Animals; Breeding; Chromosome Mapping/methods; Crosses, Genetic; Genetic Techniques; Genetics, Population/methods; Genomics/methods; Genotype; Humans; Hybridization, Genetic; Inbreeding; Mutation; Quantitative Trait Loci; Research Design; Collaborative Cross (CC); Congenic lines; Consomic and chromosome substitution lines; Diversity outcross (DO); Gene-by-environment interactions (G x E); Genetic reference population (GRP); Heterogeneous stock (HS); Hybrid diversity panel (HDP); RI intercross (RIX) and RI backcross (RIB) progeny; Recombinant congenic strains; Recombinant inbred (RI); Reduced complexity cross (RCC)
Résumé :
[en] A key characteristic of systems genetics is its reliance on populations that vary to a greater or lesser degree in genetic complexity-from highly admixed populations such as the Collaborative Cross and Diversity Outcross to relatively simple crosses such as sets of consomic strains and reduced complexity crosses. This protocol is intended to help investigators make more informed decisions about choices of resources given different types of questions. We consider factors such as costs, availability, and ease of breeding for common scenarios. In general, we recommend using complementary resources and minimizing depth of resampling of any given genome or strain.
Disciplines :
Génétique & processus génétiques
Auteur, co-auteur :
Williams, Robert W.
WILLIAMS, Evan ; University of Luxembourg > Luxembourg Centre for Systems Biomedicine (LCSB)
