An Enhancer Trap Screen for Ecdysone-Inducible Genes Required for Drosophila Adult Leg Morphogenesis

An Enhancer Trap Screen for Ecdysone-Inducible Genes Required for Drosophila Adult Leg Morphogenesis

Julie Gates^a and Carl S. Thummel^a
^a Department of Human Genetics, Howard Hughes Medical Institute, University of Utah, Salt Lake City, Utah 84112-5331

Corresponding author: Carl S. Thummel, Department of Human Genetics, HHMI, University of Utah, 15 N. 2030 East, Rm. 5100, Salt Lake City, UT 84112-5331., carl.thummel{at}genetics.utah.edu (E-mail)

Communicating editor: S. HENIKOFF

Although extensive studies of Drosophila imaginal disc developmenthave focused on proliferation and patterning, relatively littleis known about how the patterned imaginal discs are transformedinto adult structures during metamorphosis. Studies focusedprimarily on leg development have shown that this remarkabletransformation is coordinated by pulses of the steroid hormoneecdysone and requires the function of ecdysone-inducible transcriptionfactors as well as proteases and components of the contractilecytoskeleton and adherens junctions. Here, we describe a geneticscreen aimed at expanding our understanding of the hormonalregulation of Drosophila adult leg morphogenesis. We screened1300 lethal P-element enhancer trap insertions on the secondchromosome for a series of sequential parameters including pupallethality, defects in leg morphogenesis, and ecdysone-inducedlacZ reporter gene expression. From this screen we identifiedfour mutations, one of which corresponds to bancal, which encodesthe Drosophila homolog of hnRNP K. We also identified vulcan,which encodes a protein that shares sequence similarity witha family of rat SAPAP proteins. Both bancal and vulcan are inducibleby ecdysone, thus linking the hormone signal with leg morphogenesis.This screen provides new directions for understanding the hormonalregulation of leg development during Drosophila metamorphosis.

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