8/2/2023 0 Comments Mitbbs quant![]() Progress 10/01/03 to 09/30/07 Outputs OUTPUTS: Genome-wide genetic evaluation might involve the computation of BLUP-like estimations, potentially including thousands of covariates (i.e., single-nucleotide polymorphism markers) for each record. How can genomic information from completely sequenced model organisms (fruit fly, human, mouse, zebrafish, and arabadopsis) be used to infer gene structure, regulation and function in agriculturally or ecologically important species, whose genomes may never be completely sequenced? What types of traits benefit most by including molecular information in selection programs? 5. How much additional improvement can a breeder expect to make by including such information in breeding programs and at what cost? 4. What is the optimum method of incorporating such genomic information into breeding programs toĮnhance rates of genetic improvement? 3. What are the optimum strategies to map genes for quantitative traits, so-called quantitative trait loci or QTL, in outbred populations, with and without pedigrees, such as those used in tree breeding? 2. Issues that must be addressed for implementation of genomics in plant and animal breeding programs include: 1. The issues and questions detailed above are best addressed by scientists working in diverse fields of genetics, from gene mapping to bioinformatics, and with a diverse range of species, both plant and animal. With the advent of molecular genetics, those limitations no longer need apply. Those advancements were limited by the relatively simplistic assumptions of the models used for inheritance of quantitative traits and the tools available for estimating genetic worth. Non Technical Summary Population and quantitative genetics have had remarkable success in both plant and animal breeding. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |