The Saccharomyces cerevisiae MVP1 Gene Interacts with VPS1 and Is Required for Vacuolar Protein Sorting

Abstract

The VPS1 gene of Saccharomyces cerevisiae encodes an 80-kDa GTPase that associates with Golgi membranes and is required for the sorting of proteins to the yeast vacuole. Vps1p is a member of a growing family of high-molecular-weight GTPases that are found in a number of organisms and are involved in a variety of cellular processes. Vps1p is most similar to mammalian dynamin and the Drosophila Shibire protein, both of which have been shown to play a role in an early step of endocytosis. To identify proteins that interact with Vps1p, a genetic screen was designed to isolate multicopy suppressors of dominant-negative vps1 mutations. One such suppressor, MVP1, that exhibits genetic interaction with VPS1 and is itself required for vacuolar protein sorting has been isolated. Overproduction of Mvp1p will suppress several dominant alleles of VPS1, and suppression is dependent on the presence of wild-type Vps1p. MVP1 encodes a 59-kDa hydrophilic protein, Mvp1p, which appears to colocalize with Vps1p in vps1d and vps27D yeast cells. We therefore propose that Mvp1p and Vps1p act in concert to promote membrane traffic to the vacuole.