Taste cues elicit prolonged modulation of feeding behavior in Drosophila
Julia U. Deere, Anita V. Devineni
Abstract
, we found that brief exposure to sugar enhanced future feeding responses, whereas bitter exposure suppressed them. This modulation relies on neural pathways distinct from those that acutely regulate feeding or mediate learning-dependent changes. Sensory neuron activity was required not only during initial taste exposure but also afterward, suggesting that ongoing sensory activity may maintain experience-dependent changes in downstream circuits. Thus, the brain stores a memory of each taste stimulus after it disappears, enabling animals to integrate information as they sequentially sample different taste cues that signal local food quality.
Topics & Concepts
Drosophila (subgenus)TasteAnimal behaviorNeuroscienceBiologyFeeding behaviorCommunicationDrosophila melanogasterPhysiologyPsychologyChemistryZoologyGeneticsGeneNeurobiology and Insect Physiology ResearchAnimal Behavior and ReproductionInsect Utilization and Effects