Litcius/Paper detail

A microscopy-based kinetic analysis of yeast vacuolar protein sorting

Jason C. Casler, Benjamin S. Glick

2020eLife46 citationsDOIOpen Access PDF

Abstract

is amenable to studying membrane traffic by live-cell fluorescence microscopy. We used this system to explore two aspects of cargo protein traffic through prevacuolar endosome (PVE) compartments to the vacuole. First, at what point during Golgi maturation does a biosynthetic vacuolar cargo depart from the maturing cisternae? To address this question, we modified a regulatable fluorescent secretory cargo by adding a vacuolar targeting signal. Traffic of the vacuolar cargo requires the GGA clathrin adaptors, which arrive during the early-to-late Golgi transition. Accordingly, the vacuolar cargo begins to exit the Golgi near the midpoint of maturation, significantly before exit of a secretory cargo. Second, how are cargoes delivered from PVE compartments to the vacuole? To address this question, we tracked biosynthetic and endocytic cargoes after they had accumulated in PVE compartments. The results suggest that stable PVE compartments repeatedly deliver material to the vacuole by a kiss-and-run mechanism.

Topics & Concepts

VacuoleCell biologyEndocytic cycleGolgi apparatusVacuolar protein sortingEndosomeSecretory pathwayBiologySaccharomyces cerevisiaeLive cell imagingTransport proteinClathrinV-ATPaseSecretory VesicleYeastExocytosisSecretionEndocytosisBiochemistryEndoplasmic reticulumCellCytoplasmGeneIntracellularProtein subunitCellular transport and secretionEndoplasmic Reticulum Stress and DiseaseAutophagy in Disease and Therapy