Final Report Summary - EVONEURO (Evolution of olfactory circuits)
Through functional and anatomical comparisons of olfactory pathways for food-derived odours in ecologically-diverse drosophilid species, we have discovered profound alterations in the function and expression of specific olfactory receptors, as well as in the circuits in which they act. We have mapped the molecular determinants underlying the changes in receptor function, identified novel mechanisms that ensure their selective expression in sensory neuron populations, discovered molecules that may drive the evolution of novel neural pathways in the brain, and used cross-species genome-editing approaches to identify the causal basis of the adaptations of circuit properties as well as the relevance of these for species-specific odour-guided behaviours.
By addressing how particular olfactory circuits and behaviours have evolved in Drosophila, the project has provided general insights into the genetic mechanisms of nervous system evolution relevant both for other brain regions and for other species. Determining how brains have been sculpted through random mutation and natural selection in the past may enable future directed manipulation of the connectivity and activity of neural circuits, to enhance our understanding of brains and our ability to repair them.