Amelia L. Ritger scite author profile

Queens and workers of eusocial Hymenoptera are considered homologous to the reproductive and brood care phases of an ancestral subsocial life cycle. However, the molecular mechanisms underlying the evolution of reproductive division of labor remain obscure. Using a brain transcriptomics screen, we identified a single gene, (), which is always up-regulated in ant reproductives, likely because they are better nourished than their nonreproductive nestmates. In clonal raider ants (), larval signals inhibit adult reproduction by suppressing , thus producing a colony reproductive cycle reminiscent of ancestral subsociality. However, increasing ILP2 peptide levels overrides larval suppression, thereby breaking the colony cycle and inducing a stable division of labor. These findings suggest a simple model for the origin of ant eusociality via nutritionally determined reproductive asymmetries potentially amplified by larval signals.

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Sparse and stereotyped encoding implicates a core glomerulus for ant alarm behavior

Hart

Frank

Lopes

et al. 2022

Preprint

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Ants communicate via large arrays of pheromones and possess expanded, highly complex olfactory systems, with antennal lobes in the brain comprising ~500 glomeruli. This expansion implies that odors could activate hundreds of glomeruli, which would pose challenges for higher order processing. To study this problem, we generated the first transgenic ants, expressing the genetically encoded calcium indicator GCaMP6s in olfactory sensory neurons. Using two-photon imaging, we mapped complete glomerular responses to four ant alarm pheromones. Alarm pheromones robustly activated ≤6 glomeruli, and activity maps for the three pheromones inducing panic-alarm in our study species converged on a single glomerulus. These results demonstrate that, rather than using broadly tuned combinatorial encoding, ants employ precise, narrowly tuned, and stereotyped representation of alarm pheromone cues. The identification of a central sensory hub glomerulus for alarm behavior suggests that a simple neural architecture is sufficient to translate pheromone perception into behavioral outputs.

show abstract

Sparse and stereotyped encoding implicates a core glomerulus for ant alarm behavior

Hart

Frank

Lopes

et al. 2023

Cell

View full text Add to dashboard Cite

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Amelia L. Ritger

Social regulation of insulin signaling and the evolution of eusociality in ants

Sparse and stereotyped encoding implicates a core glomerulus for ant alarm behavior

Sparse and stereotyped encoding implicates a core glomerulus for ant alarm behavior

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