Atypical cadherin, Fat2, regulates axon terminal organization in the developing olfactory receptor neurons.

The process of how neuronal identity confers circuit organization is intricately related to the mechanisms underlying neurodegeneration and neuropathologies. Modeling this process, the olfactory circuit builds a functionally organized topographic map, which requires widely dispersed neurons with the same identity to converge their axons into one a class-specific neuropil, a glomerulus. In this article, we identified Fat2 (also known as Kugelei) as a regulator of class-specific axon organization.

Social experience and pheromone receptor activity reprogram gene expression in sensory neurons.

Social experience and pheromone signaling in olfactory neurons affect neuronal responses and male courtship behaviors in Drosophila. We previously showed that social experience and pheromone signaling modulate chromatin around behavioral switch gene fruitless, which encodes a transcription factor necessary and sufficient for male sexual behaviors. Fruitless drives social experience-dependent modulation of courtship behaviors and physiological sensory neuron responses to pheromone; however, the molecular mechanisms underlying this modulation of neural responses remain less clear.

The effect of Drosophila attP40 background on the glomerular organization of Or47b olfactory receptor neurons.

Bacteriophage integrase-directed insertion of transgenic constructs into specific genomic loci has been widely used by Drosophila community. The attP40 landing site located on the second chromosome gained popularity because of its high inducible transgene expression levels. Here, unexpectedly, we found that homozygous attP40 chromosome disrupts normal glomerular organization of Or47b olfactory receptor neuron (ORN) class in Drosophila.

Ant Olfaction: Smells Like an Insect, Develops Like a Mammal.

A detailed description of olfactory system development in ants reveals that - unlike in Drosophila and as in mammals - olfactory receptors may play a role, providing new insights into the developmental evolution of complex chemosensory systems.