Abstract
Ubiquitination regulates many different cellular processes, including protein quality control, membrane trafficking, and stress responses. The diversity of ubiquitin functions in the cell is partly due to its ability to form chains with distinct linkages that can alter the fate of substrate proteins in unique ways. The complexity of the ubiquitin code is further enhanced by post-translational modifications on ubiquitin itself, the biological functions of which are not well understood. Here, we present genetic and biochemical evidence that serine 57 (Ser57) phosphorylation of ubiquitin functions in stress responses in Saccharomyces cerevisiae, including the oxidative stress response. We also identify and characterize the first known Ser57 ubiquitin kinases in yeast and human cells, and we report that two Ser57 ubiquitin kinases regulate the oxidative stress response in yeast. These studies implicate ubiquitin phosphorylation at the Ser57 position as an important modifier of ubiquitin function, particularly in response to proteotoxic stress.
Highlights
Ubiquitin is a post-translational modifier that regulates diverse cellular processes in eukaryotic cells
To probe potential biological functions of serine 57 (Ser57) ubiquitin phosphorylation in yeast, we analyzed the growth of yeast strains expressing exclusively wildtype, Ser57Ala or Ser57Asp ubiquitin under various stress conditions
We analyzed the role of Ser57 phosphorylation in the oxidative stress response
Summary
Ubiquitin is a post-translational modifier that regulates diverse cellular processes in eukaryotic cells. Given that Ser phosphorylation of ubiquitin regulates the clearance of damaged mitochondria [7,8,9,10,11,12], we hypothesized that phosphorylation at other positions may regulate ubiquitin function, in conditions that promote protein damage and misfolding. Since it is the most abundant phosphorylated form [14], we examined the biological functions of Ser phosphorylated ubiquitin in yeast, aiming to identify and characterize the molecular events and signaling processes that regulate its production
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