Ras1 Interacts With Multiple New Signaling and Cytoskeletal Loci in Drosophila Eggshell Patterning and Morphogenesis

Ras1 Interacts With Multiple New Signaling and Cytoskeletal Loci in Drosophila Eggshell Patterning and Morphogenesis

Jon D. Schnorr^a,b, Robert Holdcraft^b, Brett Chevalier^c, and Celeste A. Berg^b,c
^a Department of Biology, Whitman College, Walla Walla, Washington 99362,
^b Department of Genetics, University of Washington, Seattle, Washington 98195-7360
^c Molecular and Cellular Biology Program, University of Washington, Seattle, Washington 98195-5330

Corresponding author: Jon D. Schnorr, Department of Biology, Pacific University, 2043 College Way, Forest Grove, OR 97116., schnorr{at}pacificu.edu (E-mail)

Communicating editor: T. SCHÜPBACH

Little is known about the genes that interact with Ras signalingpathways to regulate morphogenesis. The synthesis of dorsaleggshell structures in Drosophila melanogaster requires multiplerounds of Ras signaling followed by dramatic epithelial sheetmovements. We took advantage of this process to identify genesthat link patterning and morphogenesis; we screened lethal mutationson the second chromosome for those that could enhance a weakRas1 eggshell phenotype. Of 1618 lethal P-element mutationstested, 13 showed significant enhancement, resulting in forkedand fused dorsal appendages. Our genetic and molecular analysestogether with information from the Berkeley Drosophila GenomeProject reveal that 11 of these lines carry mutations in previouslycharacterized genes. Three mutations disrupt the known Ras1cell signaling components Star, Egfr, and Blistered, while onemutation disrupts Sec61ß, implicated in ligand secretion.Seven lines represent cell signaling and cytoskeletal componentsthat are new to the Ras1 pathway; these are Chickadee (Profilin),Tec29, Dreadlocks, POSH, Peanut, Smt3, and MESK2, a suppressorof dominant-negative Ksr. A twelfth insertion disrupts two genes,Nrk, a "neurospecific" receptor tyrosine kinase, and Tpp, whichencodes a neuropeptidase. These results suggest that Ras1 signalingduring oogenesis involves novel components that may be intimatelyassociated with additional signaling processes and with thereorganization of the cytoskeleton. To determine whether theseRas1 Enhancers function upstream or downstream of the Egf receptor,four mutations were tested for their ability to suppress anactivated Egfr construct ( ${lambda}$ top) expressed in oogenesis exclusivelyin the follicle cells. Mutations in Star and l(2)43Bb had nosignificant effect upon the ${lambda}$ top eggshell defect whereas smt3and dock alleles significantly suppressed the ${lambda}$ top phenotype.

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