Abstract
The number of reproductive partners per individual varies markedly across animal mating systems. This variation may be an important determinant of patterns of immunogenetic diversity, particularly at Major Histocompatibility Complex (MHC) Class I and II loci. To compare immunogenetic variation in taxa with markedly different mating systems, we used RNAseq-generated data to quantify genotypic diversity in three species of Peromyscine rodents: the monogamous California mouse (Peromyscus californicus) and the polygynandrous deer mouse (P. maniculatus) and brush mouse (P. boylii). By sampling populations of these species from multiple localities in California, we were able to conduct replicated analyses of the relationship between mating system and immunogenetic variation. Across the four localities sampled, diversity at MHC Class I and II genes was consistently higher in the two polygynandrous species. We found no evidence that sampling location (i.e., variation in habitat conditions) contributed to observed differences in MHC variation among populations or species. Collectively, our data indicate that immunogenetic variation in Peromyscine mice is associated with reproductive behavior, rather than geographic locality or habitat type. The consistently greater variability detected in the polygynandrous species examined suggests that balancing selection imposed by behaviorally-mediated pathogen exposure is important in maintaining variation at MHC genes in these animals.
Highlights
Mating systems are complex behavioral phenotypes, the genomic implications of which are generally poorly understood [1,2]
For the 64 animals used in the RNAseq experiment, analyses of cyt-b sequences confirmed that all individuals identified in the field as P. californicus (n = 32) and P. boylii (n = 16) were correctly assigned to these species
Differences in immunogenetic diversity among our study species were consistent with predictions based on the mating systems of these animals, with the polygynandrous P. maniculatus and P. boylii displaying greater diversity at Major Histocompatibility Complex (MHC) genes than the monogamous P. californicus
Summary
Mating systems are complex behavioral phenotypes, the genomic implications of which are generally poorly understood [1,2]. Studies that explore interactions between reproductive behavior and patterns of genetic variability have often focused on the genes of the Major Histocompatibility Complex (MHC), an emphasis that reflects the critical role of these genes in the adaptive immune response [3,4]. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript
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