Determine the Function of the Exocyst in Vesicle Tethering by Ectopic Targeting

We describe an assay, in which ectopically targeting the exocyst subunit Sec3 to mitochondria is used to determine its role in tethering of post-Golgi vesicles to the plasma membrane. In the assay, we use a plasmid that encodes a fusion protein of the mitochondria protein Tom20 and Sec3 N-terminally tagged with the florescence protein mCherry, and coexpress the plasmid in yeast cells with CIT1-GFP, a marker protein of mitochondria. We then detect the colocalization between Sec3 and CIT1 and other exocyst subunits such as Sec5 on mitochondria using fluorescence microscopy. We further detect the colocalization between Sec3 and Sec4, a Rab protein and a marker of post-Golgi vesicles. Through this assay, we propose that the exocyst subunit Sec3 recruits the other exocyst subunits and secretory vesicles to a target membrane, suggesting that it plays a pivotal role in vesicle tethering. This approach is likely appropriate for studying other tethering complexes at their specific stages of trafficking and may also be used in other eukaryotic cells such as the cultured mammalian cells.