ Genome
/ Genomes
/ Genomics
/ Genotype
/ Genotypes
/ Genotyping
/ Heterozygote
/ High-Throughput Nucleotide Sequencing
/ Homozygosity
/ Homozygote
/ Human populations
/ Humans
/ Inbreeding
/ Life Sciences
/ Livestock
/ Male
/ Nucleotides
/ Polymorphism
/ Polymorphism, Single Nucleotide
/ Populations
/ Quality control
/ Regression Analysis
/ Science
/ Single nucleotide polymorphisms
/ Single-nucleotide polymorphism
/ Software
/ Studies
2013
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Estimating autozygosity from high-throughput information: effects of SNP density and genotyping errors
by
Curik, Ino
, Ferenčaković, Maja
, Sölkner, Johann
in
Agriculture
/ Analysis
/ Animal Genetics and Genomics
/ Animal populations
/ Animals
/ Biomedical and Life Sciences
/ Biotechnology industry
/ Cattle
/ Cattle - genetics
/ Chromosomes
/ Computer programs
/ Density
/ Education
/ Empirical analysis
/ Evolutionary Biology
/ Gene polymorphism
/ Genetic aspects
/ Genetic diversity
/ Genetic testing
/ Genetic Variation
/ Genome
/ Genomes
/ Genomics
/ Genotype
/ Genotypes
/ Genotyping
/ Heterozygote
/ High-Throughput Nucleotide Sequencing
/ Homozygosity
/ Homozygote
/ Human populations
/ Humans
/ Inbreeding
/ Life Sciences
/ Livestock
/ Male
/ Nucleotides
/ Polymorphism
/ Polymorphism, Single Nucleotide
/ Populations
/ Quality control
/ Regression Analysis
/ Science
/ Single nucleotide polymorphisms
/ Single-nucleotide polymorphism
/ Software
/ Studies
2013
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Estimating autozygosity from high-throughput information: effects of SNP density and genotyping errors
by
Curik, Ino
, Ferenčaković, Maja
, Sölkner, Johann
in
Agriculture
/ Analysis
/ Animal Genetics and Genomics
/ Animal populations
/ Animals
/ Biomedical and Life Sciences
/ Biotechnology industry
/ Cattle
/ Cattle - genetics
/ Chromosomes
/ Computer programs
/ Density
/ Education
/ Empirical analysis
/ Evolutionary Biology
/ Gene polymorphism
/ Genetic aspects
/ Genetic diversity
/ Genetic testing
/ Genetic Variation
/ Genome
/ Genomes
/ Genomics
/ Genotype
/ Genotypes
/ Genotyping
/ Heterozygote
/ High-Throughput Nucleotide Sequencing
/ Homozygosity
/ Homozygote
/ Human populations
/ Humans
/ Inbreeding
/ Life Sciences
/ Livestock
/ Male
/ Nucleotides
/ Polymorphism
/ Polymorphism, Single Nucleotide
/ Populations
/ Quality control
/ Regression Analysis
/ Science
/ Single nucleotide polymorphisms
/ Single-nucleotide polymorphism
/ Software
/ Studies
2013
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Estimating autozygosity from high-throughput information: effects of SNP density and genotyping errors
Journal Article
Estimating autozygosity from high-throughput information: effects of SNP density and genotyping errors
2013
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Overview
Background
Runs of homozygosity are long, uninterrupted stretches of homozygous genotypes that enable reliable estimation of levels of inbreeding (i.e., autozygosity) based on high-throughput, chip-based single nucleotide polymorphism (SNP) genotypes. While the theoretical definition of runs of homozygosity is straightforward, their empirical identification depends on the type of SNP chip used to obtain the data and on a number of factors, including the number of heterozygous calls allowed to account for genotyping errors. We analyzed how SNP chip density and genotyping errors affect estimates of autozygosity based on runs of homozygosity in three cattle populations, using genotype data from an SNP chip with 777 972 SNPs and a 50 k chip.
Results
Data from the 50 k chip led to overestimation of the number of runs of homozygosity that are shorter than 4 Mb, since the analysis could not identify heterozygous SNPs that were present on the denser chip. Conversely, data from the denser chip led to underestimation of the number of runs of homozygosity that were longer than 8 Mb, unless the presence of a small number of heterozygous SNP genotypes was allowed within a run of homozygosity.
Conclusions
We have shown that SNP chip density and genotyping errors introduce patterns of bias in the estimation of autozygosity based on runs of homozygosity. SNP chips with 50 000 to 60 000 markers are frequently available for livestock species and their information leads to a conservative prediction of autozygosity from runs of homozygosity longer than 4 Mb. Not allowing heterozygous SNP genotypes to be present in a homozygosity run, as has been advocated for human populations, is not adequate for livestock populations because they have much higher levels of autozygosity and therefore longer runs of homozygosity. When allowing a small number of heterozygous calls, current software does not differentiate between situations where these calls are adjacent and therefore indicative of an actual break of the run versus those where they are scattered across the length of the homozygous segment. Simple graphical tests that are used in this paper are a current, yet tedious solution.
Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V
Subject
/ Analysis
/ Animal Genetics and Genomics
/ Animals
/ Biomedical and Life Sciences
/ Cattle
/ Density
/ Genome
/ Genomes
/ Genomics
/ Genotype
/ High-Throughput Nucleotide Sequencing
/ Humans
/ Male
/ Polymorphism, Single Nucleotide
/ Science
/ Single nucleotide polymorphisms
/ Single-nucleotide polymorphism
/ Software
/ Studies
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