Abstract

Species across the rodent genus Peromyscus have become prominent models for studying diverse mechanistic and evolutionary processes, including chromosome evolution, infectious disease transmission and human health, ecological adaptation, coat color variation, and parental care. Supporting such diverse research programs has been the development of genetic and genomic resources for species within this genus, including genome data, interspecific chromosome homologies, and a recently developed genetic map. Based on interspecific hybrids between the deer mouse (Peromyscus maniculatus bairdii) and the old-field, or beach, mouse (Peromyscus polionotus) and backcross progeny to Peromyscus maniculatus, a linkage map was developed based on 190 genes and 141 microsatellite loci. However, resolution of several linkage groups with respect to chromosome assignment was lacking and four chromosomes (8, 16, 20, and 21) were not clearly delineated with linkage data alone. The recent development of a high-density map for Peromyscus proved ineffective in resolving chromosome linkage for these four chromosomes. Herein we present an updated linkage map for Peromyscus maniculatus, including linkage group-chromosome assignments, using fluorescence in situ hybridization mapping of BACs and whole chromosome paints. We resolve the previously conflicting chromosome assignment of linkage groups to Chromosomes 8, 16, 20, and 21, and confirm the assignment of linkage groups to Chromosomes 18 and 22. This updated linkage map with validated chromosome assignment provides a solid foundation for chromosome nomenclature for this species.

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