Abstract
Pathogen-mediated selection at the major histocompatibility complex (MHC) is thought to promote MHC-based mate choice in vertebrates. Mounting evidence implicates odour in conveying MHC genotype, but the underlying mechanisms remain uncertain. MHC effects on odour may be mediated by odour-producing symbiotic microbes whose community structure is shaped by MHC genotype. In birds, preen oil is a primary source of body odour and similarity at MHC predicts similarity in preen oil composition. Hypothesizing that this relationship is mediated by symbiotic microbes, we characterized MHC genotype, preen gland microbial communities and preen oil chemistry of song sparrows (Melospiza melodia). Consistent with the microbial mediation hypothesis, pairwise similarity at MHC predicted similarity in preen gland microbiota. Counter to this hypothesis, overall microbial similarity did not predict chemical similarity of preen oil. However, permutation testing identified a maximally predictive set of microbial taxa that best reflect MHC genotype, and another set of taxa that best predict preen oil chemical composition. The relative strengths of relationships between MHC and microbes, microbes and preen oil, and MHC and preen oil suggest that MHC may affect host odour both directly and indirectly. Thus, birds may assess MHC genotypes based on both host-associated and microbially mediated odours.
Highlights
The major histocompatibility complex (MHC), present in all jawed vertebrates, is a highly polymorphic gene family
We identified a best combination of six gas chromatograph with flame ionization detector (GC-FID) peaks at which chemical and MHC distance matrices were maximally correlated (Mantel’s r = 0.54, figure 2c, electronic supplementary material, table S4)
We hypothesized that MHC genotype shapes preen gland microbial communities, which in turn contribute to variation in the chemical composition of preen oil
Summary
The major histocompatibility complex (MHC), present in all jawed vertebrates, is a highly polymorphic gene family. MHC gene products are receptors that recognize invading antigens, bind and present them to T cells to initiate an adaptive immune response [1]. Individuals with a greater variety of alleles have broader antigen-binding repertoires and should be better protected against infectious disease [5]. These fitness effects may promote sexual selection in the form of MHC-based mate choice, and mating preferences for individuals with particular MHC profiles have been documented across vertebrate taxa [6]. Mechanisms must exist for assessing the MHC diversity or similarity of potential mates
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