Genetic basis of chemical communication in eusocial insects

Social behavior is one of the most fascinating and complex behaviors in humans and animals. A fundamental process of social behavior is communication among individuals. It relies on the capability of the nervous system to sense, process, and interpret various signals (e.g., pheromones) and respond with appropriate decisions and actions. Eusocial insects, including ants, some bees, some wasps, and termites, display intriguing cooperative social behavior. Recent advances in genetic and genomic studies have revealed key genes that are involved in pheromone synthesis, chemosensory perception, and physiological and behavioral responses to varied pheromones. In this review, we highlight the genes and pathways that regulate queen pheromone-mediated social communication, discuss the evolutionary changes in genetic systems, and outline prospects of functional studies in sociobiology.

Automated summary

Social behavior relies on the nervous system's ability to sense and interpret signals, with pheromones playing a crucial role in communication. Eusocial insects exhibit cooperative behavior, with evolutionary changes in genetic systems influencing social behavior. Recent genetic and genomic studies have uncovered key genes involved in pheromone synthesis and chemosensory perception.