Mallick, AhanaSerotonin (5-HT) is known to modulate early development during critical periods when experience drives heightened levels of plasticity in sensory systems. Studies in the somatosensory and visual cortices implicate multiple target points of serotonergic modulation, yet the underlying cellular and molecular mechanisms of 5-HT modulation of critical period plasticity remain elusive. Here, we take advantage of the genetically tractable olfactory system of Drosophila to investigate how 5-HT modulates critical period plasticity (CPP) in the CO2 sensing circuit of fruit flies. During the critical period, chronic exposure to CO2 has been shown to increase the volume of the CO2 sensing V glomerulus. We found that 5-HT release by serotonergic neurons in the antennal lobe (AL) is required for increase in the volume of the V glomerulus. Furthermore, signaling via the 5-HT1B, 5-HT2B and 5-HT7 receptors in different neuronal populations is also required during the critical period. Olfactory CPP is known to involve local inhibitory networks and consistent with this we found that knocking down 5-HT7 receptors in a subset of GABAergic local interneurons was sufficient to block CPP, as was knocking down GABA receptors expressed by olfactory sensory neurons (OSNs). Additionally, 5-HT2B expression in the cognate OSNs sensing CO2 is also essential for CPP indicating that direct modulation of OSNs also contributes to the olfactory CPP. Furthermore, 5-HT1B expression by serotonergic neurons in the olfactory system is also required during the critical period. Our study reveals that 5HT modulation of multiple neuronal targets is necessary for experience-dependent structural changes in an odor processing circuit. Finally, we wanted to isolate the neuromodulatory effects of individual serotonergic neurons. To achieve this, we combined a state-of-the-art technique to sparsely label serotonergic neurons and a computer algorithm to search against 10,000 Gal4 promoter lines and identify candidate lines that would allow individual manipulation of the 110 serotonergic neurons.enSEROTONIN REGULATES AN OLFACTORY CRITICAL PERIOD IN DROSOPHILADissertationBiologyNeurosciencesDevelopmental biologyantennal lobeDrosophilaearly life experienceglomerulussensory experiencestructural plasticity