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1.
J Evol Biol ; 28(6): 1213-24, 2015 06.
Article in English | MEDLINE | ID: mdl-25867293

ABSTRACT

Communication signals are key regulators of social networks and are thought to be under selective pressure to honestly reflect social status, including dominance status. The odours of dominants and nondominants differentially influence behaviour, and identification of the specific pheromones associated with, and predictive of, dominance status is essential for understanding the mechanisms of network formation and maintenance. In mice, major urinary proteins (MUPs) are excreted in extraordinary large quantities and expression level has been hypothesized to provide an honest signal of dominance status. Here, we evaluate whether MUPs are associated with dominance in wild-derived mice by analysing expression levels before, during and after competition for reproductive resources over 3 days. During competition, dominant males have 24% greater urinary MUP expression than nondominants. The MUP darcin, a pheromone that stimulates female attraction, is predictive of dominance status: dominant males have higher darcin expression before competition. Dominants also have a higher ratio of darcin to other MUPs before and during competition. These differences appear transient, because there are no differences in MUPs or darcin after competition. We also find MUP expression is affected by sire dominance status: socially naive sons of dominant males have lower MUP expression, but this apparent repression is released during competition. A requisite condition for the evolution of communication signals is honesty, and we provide novel insight into pheromones and social networks by showing that MUP and darcin expression is a reliable signal of dominance status, a primary determinant of male fitness in many species.


Subject(s)
Gene Expression Regulation/physiology , Pheromones/metabolism , Social Dominance , Animal Communication , Animals , Competitive Behavior , Creatinine , Electrophoresis, Polyacrylamide Gel , Female , Male , Mice , Proteinuria
2.
Genes Immun ; 14(6): 365-72, 2013 Sep.
Article in English | MEDLINE | ID: mdl-23698707

ABSTRACT

Using an experimental evolution approach, we recently demonstrated that the mouse-specific pathogen Friend virus (FV) complex adapted to specific major histocompatibility complex (MHC) genotypes, which resulted in fitness tradeoffs when viruses were exposed to hosts possessing novel MHC polymorphisms. Here we report the analysis of patterns of pathogen adaptation and virulence evolution from viruses adapting to one of three hosts that differ across the entire genome (A/WySn, DBA/2J and BALB/c). We found that serial passage of FV complex through these mouse genotypes resulted in significant increases in pathogen fitness (156-fold) and virulence (11-fold). Adaptive responses by post-passage viruses also resulted in host-genotype-specific patterns of adaptation. To evaluate the relative importance of MHC versus non-MHC polymorphisms as factors influencing pathogen adaptation and virulence, we compared the magnitude of fitness tradeoffs incurred by post-passage viruses when infecting hosts possessing either novel MHC polymorphisms alone or hosts possessing novel MHC and non-MHC polymorphisms. MHC polymorphisms alone accounted for 71% and 83% of the total observed reductions in viral fitness and virulence in unfamiliar host genotypes, respectively. Strikingly, these data suggest that genetic polymorphisms within the MHC, a gene region representing only -0.1% of the genome, are major host factors influencing pathogen adaptation and virulence evolution.


Subject(s)
Adaptation, Physiological/genetics , Evolution, Molecular , Friend murine leukemia virus/pathogenicity , Host-Parasite Interactions , Major Histocompatibility Complex/genetics , Polymorphism, Genetic , Animals , Friend murine leukemia virus/genetics , Genetic Fitness , Genotype , Host Specificity , Mice , Mice, Inbred Strains , Virulence/genetics
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