The loss of cut activity in Drosophila results in the transformation of the neurons and support cells of external sensory (es) organs into those of chordotonal (ch) organs. The cut locus encodes a homeo domain-containing protein, which is expressed in the cells of es, but not in ch, organs. We show by Western analyses the presence of two embryonic protein species whose approximate relative molecular masses of 280 and 320 kD are compatible with that predicted from the primary sequence. We also describe the development of the Cut protein expression pattern and show that Cut is expressed in sensory precursor cells that divide to give rise to es organs. Finally, we analyze the changes in the Cut expression pattern of several mutant alleles of the complex cut locus and show that the mutations affecting es organ development are associated with either altered protein distribution in the PNS or incorrect subcellular Cut protein localization.
The daughterless (da) gene is known to have separate maternal and zygotic functions: Maternally supplied daughterless activity is required for proper sex determination and dosage compensation in female embryos, whereas loss of zygotically supplied da"*" activity causes embryonic lethality in both male and female embryos. We have found that the zygotic da* activity is necessary for neural development: The use of neuron-specific antibodies and p-galactosidase-marked X chromosomes has revealed that in both male and female embryos deletions or strong mutations of the da gene remove all peripheral neurons and associated sensory structures without disrupting the epithelium from which they derive. Partial da"*^ function causes partial removal of peripheral neurons. Our results indicate that da"*^ is required for the formation of peripheral neurons and their associated sensory structures.
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