IMPLEMENTATION OF WHOLE GENOME SELECTION IN THE U.S. BEEF CATTLE INDUSTRIES
Bovine Functional Genomics
2012 Annual Report
1a.Objectives (from AD-416):
Use the BovineSNP50 assay to provide high-accuracy predictions of genetic merit to U.S. beef breeds; enable the adoption of whole genome enabled animal selection (WGEAS) by developing low-density and low-cost SNP assays for: intermediate-accuracy genetic prediction, mate selection, and parentage verification and traceability; develop, adapt and optimize statistical methodologies to: fully integrate SNP genotype or haplotype effects into existing genetic evaluation technologies, and supplement or replace pedigree data; and collaborate and coordinate U.S. and European Union WGEAS activities.
1b.Approach (from AD-416):
Genetic prediction using high-density SNP data will be implemented using MTDFREML. Implementation of more sophisticated strategies will follow using the MTGSAM programs that will be modified to accommodate extensions to the prediction model. Collaboration with a biotechnology company to develop a 384-SNP assay that is expected to dramatically decrease genotyping costs and increase sample throughput. A machine learning approach using a two-step feature subset selection algorithm will be evaluated for SNP selection for this assay. Develop BLUP approaches for the prediction of genetic merit in non-pedigreed populations using molecular relationship matrices. We shall manage this coordination and collaboration via e-mail and teleconference calls, however, we shall also meet at least annually in conjunction with the PAG or ISAG meetings alternating between the U.S. and Europe to coordinate activities.
An objective for the beef project is the integration of Molecular Breeding Values (MBV) into the genetic evaluations for Expected Progeny Differences. The beef industry scenario differs greatly from the dairy in that due to intellectual property issues surrounding the SNP identity for commercially available DNA tests, there currently is the need to integrate the MBV itself rather than SNP genotypes or other strategies requiring genotypic information. We developed methods for this integration for a within breed evaluation for multiple traits (both linear and threshold traits) including maternal effects. We also developed strategies to incorporate multiple MBV (evolving panels or from different commercialization companies) and that allow for a MBV with variable accuracy (which can result when imputing from a lower to a higher density panel) in a computationally efficient manner. The method for multiple traits and multiple MBV within a single breed was adopted by Angus Genetics, Inc. for evaluations of carcass traits. This research supports the related in-house project to use genotypic data and resulting bovine haplotype map to enhance genetic improvement in dairy cattle through development and implementation of whole-genome selection and enhanced parentage verification approaches (obj. #2).