Abstract
Sorting of transmembrane cargo proteins to different cellular compartments is mediated by sorting signals that are recognized by coat proteins involved in vesicle biogenesis. We have identified a sorting signal in the yeast cell fusion protein Fus1p that is required for its transport from the trans-Golgi compartment to the plasma membrane. Transport of Fus1p from the trans-Golgi to the cell surface is dependent on Chs5p, a component of the multisubunit exomer complex. We show that Fus1p transport is also dependent on the exomer components Bch1p and Bud7p. Disruption of the clathrin adaptor protein complex 1 (AP-1) restores Fus1p localization to the cell surface in the absence of exomer, possibly by promoting an alternate, exomer-independent route of transport. Mutation of an IXTPK sequence in the cytosolic tail of Fus1p abolishes its physical interaction with Chs5p, results in mislocalization of Fus1p, and therefore causes a cell fusion defect. These defects are suppressed by disruption of AP-1. We suggest that IXTPK comprises a novel sorting signal that is recognized and bound by exomer leading to the capture of Fus1p into coated vesicles en route to the cell surface.