The primary objective of this study was to assess the performance of different genomic prediction models applied to the selection of purebreds for crossbred performancebased on high-density marker data. Our results suggest that in the presence of dominant gene action, selection based on the dominance model is superior to both the a breed-specific allele model and an additive model in terms of maximizing crossbred performance through purebred selection, especially when training is not updated each generatio
International audienceBackground In crossbreeding programs, various genomic prediction models have b...
In pig and poultry breeding programs, animals from genetically distinct purebred breeding lines are ...
We investigated the effectiveness of mate allocation strategies accounting for non-additive genetic ...
Background: Genomic selection is an appealing method to select purebreds for crossbred performance. ...
The primary objective of this study was to assess the performance of different genomic prediction mo...
Crossbreeding programs are used intensively in livestock production systems. The aim of selective-br...
Background: In livestock production, many animals are crossbred, with two distinct advantages: heter...
Background: Breeding goals in a crossbreeding system should be defined at the commercial crossbred l...
Breeding programs aiming to improve the performance of crossbreds may benefit from genomic predictio...
Background: In pig breeding, selection is usually carried out in purebred populations, although the ...
International audienceAbstractBackgroundBreed-specific effects are observed when the same allele of ...
Abstract Background Genomic selection can be applied to select purebreds for crossbred performance (...
The genome in crossbred animals is a mosaic of genomic regions inherited from the different parental...
The genome in crossbred animals is a mosaic of genomic regions inherited from the different parental...
In crossbreeding (CB) programs, genomic selection offers the opportunity to make efficient use of in...
International audienceBackground In crossbreeding programs, various genomic prediction models have b...
In pig and poultry breeding programs, animals from genetically distinct purebred breeding lines are ...
We investigated the effectiveness of mate allocation strategies accounting for non-additive genetic ...
Background: Genomic selection is an appealing method to select purebreds for crossbred performance. ...
The primary objective of this study was to assess the performance of different genomic prediction mo...
Crossbreeding programs are used intensively in livestock production systems. The aim of selective-br...
Background: In livestock production, many animals are crossbred, with two distinct advantages: heter...
Background: Breeding goals in a crossbreeding system should be defined at the commercial crossbred l...
Breeding programs aiming to improve the performance of crossbreds may benefit from genomic predictio...
Background: In pig breeding, selection is usually carried out in purebred populations, although the ...
International audienceAbstractBackgroundBreed-specific effects are observed when the same allele of ...
Abstract Background Genomic selection can be applied to select purebreds for crossbred performance (...
The genome in crossbred animals is a mosaic of genomic regions inherited from the different parental...
The genome in crossbred animals is a mosaic of genomic regions inherited from the different parental...
In crossbreeding (CB) programs, genomic selection offers the opportunity to make efficient use of in...
International audienceBackground In crossbreeding programs, various genomic prediction models have b...
In pig and poultry breeding programs, animals from genetically distinct purebred breeding lines are ...
We investigated the effectiveness of mate allocation strategies accounting for non-additive genetic ...