Chemoreceptor pleiotropy facilitates the functional coupling of the synthesis and perception of mating pheromones

Optimal mating decisions depend on stable signaling systems because any independent changes in either the signal or its perception could carry a fitness cost. However, since the perception and production of specific mating signals are often mediated by different tissues and cell types, the genetic and cellular mechanisms that drive and maintain their coupling on the evolutionary and physiological timescales remain unknown for most animal species. Here, we show that in Drosophila melanogaster , sensory perception and synthesis of an inhibitory mating pheromone is regulated by the action of Gr8a , a member of the Gustatory receptor gene family. Particularly, Gr8a acts as a pheromone chemoreceptor in the sensory system of males and females, and, independently regulates pheromone synthesis in the male fat body and oenocytes. These data provide a relatively simple molecular explanation for how genetic coupling allows for the robust and stable flow of social information at the population level.