Abstract
Pheromones are used by many insects to mediate social interactions. In the highly eusocial honeybee (Apis mellifera) queen mandibular pheromone (QMP) is involved in the regulation of reproduction and behaviour of workers. The molecular mechanisms by which QMP acts are largely unknown. Here we investigate how genes responsible for epigenetic modifications to DNA, RNA and histones respond to the presence of QMP. We show that several of these genes are upregulated in the honeybee brain when workers are exposed to QMP. This provides a plausible mechanism by which pheromone signalling may influence gene expression in the brain of honeybee workers. We propose that pheromonal communication systems, such as those used by social insects, evolved to respond to environmental signals by making use of existing epigenomic machineries.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
Contact Information Carlos A. M. Cardoso-Júnior – carloscardoso.bio{at}usp.br; Phone: +55 16 3315 3063, Isobel Ronai – isobel.ronai{at}sydney.edu.au, Klaus Hartfelder – klaus{at}fmrp.usp.br, Benjamin Oldroyd – benjamin.oldroyd{at}sydney.edu.au
