A pleiotropic chemoreceptor facilitates the production and perception of mating pheromones.

Optimal mating decisions depend on the robust coupling of signal production and perception because independent changes in either could carry a fitness cost. However, since the perception and production of mating signals are often mediated by different tissues and cell types, the mechanisms that drive and maintain their coupling remain unknown for most animal species. Here, we show that in behavioral responses to, and the production of, a putative inhibitory mating pheromone are co-regulated by , a member of the gene family. Specifically, through behavioral and pheromonal data, we found that independently regulates the behavioral responses of males and females to a putative inhibitory pheromone, as well as its production in the fat body and oenocytes of males. Overall, these findings provide a relatively simple molecular explanation for how pleiotropic receptors maintain robust mating signaling systems at the population and species levels.