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Reporting of Haplotypes with Recessive Effects on Fertility. Introduction. Five haplotypes with recessive effects on fertility discovered Additive effects small and in EBVs All populations already carry these At least 19 countries have ‘health’ laws excluding carriers of defects
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Introduction • Fivehaplotypes with recessive effects on fertility discovered • Additive effects small and in EBVs • All populations already carry these • At least 19 countries have ‘health’ laws excluding carriers of defects • Only countries that test are banned? • Import restrictions make little sense
Recessive Defect Discovery • Check for homozygous haplotypes • 7 to 90 expected but none observed • 5 of top 11 confirmed as lethal • 936 to 52,449 carrier sire by carrier MGS fertility records • 3.0% to 3.7% lower conception rates • Some slightly higher stillbirth rates • Confirmed Brachyspina same way
Additive and Nonadditive Effectson nonreturn rates or full gestation conception
Using Crossovers to Fine Map 75 marker haplotype (50K), about 5 Mbases Source Combined With Source Suspect Area Carrier Possible
Detection Without Haplotyping • 3 methods to detect carriers: • Use all genotypes and pedigrees • One at a time (ignore pedigree) • Find and test for causative mutation • Without vs. with haplotyping • 2.5% false positive, 0.05% false neg • Similar to Georges et al (2010) Brachyspinahaplotype test
Detection with 3K Genotypes500 carriers, 500 noncarriers, with imputation
Conclusions • Recessive defects found in each breed (HH1, HH2, HH3, JH1, BH1) • Officially reported in August • Most embryo losses < 60 days • Breeders should select for fertility, not against individual defects, and mate carriers to noncarriers • Crossovers used for fine mapping