As animals grow, scalar expansion of many types of neurons must be coordinated with animal growth to maintain receptive field coverage and proper connectivity, a process that is not well understood. Resulting from a genetic screen, the Parrish lab has generated and isolated a mutation that results in severe elongation of the ventral nerve cord. This mutation affects a predicted transcription factor of unknown function, senseless-2(sens-2). Although the origin of the defect is unknown, one possible explanation for the defect is that sens-2 regulates growth of the peripheral nerves. In the absence of sens-2 function, the peripheral nerves are unable to elongate properly and, as a result, larval growth leads to greater strain on the nerve cord, which leads to nerve cord elongation. An alternative explanation is that sens-2 is required in all the cells of the nerve cord (neurons and glia) for their growth. Thus, one major aim of this study is to produce antibodies that recognize the sens-2 protein. To accomplish this task, I will generate a plasmid vector for production of sens-2 protein in bacteria, perform a recombinant protein purification and submit the protein for antibody production. Upon receiving the antibody, I will perform a series of dissections accompanied by antibody staining and imaging in order to localize sens-2. A second major aim is to take an unbiased genetic approach to identify factors that interact with sens-2 to regulate nerve cord expansion. If we identify interactions with genes of known functions in growth control or patterning, it will allow us to formulate models to account for sens-2 function in nerve cord elongation. To accomplish this task, I will I will create a series of heterozygous sens-2/deficiency stocks and perform genetic screens to determine which genes in Drosophila interact with sens-2's molecular pathway.