A Mutational Analysis of dishevelled in Drosophila Defines Novel Domains in the Dishevelled Protein as Well as Novel Suppressing Alleles of axin

A Mutational Analysis of dishevelled in Drosophila Defines Novel Domains in the Dishevelled Protein as Well as Novel Suppressing Alleles of axin

Andrea Penton^a, Andreas Wodarz^a,b, and Roel Nusse^a
^a Howard Hughes Medical Institute, Department of Developmental Biology, Stanford University Medical School, Stanford, California 94305-5323
^b Institut für Genetik Heinrich-Heine-Universität Düsseldorf, 40225 Düsseldorf, Germany

Corresponding author: Roel Nusse, Stanford University Medical School, Howard Hughes Medical Institute, Stanford, CA 94305-5323., rnusse{at}cmgm.stanford.edu (E-mail)

Communicating editor: T. SCHÜPBACH

Drosophila dishevelled (dsh) functions in two pathways: it isnecessary to transduce Wingless (Wg) signaling and it is requiredin planar cell polarity. To learn more about how Dsh can discriminatebetween these functions, we performed genetic screens to isolateadditional dsh alleles and we examined the potential role ofprotein phosphorylation by site-directed mutagenesis. We identifiedtwo alleles with point mutations in the Dsh DEP domain thatspecifically disrupt planar polarity signaling. When positionedin the structure of the DEP domain, these mutations are locatedclose to each other and to a previously identified planar polaritymutation. In addition to the requirement for the DEP domain,we found that a cluster of potential phosphorylation sites ina binding domain for the protein kinase PAR-1 is also essentialfor planar polarity signaling. To identify regions of dsh thatare necessary for Wg signaling, we screened for mutations thatmodified a GMR-GAL4;UAS-dsh overexpression phenotype in theeye. We recovered many alleles of the transgene containing missensemutations, including mutations in the DIX domain and in theDEP domain, the latter group mapping separately from the planarpolarity mutations. In addition, several transgenes had mutationswithin a domain containing a consensus sequence for an SH3-bindingprotein. We also recovered second-site-suppressing mutationsin axin, mapping at a region that may specifically interactwith overexpressed Dsh.

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