Abstract
The equilibrium of membrane fusion and fission influences the volume and copy number of organelles. Fusion of yeast vacuoles has been well characterized but their fission and the mechanisms determining vacuole size and abundance remain poorly understood. We therefore attempted to systematically characterize factors necessary for vacuole fission. Here, we present results of an in vivo screening for deficiencies in vacuolar fragmentation activity of an ordered collection deletion mutants, representing 4881 non-essential genes of the yeast Saccharomyces cerevisiae. The screen identified 133 mutants with strong defects in vacuole fragmentation. These comprise numerous known fragmentation factors, such as the Fab1p complex, Tor1p, Sit4p and the V-ATPase, thus validating the approach. The screen identified many novel factors promoting vacuole fragmentation. Among those are 22 open reading frames of unknown function and three conspicuous clusters of proteins with known function. The clusters concern the ESCRT machinery, adaptins, and lipases, which influence the production of diacylglycerol and phosphatidic acid. A common feature of these factors of known function is their capacity to change membrane curvature, suggesting that they might promote vacuole fragmentation via this property.
Highlights
Many organelles adjust their morphology by fusion or fragmentation
Starvation, for example, inactivates TORC1, which is necessary for vacuole fragmentation [27]
Bi-functionality may be the reason why the screen missed some subunits of the H+-pumping V-ATPase [53], which are necessary for vacuole fragmentation and fusion [54]
Summary
Many organelles adjust their morphology by fusion or fragmentation. Size, copy number and shape can change in reproducible ways in response to changes in environmental conditions or during the cell cycle. We screened the mutants for all non-essential yeast genes for the inability to fragment vacuoles in response to salt addition [30]. Screening the collection for mutants defective in vacuole fragmentation posed several challenges.
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