Abstract
The Sch9 kinase of Saccharomyces cerevisiae is one of the major TOR pathway effectors and regulates diverse processes in the cell. Sch9 belongs to the AGC kinase family. In human, amplification of AGC kinase genes is connected with cancer. However, not much is known about the effects of Sch9 overproduction in yeast cells. To fill this gap, we developed a model system to monitor subcellular location and aggregation state of overproduced Sch9 or its regions fused to a fluorescent protein. With this system, we showed that Sch9-YFP forms detergent-resistant aggregates, and multiple protein regions are responsible for this. This finding corroborated the fact that Sch9-YFP is visualized as various fluorescent foci. In addition, we found that Sch9 overproduction caused cell elongation, and this effect was determined by its C-terminal region containing kinase domains. The constructs we present can be exploited to create superior yeast-based model systems to study processes behind kinase overproduction in cancers.
Highlights
The Sch9 kinase of Saccharomyces cerevisiae has a plethora of functions
We transformed a wild-type strain (BY4742) and a similar strain deleted for SCH9 with these constructs and confirmed that full-length Sch9-YFP was produced in both cases (S1A Fig)
We observed that SCH9 overexpression caused elongation of cells (Fig 1); this fact will be described in detail below
Summary
Sch is one of the major TOR effectors [1] It takes part in regulation of protein synthesis in response to nutrient availability [1] and cell cycle progression [2]. Strains deleted for SCH9 are characterized by overall growth defect, which is expressed as significantly decreased cell size and growth rate [5]. Such strains possess increased thermotolerance, chronological [3] and replicative [6] lifespan. This effect may be explained by constitutively active oxidative stress response system [7] preventing accumulation of age-related
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