Genomic selection: A paradigm shift in animal breeding
Norwegian University of Life Sciences · La Trobe University · +2 more institutions
Abstract
Traditional marker-assisted selection (MAS) did not result in a widespread use of DNA information in animal breeding. The main reason was that the traits of interest in livestock production were much more complex than expected: they were determined by thousands of genes with small effects on phenotype. These effects were usually too small to be statistically significant and so were ignored. Genomic selection (GS) assumes that all markers might be linked to a gene affecting the trait and concentrates on estimating their effect rather than testing its significance. Three technological breakthroughs resulted in the current wide-spread use of DNA information in animal breeding: the development of the genomic…
Citation impact
- FWCI
- 35.84
- Percentile
- 100%
- References
- 52
Authors
3- TMT.H.E. MeuwissenCorresponding
Norwegian University of Life Sciences
- BJBen J. Hayes
La Trobe University
- MGMike Goddard
The University of Melbourne, Department of Economic Development Jobs Transport and Resources
Topics & keywords
- Breed
- Biology
- Selection (genetic algorithm)
- Trait
- Livestock
- Animal breeding
- Single-nucleotide polymorphism
- Genetics