A Genetic Screen for Modifiers of Drosophila Src42A Identifies Mutations in Egfr, rolled and a Novel Signaling Gene

A Genetic Screen for Modifiers of Drosophila Src42A Identifies Mutations in Egfr, rolled and a Novel Signaling Gene

Qian Zhang^a, Qingxia Zheng^a, and Xiangyi Lu^a
^a Department of Molecular Biosciences, The University of Kansas, Lawrence, Kansas 66045

Corresponding author: Xiangyi Lu, Department of Molecular Biosciences, The University of Kansas, Lawrence, KS 66045., xlu{at}kuhub.cc.ukans.edu (E-mail)

Communicating editor: T. SCHÜPBACH

Drosophila Src42A, a close relative of the vertebrate c-Src,has been implicated in the Ras-Mapk signaling cascade. An alleleof Src42A, Su(Raf)1, dominantly suppresses the lethality ofpartial loss-of-function Raf mutations. To isolate genes involvedin the same pathway where Src42A functions, we carried out geneticscreens for dominant suppressor mutations that prevented Su(Raf)1from suppressing Raf. Thirty-six mutations representing at leastfive genetic loci were recovered from the second chromosome.These are Drosophila EGF Receptor (Egfr), rolled, Src42A, andtwo other new loci, one of which was named semang (sag). Duringembryogenesis, sag affects the development of the head, tail,and tracheal branches, suggesting that it participates in thepathways of Torso and DFGF-R1 receptor tyrosine kinases. sagalso disrupts the embryonic peripheral nervous system. Duringthe development of imaginal discs, sag affects two processesknown to require Egfr signaling: the recruitment of photoreceptorcells and wing vein formation. Thus sag functions in severalreceptor tyrosine kinase (RTK)-mediated processes. In addition,sag dominantly enhances the phenotypes associated with loss-of-functionRaf and rl, but suppresses those of activated Ras1^V12 mutation.This work provides the first genetic evidence that both Src42Aand sag are modulators of RTK signaling.

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