Jillian Lottridge scite author profile

Ten class E Vps proteins in yeast are known components of the ESCRT complexes I, II and III, which are required for the sorting of proteins to the lumenal membranes of multivesicular bodies. We used the yeast 2 hybrid system to analyze the protein-protein interactions of all 17 soluble class E Vps proteins, as well as proteins thought to be required for the ubiquitination and deubiquitination of cargo proteins at multivesicular bodies. We identified novel interactions between yeast ESCRT complex components suggesting that ESCRTI binds to both ESCRTII and ESCRTIII. These interactions were confirmed by GST pull-down experiments. Our data indicate that the link between ESCRTI and ESCRTIII is via Vps28p and Vps37p/Srn2p binding directly to Vps20p, as well as through indirect interactions via ESCRTII. This is in contrast to the situation in mammalian cells where ESCRTI and ESCRTIII interact indirectly via ALIX, the mammalian homologue of yeast proteins Vps31p/Bro1p and Rim20p. Our data also enable us to link all soluble class E Vps proteins to the ESCRT complexes. We propose the formation of a large multimeric complex on the endosome membrane consisting of ESCRTI, ESCRTII, ESCRTIII and other associated proteins.

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Vta1p and Vps46p regulate the membrane association and ATPase activity of Vps4p at the yeast multivesicular body

Lottridge

Flannery

Vincelli

et al. 2006

Proc. Natl. Acad. Sci. U.S.A.

122

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Jillian Lottridge

Protein–Protein Interactions of ESCRT Complexes in the Yeast Saccharomyces cerevisiae

Vta1p and Vps46p regulate the membrane association and ATPase activity of Vps4p at the yeast multivesicular body

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