The Protein 4.1, Ezrin, Radixin, Moesin (FERM) Domain of Drosophila Coracle, a Cytoplasmic Component of the Septate Junction, Provides Functions Essential for Embryonic Development and Imaginal Cell Proliferation

The Protein 4.1, Ezrin, Radixin, Moesin (FERM) Domain of Drosophila Coracle, a Cytoplasmic Component of the Septate Junction, Provides Functions Essential for Embryonic Development and Imaginal Cell Proliferation

Robert E. Ward, IV^a, Liang Schweizer^a, Rebecca S. Lamb^a, and Richard G. Fehon^a
^a Developmental, Cell and Molecular Biology Group, Department of Biology, Duke University, Durham, North Carolina 27708-1000

Corresponding author: Richard G. Fehon, B333 LSRC Research Dr., Developmental, Cell and Molecular Biology Group/Department of Biology, Duke University, Durham, NC 27708-1000., rfehon{at}duke.edu (E-mail)

Communicating editor: K. V. ANDERSON

Coracle is a member of the Protein 4.1 superfamily of proteins,whose members include Protein 4.1, the Neurofibromatosis 2 tumorsuppressor Merlin, Expanded, the ERM proteins, protein tyrosinephosphatases, and unconventional myosins. Recent evidence suggeststhat members of this family participate in cell signaling events,including those that regulate cell proliferation and the cytoskeleton.Previously, we demonstrated that Coracle protein is localizedto the septate junction in epithelial cells and is requiredfor septate junction integrity. Loss of coracle function leadsto defects in embryonic development, including failure in dorsalclosure, and to proliferation defects. In addition, we determinedthat the N-terminal 383 amino acids define an essential functionaldomain possessing membrane-organizing properties. Here we investigatethe full range of functions provided by this highly conserveddomain and find that it is sufficient to rescue all embryonicdefects associated with loss of coracle function. In addition,this domain is sufficient to rescue the reduced cell proliferationdefect in imaginal discs, although it is incapable of rescuingnull mutants to the adult stage. This result suggests the presenceof a second functional domain within Coracle, a notion supportedby molecular characterization of a series of coracle alleles.

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