A Genetic Screen for Modifiers of a Kinase Suppressor of Ras-Dependent Rough Eye Phenotype in Drosophila

A Genetic Screen for Modifiers of a Kinase Suppressor of Ras-Dependent Rough Eye Phenotype in Drosophila

Marc Therrien^a, Deborah K. Morrison^b, Allan M. Wong^a, and Gerald M. Rubin^a
^a Howard Hughes Medical Institute and Department of Molecular and Cell Biology, University of California, Berkeley, California 94720-3200
^b Molecular Basis of Carcinogenesis Laboratory, ABL-Basic Research Program, National Cancer Institute, Frederick Cancer Research and Development Center, Frederick, Maryland 21702

Corresponding author: Gerald M. Rubin, Howard Hughes Medical Institute, 545 Life Sciences addition #3200, University of California, Berkeley, CA 94720-3200., gerry{at}fruitfly.BDGP.berkeley.edu (E-mail)

Communicating editor: R. S. HAWLEY

kinase suppressor of Ras (ksr) encodes a putative protein kinasethat by genetic criteria appears to function downstream of RASin multiple receptor tyrosine kinase (RTK) pathways. While biochemicalevidence suggests that the role of KSR is closely linked tothe signal transduction mechanism of the MAPK cascade, the precisemolecular function of KSR remains unresolved. To further elucidatethe role of KSR and to identify proteins that may be requiredfor KSR function, we conducted a dominant modifier screen inDrosophila based on a KSR-dependent phenotype. Overexpressionof the KSR kinase domain in a subset of cells during Drosophilaeye development blocks photoreceptor cell differentiation andresults in the external roughening of the adult eye. Therefore,mutations in genes functioning with KSR might modify the KSR-dependentphenotype. We screened $~$ 185,000 mutagenized progeny for dominantmodifiers of the KSR-dependent rough eye phenotype. A totalof 15 complementation groups of Enhancers and four complementationgroups of Suppressors were derived. Ten of these complementationgroups correspond to mutations in known components of the Ras1pathway, demonstrating the ability of the screen to specificallyidentify loci critical for Ras1 signaling and further confirminga role for KSR in Ras1 signaling. In addition, we have identified4 additional complementation groups. One of them correspondsto the kismet locus, which encodes a putative chromatin remodelingfactor. The relevance of these loci with respect to the functionof KSR and the Ras1 pathway in general is discussed.

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