Multiple Roles of a Trimeric G Protein in Drosophila Cell Polarization

Vladimir L. Katanaev and Andrew Tomlinson

volume 5 | issue 21

1 november 2006
Pages: 2464 - 2472

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Polarization of the cellular cytoskeleton underlies many cellular processes including axon growth cone guidance, chemotaxis and yeast mating. Planar cell polarity (PCP) is a similar phenomenon in which cells in an epithelium become uniformly polarized to generate a field of aligned structures such as the hair cells of the cochlea. In Drosophila PCP is under the hierarchical control of Frizzled (Fz) - a serpentine receptor (that also functions in the Wnt signaling pathway). Serpentine receptors are routinely transduced by trimeric G-proteins, but until recently the general consensus was that Fzs were not G-protein linked. In Drosphila a G-protein (Gαo ) has now been identified that functions in both the Wnt and PCP pathways. Here we review the cell polarity phenotypes of Gαo mutants and discuss the evidence that it plays multifarious roles in PCP and the organization of the cytoskeleton.

Authors

Vladimir L. Katanaev

University of Konstanz, Konstanz, Germany

Andrew Tomlinson

Columbia University, New York, NY

We now provide open access to journal articles published online for one year or more. This article may be downloaded at the following link: