The objective of the study was to develop a genomic evaluation for French beef cattle breeds and assess accuracy and bias of prediction for different genomic selection strategies. Based on a reference population of 2,682 Charolais bulls and cows, genotyped or imputed to a high-density SNP panel (777K SNP), we tested the influence of different statistical methods, marker densities (50K versus 777K), and training population sizes and structures on the quality of predictions. Four different training sets containing up to 1,979 animals and a unique validation set of 703 young bulls only known on their individual performances were formed. BayesC method had the largest average accuracy compared to genomic BLUP or pedigree-based BLUP. No gain of a...
Achieving accurate genomic estimated breeding values for dairy cattle requires a very large referenc...
Prediction of breeding values using whole-genome dense marker maps for genomic selection has become ...
Genomic tools to better define breed composition in agriculturally important species have sparked sc...
The accuracy of genomic predictions can be used to assess the utility of dense marker genotypes for ...
AbstractThis study investigated genomic prediction using medium-density (∼54,000; 54K) and high-dens...
Abstract Background Genomic se...
Background: Nellore cattle play an important role in beef production in tropical systems and there i...
Background In contrast to currently used single nucleotide polymorphism (SNP) panels, the use of who...
The aim of this study was to assess the accuracy of genomic predictions for 19 traits including feed...
Background: At the current price, the use of high-density single nucleotide polymorphisms (SNP) geno...
Some traits are controlled by single genes, such as many genetic abnormalities, and some cattlemen a...
Genomic prediction of breeding values is now used as the basis for selection of dairy cattle, and in...
Background: The success of genomic selection depends mainly on the extent of linkage disequilibrium ...
The objectives of this Ph.D. thesis were (1) to optimise genomic selection in dairy cattle with resp...
Charolais bulls are selected for their crossbreed performance when mated to Montbéliard or Holstein ...
Achieving accurate genomic estimated breeding values for dairy cattle requires a very large referenc...
Prediction of breeding values using whole-genome dense marker maps for genomic selection has become ...
Genomic tools to better define breed composition in agriculturally important species have sparked sc...
The accuracy of genomic predictions can be used to assess the utility of dense marker genotypes for ...
AbstractThis study investigated genomic prediction using medium-density (∼54,000; 54K) and high-dens...
Abstract Background Genomic se...
Background: Nellore cattle play an important role in beef production in tropical systems and there i...
Background In contrast to currently used single nucleotide polymorphism (SNP) panels, the use of who...
The aim of this study was to assess the accuracy of genomic predictions for 19 traits including feed...
Background: At the current price, the use of high-density single nucleotide polymorphisms (SNP) geno...
Some traits are controlled by single genes, such as many genetic abnormalities, and some cattlemen a...
Genomic prediction of breeding values is now used as the basis for selection of dairy cattle, and in...
Background: The success of genomic selection depends mainly on the extent of linkage disequilibrium ...
The objectives of this Ph.D. thesis were (1) to optimise genomic selection in dairy cattle with resp...
Charolais bulls are selected for their crossbreed performance when mated to Montbéliard or Holstein ...
Achieving accurate genomic estimated breeding values for dairy cattle requires a very large referenc...
Prediction of breeding values using whole-genome dense marker maps for genomic selection has become ...
Genomic tools to better define breed composition in agriculturally important species have sparked sc...