Genetically displaced sensory neurons in the head of Drosophila project via different pathways into the same specific brain regions

Abstract

The sensory projection pattern of homoeotic antennal or leg tissue in the proboscis of the mutant proboscipedia in Drosophila melanogaster was studied using orthograde diffusion of cobalt chloride. Both kinds of ectopic nerve fibers terminate in the normal center of the proboscis and in the antennal glomerulus of the brain. These centers are attained by axons which may pass via four different peripheral nerves. In contrast, wild-type proboscis fibers use only one pathway. Depending on the site of entrance into the brain, homoeotic axons may project into the proboscis center first, and then into the antennal glomerulus, or vice versa. Consequently, the tract between these two brain regions may be followed in opposite directions. Ectopic leg axons extending into normal leg centers in the thoracic ganglion have not been found. Projection patterns in proboscipedia are discussed together with those of the leg-like antenna in spineless-aristapedia ( R. F. Stocker and P. A. Lawrene, 1981, Dev. Biol. 82, 224–237). The fact that displaced antennal and leg neurons project specifically into normal proboscis and antennal centers may reflect the serial homology of antennal, leg, and proboscis neurons, and similar homology of the corresponding centers.