This study assessed the accuracy and bias of genomic prediction (GP) in purebred Holstein (H) and Jersey (J) as well as crossbred (H and J) validation cows using different reference sets and prediction strategies. The reference sets were made up of different combinations of 36,695 H and J purebreds and crossbreds. Additionally, the effect of using different sets of marker genotypes on GP was studied (conventional panel: 50k, custom panel enriched with, or close to, causal mutations: XT_50k, and conventional high-density with a limited custom set: pruned HDnGBS). We also compared the use of genomic best linear unbiased prediction (GBLUP) and Bayesian (emBayesR) models, and the traits tested were milk, fat, and protein yields. On average, by ...
Genomic selection is applied to dairy cattle breeding to improve the genetic progress of purebred (P...
This paper reviews strategies and methods to improve accuracies of genomic predictions from the pers...
Background: In future Best Linear Unbiased Prediction (BLUP) evaluations of dairy cattle, genomic se...
Achieving accurate genomic estimated breeding values for dairy cattle requires a very large referenc...
Because of an increasing interest in crossbreeding between dairy breeds in dairy cattle herds, farme...
The success and sustainability of a breeding program incorporating genomic information is largely de...
The impact of utilizing the genomic relationship matrix (G) computed based on breedwise allele frequ...
Charolais bulls are selected for their crossbreed performance when mated to Montbéliard or Holstein ...
BACKGROUND: Two key findings from genomic selection experiments are 1) the reference population used...
International audienceOfficial multibreed genomic evaluations for dairy cattle in the United States ...
The size of the reference population is critical in order to improve the accuracy of genomic predict...
International audienceAbstractBackgroundFitting covariates representing the number of haplotype alle...
For genomic prediction of crossbred animals, models that account for the breed origin of alleles (BO...
Marker sets used in US dairy genomic predictions were previously expanded by including high-density ...
Background: Genomic selection is increasingly widely practised, particularly in dairy cattle. Howeve...
Genomic selection is applied to dairy cattle breeding to improve the genetic progress of purebred (P...
This paper reviews strategies and methods to improve accuracies of genomic predictions from the pers...
Background: In future Best Linear Unbiased Prediction (BLUP) evaluations of dairy cattle, genomic se...
Achieving accurate genomic estimated breeding values for dairy cattle requires a very large referenc...
Because of an increasing interest in crossbreeding between dairy breeds in dairy cattle herds, farme...
The success and sustainability of a breeding program incorporating genomic information is largely de...
The impact of utilizing the genomic relationship matrix (G) computed based on breedwise allele frequ...
Charolais bulls are selected for their crossbreed performance when mated to Montbéliard or Holstein ...
BACKGROUND: Two key findings from genomic selection experiments are 1) the reference population used...
International audienceOfficial multibreed genomic evaluations for dairy cattle in the United States ...
The size of the reference population is critical in order to improve the accuracy of genomic predict...
International audienceAbstractBackgroundFitting covariates representing the number of haplotype alle...
For genomic prediction of crossbred animals, models that account for the breed origin of alleles (BO...
Marker sets used in US dairy genomic predictions were previously expanded by including high-density ...
Background: Genomic selection is increasingly widely practised, particularly in dairy cattle. Howeve...
Genomic selection is applied to dairy cattle breeding to improve the genetic progress of purebred (P...
This paper reviews strategies and methods to improve accuracies of genomic predictions from the pers...
Background: In future Best Linear Unbiased Prediction (BLUP) evaluations of dairy cattle, genomic se...